In our quest to relieve anxiety and stress and elevate our health, balancing GABA and glutamate is a key component of the self-care plan. I overcame disabling anxiety attacks and drug and alcohol addiction more than 34 years ago, as well as compulsive overeating, all of which are strongly associated with Gaba/glutamate issues, so I know this to be a profound truth. And my knowledge, experience, and passion for this topic are both personal and professional.
Working on this issue has been instrumental in my own life and my clients for maintaining sobriety, keeping anxiety at bay, managing stress, alleviating food cravings, improving sleep, aiding in gut issues, and living a peaceful life.
The first step in learning how to increase GABA and balance glutamate is to understand that they have a complex and interconnected relationship. Both are very important neurotransmitters that have a profound impact on many different aspects of our physical, mental, and spiritual health with the former being inhibitory and the latter being excitatory. Excitatory neurotransmitters stimulate brain cells, while inhibitory ones reduce stimulation. Like all neurotransmitters, too much or too little of either one leads to problems.
When all is working as it should, they keep each other in balance. However, there are many factors that can easily disrupt this delicate balance and result in too much glutamate and not enough GABA, which can wreak havoc on your mental and physical health.
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What is Glutamate?
Glutamate is one of your primary excitatory neurotransmitters. It has many important roles like stimulating your brain cells so you can talk, think, process information, learn new information, pay attention, and store information in short and long-term memory. As a matter of fact, studies suggest that the more glutamate receptors you have the more intelligent you are. High levels of glutamate receptors are correlated with superior abilities in learning and memory. Unfortunately, they also correlated with an increased risk of stroke and seizures.
Although glutamate is one of the most abundant neurotransmitters found in the brain, it exists in very small concentrations. If the concentration level rises, then neurons become too excited and don’t fire in a normal manner. Glutamate becomes an excitotoxin when it is in excess; meaning it overstimulates brain cells and nerves and results in neurological inflammation and cell death.
An excess of glutamate can be a primary contributing factor to a wide variety of neurological disorders like autism, ALS, Parkinson’s schizophrenia, migraines, restless leg syndrome, Tourette’s, pandas, fibromyalgia, multiple sclerosis, Huntington’s chorea, and seizures. As well as atrial fibrillation, insomnia, bedwetting, hyperactivity, OCD, bipolar disorder, anxiety disorders, and STIMS (repetitive self-stimulatory behaviors like rocking, pacing, body spinning, hand-flapping, lining up or spinning toys, echolalia, repeating rote phrases or other repetitive body movements or movement of objects that are commonly seen in autistic children), stiff person syndrome, and an increased risk of stroke.
Too much glutamate can also increase eosinophils (a particular type of white blood cell) which result in inflammation, impair blood vessels that lead to migraines and blood pressure irregularities, and impair other areas of the brain like the hypothalamus, hippocampal neurons, and Purkinje neurons which affect speech and language.
Mercury in the body becomes more toxic in the presence of high levels of glutamate. Excess glutamate also makes cancer cells proliferate and increases tumor growth and survival.
Elevated levels of glutamate trigger the brain to release higher levels of its natural opioids (endorphins/enkephalins) in order to protect the brain from damage, which can result in feelings of spaciness and eventually contribute to the depletion of your natural opioids, and it also depletes glutathione levels, which is vital for detoxification, controlling inflammation, and gut health. Additionally, glutathione also assists in protecting neurons from damage, so when it is depleted it is not available to do this job and thus contributes to more cell death. Our natural opioids are critical for moderating physical and emotional pain, happiness, feeling empowered, and much more, if they become low in supply then more problems ensue.
High levels of glutamate may increase the survival of unfriendly microbes in the gut and contribute to problems like excess acid and heartburn.
Too much glutamate can lead to too much acetylcholine, and too much acetylcholine has a stimulating effect as well and puts one into a perpetual state of sympathetic stress with high levels of anxiety, fear, insomnia, restlessness, nervousness, etc.
What is GABA?
GABA, which is short for gamma-aminobutyric acid, is your primary inhibitory neurotransmitter. Its primary role is to calm the brain, slow things down, and relax you. One of the ways that it assists in this process is by increasing alpha wave production. It is also vital in speech and language. GABA puts the pause or space between words when you speak. The brain uses it to support sensory integration. Without adequate GABA production, our conversations would consist of lots of run-on sentences, slurred speech, loss of speech, and we would have trouble with comprehending language.
Your gastrointestinal tract is packed with GABA receptors and it is critical for the contraction of the bowel. Insufficient levels can result in abdominal pain, constipation, and impaired transit. It also supports healthy levels of IgA, (antibodies that protect your gut and other mucous linings from harmful invaders) which means it contributes to immune health.
Insufficient levels of GABA result in nervousness, anxiety and panic disorders, tension, muscle spasms, aggressive behavior, decreased eye contact and anti-social behavior, attention deficit, problems with eye-focusing (like that seen in autistic children when both eyes are focused inward towards the nose or waver back and forth in a horizontal or vertical movement), chronic pain syndromes, and much more. It may also contribute to GERD as it is needed to help regulate the lower part of the esophagus.
Low levels of GABA play a vital role in alcoholism, drug addiction, and cravings for sugar and carbs, as these substances will temporarily and artificially increase GABA, so one is unconsciously drawn to them. However, these substances also deplete neurotransmitters like GABA, serotonin, dopamine, and endorphins, so they will perpetuate the problem.
Gamma-aminobutyric acid is found in almost every area of the brain, but the hypothalamus contains a very high level of GABA receptors, so it is vital for its many functions like regulating sleep, body temperature, appetite, thirst, sexual arousal and desire, and action of the pituitary, HPA axis, and the autonomic nervous system. The primary role of the hypothalamus is to maintain homeostasis throughout the body, and without enough GABA production, this will not happen.GABA also binds to sub-receptors and activates secondary messengers that affect dopamine.
Like all neurotransmitters, GABA and glutamate play a vital role in regulating the autonomic nervous system (stress response system), maintaining the balance between the sympathetic and parasympathetic nervous systems. Too many excitatory neurotransmitters and we are in sympathetic nervous system mode and not enough inhibitory and we are unable to return to the parasympathetic mode. Thus, depletion of GABA can be a major contributing factor to sympathetic nervous system dominance and the many associated conditions like adrenal fatigue, insomnia, chemical sensitivities, chronic fatigue, panic attacks, anxiety disorders, etc. Maintaining sufficient levels is crucial in the recovery of these conditions.
To make matters worse, it is believed that dopamine-producing neurons are controlled by glutamate and GABA. Therefore, imbalances with Gaba and glutamate are going to have a profound impact on dopamine levels, and dopamine is critical for regulating things like our ability to feel pleasure, joy, happiness, motivation, and many cognitive functions. This issue is too complex to go into depth at this time.
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GABA and Glutamate Balance
When GABA is low, glutamate is high and vice versa. So in order to increase GABA, it’s not merely a matter of bringing it up, you must also focus on reducing the excess glutamate. The goal is to achieve balance. between the two. You might think of glutamate as the accelerator and GABA as the brakes. Both are equally important.
Glutamate (also referred to as glutamic acid) is actually the precursor to gamma-aminobutyric acid, and any excess is supposed to be converted automatically into GABA. This is the way the system maintains balance; anytime glutamate levels start to build up too high, then it is converted to GABA to calm things down. However, sometimes the body cannot regulate glutamate properly for a variety of reasons which we will now discuss, then glutamate can build up to excessively high levels.
An enzyme called glutamic acid decarboxylase (GAD) is needed for glutamate to make the conversion to GABA, but there are several factors that may interfere with this enzyme and impede the conversion process, which means a build-up of glutamate and a decrease in the formation of GABA. Response time may be delayed or the capacity to convert may be impaired. It is believed that problems with the GAD enzyme may be the primary underlying issue that results in too much glutamate.
For example, the rubella virus, which is found in the MMR vaccination can decrease the activity of glutamic acid decarboxylase (GAD)by as much as fifty percent. Thus, this may explain one of the reasons children begin to exhibit some of the symptoms of autism immediately after vaccination because as we mentioned earlier GABA is critical in speech and brain function.
Other chronic viral infections interfere with the GAD enzyme and some microbes like streptococcus flourish in a glutamate-rich environment, thus many children with pandas and autism carry an ongoing infection with strep.
Methylation also plays a role in the GABA and glutamate balance in a variety of ways. For one, if there is impairment in the methylation pathway, then folate doesn’t get utilized and it can break down into glutamate. Additionally, if you are not methylating properly you may not be able to suppress microbes like viruses or make enough T cells to fight them off, which means they will linger around to interfere with the GAD enzyme.
Methylation may be impaired due to nutritional deficiencies, toxins, genetic mutations, Candida overgrowth, or SIBO. Methylation is also heavily influenced by the Krebs cycle and vice versa, so a problem in this cycle can also impede methylation, and consequently GABA production. The Krebs cycle can also be impaired by Candida overgrowth, as well as bacterial overgrowth.
Additionally, the synthesis of GABA itself is also dependent on the Krebs cycle, so it is vital in more ways than one that this system be working properly to have sufficient levels. The Krebs cycle can become impaired in a variety of ways like a deficiency in B vitamins or the presence of heavy metals, and toxins from bacteria or Candida.
The GAD enzyme is generated by the pancreas, so problems with the pancreas may impair the production of the enzyme.
People with type 1 diabetes produce antibodies against the GAD enzyme, which may impair its response time or ability to convert.
Lead interferes with GAD activity. Lead also inhibits another enzyme involved in the heme synthesis pathway which results in an accumulation of an intermediate that competes with GABA.
Some substances like allylglycine (a derivative of glycine) are potent inhibitors of GAD.
B6 is also needed as a cofactor with GAD to convert glutamate into GABA, so if B6 levels are not sufficient, the conversion won’t happen either. Much of the population is deficient in B6.However, supplementing with B6 will also increase CBS gene production, so if there is an issue here, one should proceed with caution.
There are two isoforms of GAD (GAD67 and GAD 65) and they are encoded by two different genes known as (GAD1 and GAD2). Genetic defects in GAD1 or a decrease in the activity of GAD1 due to other reasons lead to a decrease in glutamate and a decrease in GABA. GAD1 SNP variation rs3828275 is associated with panic disorders, traumatic brain injury, post-traumatic seizures, and depression, while a genetic variation in SNP rs12185692 is associated with neuroticism, anxiety disorders, and major depression.
The progesterone metabolite, allopregnanolone, binds to Gaba-A receptors, therefore insufficient levels of progesterone can lead to less Gaba function. On the other hand supplementing with progesterone or prenenalone could result in high levels of Gaba that get converted into glutamate in the Gaba shunt.
Additionally, glutamate receptors also pull in other excitatory substances into the cell besides glutamate, including all of the following:
- Aspartate (can also be converted into glutamate)
- Aspartic acid
- Glutamic acid
- Monosodium glutamate (MSG)
- Cysteine (But not N-acetylcysteine. However, N-acetylcysteine does contain sulfur and too much sulfur can be counterproductive as well, so should be used mindfully.)
Therefore, each of these can bind with glutamate receptors, which also results in excessive stimulation and contributes to the imbalance in GABA and glutamate and the wide array of symptoms that are generated. The more glutamate receptors you have the more excitatory substances that will be pulled in.
Citrate or citric acid has the potential to be neurotoxic in the very sensitive because most citrate is derived from corn, which can result in trace amounts of glutamate or aspartate during processing. The majority of vitamin C supplements are derived from corn and should be avoided for the same reason, look for a brand derived from another source. Additionally, pretty much all corn is genetically modified, which means it is loaded with glyphosate, which would also elevate glutamate, so another reason to avoid corn-based supplements.
To complicate things further, glutamate has the ability to bind with six other receptors in the brain, like the NMDA receptor, which assists in delivering calcium to the cell and plays a vital role in memory function and synaptic plasticity. Calcium is used by glutamate as the agent that actually inflicts the harm on the cell. So, if there is an excess of calcium in the body for any reason, it too will disrupt the GABA and glutamate balance.
Glutamate and calcium together cause ongoing firing of the neurons, which triggers the release of inflammatory mediators, which leads to more influx of calcium. It becomes a vicious cycle that results in neural inflammation and cell death. Glutamate has been described as the gun, while calcium should be seen as the bullet, says Dr. Mark Neveu, a former president of the National Foundation of Alternative Medicine. It’s important to note that activation of the NMDA receptor also involves glycine, D-serine, or D-alanine, which means either one of these could allow for more influx of calcium as well.
Magnesium can help regulate calcium levels and so can zinc. However, higher doses of zinc (more than 40mg per day) can also activate the release of glutamate through non-NMDA glutamate receptors, so one must exercise caution with zinc. However, if calcium is excessively high, other herbs or nutrients may be used to bring it down, like lithium orotate, Boswellia, or wormwood. Lithium, as well as iodine and boron, can also assist in lowering glutamate. Calcium intake in food may need to be reduced or limited if calcium is too high. Magnesium is also able to bind to and activate GABA receptors.
If one exhibits low levels of calcium, Dr. Amy Yasko recommends using nettle or chamomile to increase calcium levels, rather than supplementation of calcium itself, if we are dealing with someone who has an imbalance in GABA and glutamate. Vitamin K2 and D would be important as well in combination with the calcium to help with absorption. If supplemental calcium is used it should be accompanied by magnesium, which will help control the excitotoxic activity.
Glycine can be inhibitory or excitatory, and in people who tend to lean towards excess glutamate it typically becomes excitatory, so it may need to be avoided.
Glutathione contains glutamate, so supplementing too heavily may contribute to excess glutamate.
Vitamin D increases calcium levels, and as we established, elevated calcium levels can increase glutamate, so caution may be necessary with vitamin D supplementation.
The amino acid taurine increases the GAD enzyme and consequently GABA levels. Additionally, taurine doubles as an inhibitory neurotransmitter and can bind directly to GABA receptors, so it can help provide balance naturally in that manner as well. Higher levels of any inhibitory neurotransmitter help lower high levels of any excitatory neurotransmitter. Taurine is found in high levels in the brain and cardiac tissue, indicating its importance in these areas. Taurine is found most abundantly in seafood and animal protein, so it is often deficient in one’s diet.
If taurine is deficient, then the GAD enzyme may be low as well, therefore, supplementing with taurine can be used to manage the GABA and glutamate balance and protect from neuron death. However, there are a couple of genetic polymorphisms (particularly CBS and SUOX gene mutations) that can result in negative effects from taurine supplementation, because these mutations result in excess levels of sulfur in the body and taurine is sulfur based. If one has these gene mutations, they may also need to avoid other supplements that are high in sulfur and limit sulfur-based foods. These mutations can also impair ammonia detoxification as well. B6 and SAMe increase the activity of these gene mutations, so supplementation with these substances may compound the problem too. Because of the GABA shunt, which can convert GABA back into glutamine, which is then converted into glutamate, taurine supplementation may increase glutamate in some people.
Additionally, Candida produces a toxin called beta-alanine that competes with taurine for reabsorption in the kidney and causes taurine to be wasted in the kidneys and excreted through the urine, and beta-alanine is absorbed instead. Therefore, taurine levels may be insufficient, which can contribute to less GABA activity. Not only that, taurine can combine with magnesium to form magnesium taurate and the two of them may be eliminated together, which can lead to magnesium deficiency. Insufficient levels of magnesium are going to result in excessive levels of calcium, which as we established earlier, will increase glutamate firing.
Serotonin, another vital inhibitory neurotransmitter is also needed in order for GABA to work properly. If one is deficient in serotonin, then even if you have sufficient levels of gamma-aminobutyric acid, it may not be able to perform its inhibiting effects adequately. Increasing GABA may require bringing up the serotonin levels.
A diet that does not contain enough of the nutrients needed to make inhibitory neurotransmitters like animal protein and fat plays a vital role in an imbalance between glutamate and GABA. Furthermore, the proper transmission of any neurotransmitters can’t happen without adequate levels of fat and most people are not consuming enough fat in their diet. Additionally, many foods and substances like sugar, whole grains, legumes, any high starch food, caffeine, chocolate, artificial sweeteners and flavorings, food additives, and dyes can deplete GABA levels or disrupt transmission, so they should be removed from the diet. Grains (including whole grains) can bring about an excitotoxic effect by causing excessive glutamate formation in some people.
A ketogenic diet has been found to favor GABA production and be exceptionally beneficial in the treatment of many conditions associated with excess glutamate like seizures and epilepsy. A ketogenic diet increases the GAD enzyme and neurons can use ketones produced from fat burning as a precursor to GABA. Additionally, glutamate can be turned into GABA or aspartate. Aspartate is also an excitotoxin in excess, with similar effects as elevated glutamate. A ketogenic diet encourages glutamate to become GABA, rather than aspartate. However, many people who are high in glutamate are also high in histamine. Fat is a histamine releaser, so if the individual is also high-histamine, they will not do well on a true keto diet that results in ketosis.Therefore, I have found that following a low-carb Paleo diet(under 50 grams of carbs per day, high in animal protein, and moderate in fat) is the ideal diet for maintaining the balance between GABA and glutamate. This results in allowing us to run primarily on ketones and fat and a little glucose and reap those benefits, without putting us into true ketosis. However, each person can experiment with the fat, animal protein, and carb ratio to see what works best for them. You may want to note, that some fish like mackerel have high levels of naturally occurring GABA. But seafood is high-histamine, so should be avoided if one is also high-histamine.
Glutamate and insulin have an intimate relationship. On one hand, high glutamate will trigger the release of insulin, which means insulin will then lower glucose levels; but glucose is needed to help regulate glutamate levels at the synapses, so if it goes to low, then glutamate is going to increase. This means hypoglycemia or low blood sugar will result in both triggering high levels of glutamate and impairing your ability to reduce the build-up.
Therefore, not eating foods that spike insulin and keeping blood sugar levels stable is a vital element of keeping GABA and glutamate in balance. At the same time, keeping your glutamate balanced would be a vital aspect of keeping your insulin levels healthy, which would be important if you are trying to lose weight, have insulin resistance, type 2 diabetes, compulsive overeating, obesity, and the many other insulin-related conditions. Again, demonstrating how a low-carb Paleo diet would be the most beneficial diet for this issue.
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Some people have a genetic mutation (VDR/Fok gene) that impairs their ability to regulate their blood sugar levels sufficiently, Dr. Amy Yasko, says there are a variety of pancreatic supplements that may be needed to support this issue.
Environmental toxins like pesticides, herbicides, air pollution, heavy metals, and chemicals found in your common everyday household cleaning products, cosmetics, perfumes and colognes, air fresheners, personal care products, dish soap, laundry soap, and fabric softeners, all deplete and disrupt normal production and function of all neurotransmitters. Therefore, another critical component for maintaining sufficient levels of GABA is to reduce your exposure to these toxins by living a non-toxic and environmentally friendly lifestyle and eating organic.
Within the category of toxins, pesticides have the most profound impact on the brain. They are neurotoxins that can disrupt acetylcholine, dopamine, serotonin, endorphins, oxytocin, histamine, glutamate, norepinephrine, and GABA. Many pesticides primary mechanism of action is inhibition of GABA, meaning the pesticide achieves its goal or its effect on the target by inhibiting GABA. It is designed specifically for this action.
The toxins created by Candida can stimulate surges of glutamate production. Hundreds of other toxins can produce this same surge in glutamate activity, including mold toxins, bacterial toxins, Lyme, and organic solvents. Dr. Rick Sponaugle, a brain expert, states that even the toxins released by bacteria in your mouth that cause gingivitis and periodontal disease can increase glutamate activity and lead to a wide array of symptoms like anxiety. I can attest to this personally, I have experienced high anxiety from gingivitis. If I do not get my teeth cleaned regularly the bacteria in my mouth will cause anxiety as well as severe fatigue and problems sleeping. So it’s important to note, that many of the symptoms of Candida or bacterial overgrowth can be caused by an excess of glutamate.
Of particular interest is the impact of mycotoxins (mold and fungi toxins) on glutamate. One study found that it may increase the release of glutamate by 213 percent and aspartate by 227 percent. So anyone living in a home with an unidentified source of mold damage or who has had previous exposure could have significant elevations in glutamate.
Many practitioners suggest supplementing with GABA directly to increase GABA and lower glutamate. However, I frequently work with people who get a stimulating effect from GABA supplementation and I get a stimulating effect myself, so be sure to monitor your response.GABA itself can be converted back into glutamine, which is then converted back into glutamate through a metabolic pathway called the GABA shunt. So GABA supplementation (including Pharma Gaba) can end up increasing glutamate in some people as well.
The GABA shunt is a closed-loop process that exists in order to produce and reserve GABA. It is a very complicated and complex process and my understanding of it is pretty limited and elementary.
What I do understand is this. In the Gaba shunt, GABA is converted into glutamic acid, which is converted to glutamate, which is then converted to Gaba again. The process is in place to produce more Gaba. But in people who have the issue with the conversion process, it doesn’t get converted to Gaba and ends up remaining as glutamate. The problem occurs because some people have problems with the conversion. Therefore, this is one of the reasons that taking a supplement of Gaba can be counterproductive. All that Gaba in the Gaba shunt can become glutamate and not be converted back to Gaba. This is true of any supplement that increases GABA (including PharmaGABA) when GABA is elevated then it can convert back to glutamate.
Gaba in glial cells (non-neuronal cells in the brain, spinal cord, and peripheral nervous system) is converted into glutamine, and glutamine is converted to more glutamate and reenters the Gaba shunt to be turned into more Gaba. But, again the conversion may not be happening properly.
The Krebs cycle is also involved in the Gaba shunt, so any impairment there can affect how the shunt is working.
According to Dr. Datis Kharazzian, a brain expert, if you have any effect from GABA supplementation, (positive or negative) that means you have a leaky brain. In his book, Why Isn’t My Brain Working?, he explains that in a healthy brain, the junctions in the blood-brain barrier only permit nanoparticles to pass through. GABA “exceeds the nanoparticle size and does not have a blood-brain barrier transport protein.” It should not be able to cross the blood-brain barrier. If it does, then this suggests there is a leaky brain.
As a matter of fact, Dr. Kharrazian uses GABA supplementation as a screening tool to determine whether one has aleaky brain or not, calling it the GABA Challenge Test. He also states you shouldn’t take GABA supplementation, even if you have a positive effect, “because you risk shutting down your GABA receptor sites.” This is evidenced by the fact that many people experience withdrawal when they come off a GABA supplement. The fact that withdrawal is occurring tells us that the brain is downregulating responsiveness to GABA in response to the GABA supplementation. If you have no effect from GABA, this is a good sign, you most likely do not have a leaky brain. If a leaky brain is present, then many other harmful substances can be crossing the blood-brain barrier and cause additional problems.
N-acetylcysteine (NAC) is supposed to be a glutamate scavenger and may be suggested to increase GABA, however, it also increases glutathione, and excess glutathione can increase glutamate, so this may or may not provide relief.
You have most likely seen the substance called phenibut for increasing GABA. I am not in favor of using it because it is an artificial means of stimulating gamma-aminobutyric acid, and remember any artificial stimulation leads to depletion. Many people report that they get addicted to phenibut, thus demonstrating that it is indeed too stimulating which will perpetuate depletion. As I see it, phenibut is an addictive mind-altering drug.
Another popular choice to increase GABA is l-theanine. L-theanine is a glutamate analog. This means if you fall into the category of people who are having problems converting your glutamate to GABA, this could lead to excess glutamate rather than GABA. Additionally, l-theanine is derived from tea or mushrooms, it is an artificial means of supplementing glutamate, not natural. Furthermore, it could have traces of caffeine or fungi from its original source, which could be problematic as well. Therefore, l-theanine may work for some but have the opposite effect for others. Lithium orotate is used by some practitioners instead, and it may be a better choice.
Many manufacturers of nutritional supplements and health care practitioners have no knowledge or are not fully educated on the topic of glutamate. Therefore, it is very common for nutritional supplements, even some of the more respected brands, to contain excitotoxins. If you tend to lean towards excess glutamate, you must be very careful with your nutritional supplements.
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Drugs and Medications that Affect GABA
There are many drugs (e.g. benzodiazepines and nonbenzodiazepine sedatives) that target your GABA receptors like Ativan, Xanax, Klonopin, Valium, and Neurontin (Gabapentin), Depakote, and others. Some of these drugs, like benzos, look similar in chemical structure as gamma-aminobutyric acid so they can fit in your GABA receptors, which artificially stimulates them, but they do not actually increase production. Therefore they do not address the underlying problem of not producing enough because there must be some level of GABA present in order for these drugs to have an effect. Others like Gabapentin mimic GABA in some other way. Furthermore, anytime an exogenous (from outside the body) substance is used to artificially stimulate a neurotransmitter the brain responds by reducing production or responsiveness, which results in more depletion of the neurotransmitter, which in this case is GABA. Therefore, any drugs that target GABA receptors or mimic them, or manipulate GABA or glutamate in any way, will inhibit your ability to acquire and maintain balance and cause even bigger problems.
Benzodiazepine use can cause long-term and even permanent damage to GABA receptors. In all cases, it is difficult to reverse and often a life-long recovery process. The longer they are used and the higher the dose the more damage that is done and the harder it is to reverse. Many studies have shown that long-term users of benzodiazepines have significant brain damage including atrophy. However, with the proper changes in diet and lifestyle, the damage can be managed and a high level of comfort can be achieved. As I mentioned previously,I am a recovered alcoholic and benzo addict; I used them for nearly ten years and I have been clean and sober for more than 34 years and completely overcame my disabling anxiety attacks. The effects of nonbenzodiazepine sedatives like Ambien and others would be similar.
This is also true of herbs that are used to increase GABA levels such as Valerian Root, Kava Kava, holy basil, passionflower, chamomile, or any other herb used for this purpose. The brain responds to herbs that manipulate neurotransmitter levels in the same manner as a pharmaceutical – it will downregulate responsiveness or production of GABA, thus making the problem worse.
Alcoholic beverages are another drug that depletes GABA and elevates glutamate in a similar manner as benzos. The more alcohol that is consumed, the more Gaba is depleted and glutamate elevates. The recovering alcoholic or anyone abusing alcohol is dealing with an extreme level of glutamate. And the use of marijuana and cannabis would also hinder one’s ability to balance their Gaba and glutamate for the numerous impact it has on all neurotransmitters and the fact that a high dose of THC inhibits the production of Gaba.
There are various other pharmaceuticals that can harm Gaba receptors and contribute to the imbalance, such as products taken for hair loss that contain finasteride like Propecia and the antibiotic Cipro.
Finasteride prevents the formation of neurosteroids, which are needed to activate GABA(a) receptors, so it inhibits GABA activity. These inhibited neurosteroids (steroids formed in the brain) are also needed to modulate neuronal excitability. There is a serious condition called Post-Finasteride Syndrome that is likely the result of this impact on Gaba.
Cipro and other fluoroquinolone antibiotics are antagonists to GABA(a) receptors meaning they bind to GABA(a) receptors and block GABA from being able to bind to the receptors, resulting in stimulation to the central nervous system. Many people report a wide array of neurological and psychological symptoms even after discontinuing the use of Cipro that suggests possible long-term damage to Gaba receptors that is not easily reversed.
In the benzo-addicted individual, Cipro can also block benzos (benzodiazepines) from binding to the GABA(a) receptors and thrust the individual into sudden withdrawal.
Loud Noise, Tinnitus and Glutamate
Exposure to loud noise can have harmful effects on the endocrine system, cardiovascular system, brain, and nervous system, including a level of glutamate release that is excitotoxic. This overwhelms glutamate receptors and may cause irreversible damage to synapses. Loud noise may also damage hair cells in the cochlea leading to excess glutamate.
Either way, this can lead to tinnitus (or even hearing loss), but tinnitus may occur with glutamate toxicity even without the presence of loud noise. Ototoxic drugs (drugs that harm the hair cells in the cochlea) may also lead to excess glutamate and tinnitus. I would say that some herbs can have an ototoxic effect as well, as I have frequently experienced a flare in tinnitus from various herbal supplements.
Excitotoxins in the Diet
One of the biggest contributors to an imbalance in GABA and glutamate is the presence of excitotoxins in the diet. Many foods and nutritional supplements contain the excitotoxins (glutamate, glutamic acid, glutamine, aspartate/aspartic acid, and cysteine) or they contain substances that can prompt the body to produce them. These foods and substances should be avoided by anyone trying to balance their GABA and glutamate levels and anyone who tends to generally lean towards excess glutamate.
Dr. Amy Yasko explains that “excitotoxins in food overexcite neurons to the point where they become inflamed and begin firing so rapidly they become exhausted or die.” This results in a wide array of neurological symptoms that are found in autism, OCD, anxiety disorders, insomnia, hyperactivity, attention deficit, nervousness, aggressive behavior, restless leg syndromes, Tourette’s, migraines, seizures, and more. Excitotoxins increase other excitatory neurotransmitters as well like norepinephrine, which compounds these symptoms.
Dr. Amy Yasko, an expert in autism, tells parents with children who have autism that if they take only one step in her recovery program that the most important element is to eliminate excitotoxic foods that increase glutamate levels. This one step alone can provide dramatic improvements in STIMS. Thus, demonstrating the profound impact that excitotoxins have on brain function.
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Most Common Sources of Excitotoxins
Monosodium glutamate. Keep in mind that MSG is found in numerous places you may not be aware of like most processed food, fast food restaurants, and it may be a binder in medications, supplements, prescription drugs, over the counter drugs, IV fluids, vaccines, and as a growth enhancer sprayed on crops of food and produce called Auxigrow.
Glutamate and aspartate are naturally occurring in wheat gluten, hydrolyzed yeast, and milk casein (which means any dairy product that contains casein has the potential for problems, but particularly cheese, which is a concentrated form of casein).
Other common food sources that contain excitotoxins include, hydrolyzed protein, hydrolyzed oat flour, or anything hydrolyzed, sodium caseinate, calcium caseinate, disodium caseinate, autolyzed yeast, yeast extract or anything else autolyzed, gelatin, glutamic acid, carrageenan or vegetable gum, guar gum, bouillon, kombu extract, anything malted, maltodextrin, many seasonings and spices, soy extract, soy protein or soy protein concentrate, or soy protein isolate, and soy sauce, textured protein, whey protein, whey protein concentrate or isolate.
The words natural flavor or natural flavoring on a package typically means it contains MSG or some other excitotoxin because they are used to stimulate your taste buds and artificially intensify the flavor.
Other foods or substances that contain excitotoxins and can damage nerves include anything fermented, protein fortified, or ultra-pasteurized or vitamin-enriched, corn syrup, bodybuilder formulas or protein formulas, caramel flavoring or coloring, flowing agents, dry milk, L-cysteine, egg substitutes, cornstarch, corn chips, citric acid if it is processed from corn, certain brands of cold cuts, hot dogs and sausages (even the ones in health food stores), many canned foods, pectin, pickles, any processed food, meats in the mainstream grocery store are often injected with them, tofu or other fermented soy products, xanthan gum or other gums.
Any nutritional supplement that contains glutamine. Glutamine is often recommended to heal the gut and increase GABA, but it first increases glutamate, and if you aren’t converting your glutamate to GABA for any of the many reasons we listed above, then you end up with nothing but a bunch of excess glutamate. Anyone who has an issue with excess glutamate should typically avoid supplementation with glutamine. Glutamine and glutamate convert back and for into one another.
Furthermore, some bacteria in the gut convert glutamine into glutamate. If one has an excess of these types of bacteria, which could be the case in SIBO, then glutamine supplementation may contribute to excess glutamate. Additionally, some gut bacteria eat glutamine, so in people who have SIBO, glutamine can cause the proliferation of SIBO, and toxins from SIBO can lead to excess glutamate.
It can also be a matter of potency. For example, I can consume yogurt every once in a while with no glutamate problems, but if I consume whey protein then I have immediate excess glutamate. This is because the level of glutamate in whey protein is much more concentrated than it is in yogurt. Anything that has a concentrated level of glutamate is going to be more problematic than something that has less potency.
Bone broth, which is commonly recommended for healing the gut is very high in glutamate, especially chicken bones. For example, I get an instant migraine from taking a little sip of bone broth from the glutamate content. I can’t even cook chicken or beef with the bone, or the meat will absorb the glutamate and give me a migraine. I can sometimes eat beef or buffalo cooked with the bone, but it varies. I do best if the bone is removed. So you should experiment to see if your meat cooked with bone is contributing to your glutamate imbalance and be aware that bone broth will increase your glutamate levels. Just slow-cooking meat for a long time, particularly braising, can increase glutamate.
Some common foods that are particularly high in glutamate are parmesan cheese, Roquefort cheese, tomato juice, grape juice, and peas. Walnuts, mushrooms, broccoli, tomatoes, and oysters are moderately high as well. Chicken and potatoes to a much lesser degree. If you eliminate all the other high glutamate substances, then you may not have a need to reduce some of these health-enhancing foods like broccoli, walnuts, and chicken. However, if your glutamate levels are really elevated, then these foods may be problematic as well, at least until you get levels reduced to some degree.
Protein powders, amino acid formulas, and collagen are high in glutamate. Branch chained aminos (leucine, isoleucine, and valine) taken in high concentrations can be excitotoxic.
Other Contributing Factors to GABA and Glutamate Imbalance
There are other genetic polymorphisms that mayinhibit your ability to synthesize GABA itself, besides those we discussed that involve the GAD1 gene.
Up-regulation of the CBS gene, which increases alpha-ketoglutarate production can lead to excess glutamate.
Conversion of glutamate to GABA by glutamate decarboxylase (GAD) is inhibited by copper, so make sure copper levels are not elevated.
Pyroluria is a genetic problem in hemoglobin synthesis that can result in deficiencies in B6 and zinc, both of which are critical for the production of GABA and the management of excess glutamate. Therefore, if you have pyroluria it can indirectly contribute to impairing GABA and glutamate balance.
Chronic stress is a major contributing factor to the depletion of GABA and other inhibitory neurotransmitters. High levels of inhibitory neurotransmitters like gamma-aminobutyric acid and serotonin are needed to modulate the stress response system. They help the mind and body return to the parasympathetic state when the stressful event is over. If the stressful event is never over, then they are called upon repeatedly and over time this will drain their levels. Therefore, managing chronic stress is a vital element to increase GABA and lower glutamate and maintain that balance.
Childhood abuse or trauma alters GABA receptors, resulting in less GABA function, and this is carried with the survivor into adulthood. Survivors of abuse also have lower levels of serotonin and dopamine. They are also left with an upregulated and hypersensitive stress-response system. This is also true of any type of trauma, acute stress, or life-threatening event as an adult as well such as rape, domestic violence, or a natural disaster.
On the other hand, high levels of glutamate may cause excitability in the amygdala, which incites anxiety, fear, and panic and sets off the stress response system.
Vitamin K is very important for GABA and glutamate balance as well, as it is needed for healthy calcium metabolism where it reacts with glutamate and calcium to deliver calcium to the bones and teeth, and it prevents the accumulation of excess calcium which would contribute to cell death. Vitamin K is a fat-soluble vitamin; however, unlike other fat-soluble vitamins, it is not stored in the body and must be consumed on a daily basis. Vitamin K1 is found in leafy greens. Typically, vitamin K2 is produced when the friendly flora in our gut process leafy greens, but if dysbiosis is present or you’re not eating leafy greens, then vitamin K may be insufficient. But vitamin K2 is also found in a variety of food sources like dairy and animal protein. Grass-fed butter is a good source of Vitamin K2.
The pancreas uses Vitamin K abundantly for sugar regulation. In addition to the brain, the pancreas is also very vulnerable to the accumulation of excessive glutamate or other excitotoxins, which will further impair the regulation of sugar. As we discussed previously, too much or too little insulin or glucose can both contribute to excess glutamate, therefore, keeping glutamate and GABA in balance is critical for the health of the pancreas and all its functions and the health of the pancreas is vital for maintaining the balance.
Some people may have a genetic predisposition to have more glutamate receptors than others, and the more glutamate receptors you have, the more you will take in. In this case, you will likely be someone who always tends to lean toward excess glutamate activity and will need to engage in life-long ongoing monitoring and maintenance to prevent overstimulation, cell death, and neurological symptoms. However, if there is excess glutamate in the system due to genetic mutations, methylation problems, etc., then more glutamate receptors will be generated as well.
As is true for all neurotransmitters, ensuring that you get adequate sleep is vital for normal function because sleep deprivation causes neurons to lose sensitivity to neurotransmitters, thus impairing communication.
It’s also important to take note that it is not possible to eliminate every single source of glutamate or other excitotoxins, nor do you want to. Remember that glutamate is vital for proper brain function in small concentrations; the goal is to prevent excess. Preventing overstimulation, cell death, and neurological symptoms may sometimes be a matter of moderating accumulation. The more foods or substances that one consumes that are excitotoxic the more it builds up. You may get away with a little consumption, but if consumption is high then it pushes you over the edge of the cliff, and symptoms present.
One of the greatest aspects of GABA is that it also opposes norepinephrine, your other primary excitatory neurotransmitter which is also important for stimulation, but it sets off the stress response system. Like glutamate, norepinephrine is also toxic to the brain when it is in excess. Excess norepinephrine can produce many of the same kinds of symptoms that excess glutamate produces and it can sometimes be hard to tell the difference between the two. Fortunately, when you focus on increasing your gamma-aminobutyric acid then you help reduce excess norepinephrine in addition to excess glutamate.
So, to summarize the steps that should be taken to increase GABA and lower glutamate, it is vital to be eating the right diet, avoiding excitotoxins, managing stress, avoiding environmental toxins, addressing nutritional deficiencies and/or genetic polymorphisms, getting adequate sleep, supporting a healthy gut, assessing for microbial overgrowth, and identify any other nails in the shoe that may exist. We must consistently eat and live in a manner that encourages balance on an ongoing and lifelong basis.
It’s very important that you don’t just start supplementing with everything you’ve read will be helpful, as this usually backfires and you get the exact opposite effect. The sicker you are the slower you need to go with supplementation. Only take one thing at a time and monitor your response before trying something else. Some people must start with very minute doses. In most cases, less is more when it comes to supplementation. In many cases, staying away from supplementation is one of the best things one can do for balancing GABA and glutamate. The best results are going to be achieved with proper changes in diet and lifestyle strategies and techniques.
Working with neurotransmitters is a complex and difficult process that is best done with a practitioner who has expertise in this area. However, finding someone who has enough expertise to cover all the bases we have presented on this page is very difficult as well, so you serve yourself better by being very well informed before beginning the journey. Please note that although I know a great deal, I do not know everything either. I’m always in the learning process and this page is updated periodically as new knowledge comes to light.
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What supplements balance GABA and glutamate? ›
The balancing supplements for glutamate and GABA include the amino acids taurine, GABA, and l-theanine; the anti-oxidants NAC and green tea; vitamins B6 and D; the minerals magnesium and zinc; omega-3 fatty acids; and several herbal therapies.How do I restore my GABA balance? ›
Consuming foods rich in glutamic acid, which helps create GABA in the brain, is a quick and easy way to increase and maintain proper GABA levels. These are foods like citrus fruits and bananas, or certain nuts like almonds and walnuts.What vitamins increase GABA? ›
Take nutritional supplements.
One of the simplest ways to boost your body's GABA levels is to take supplements such as GABA, valerian, lemon balm, passionflower, l-theanine, magnesium, taurine, which are all associated with greater levels of this calming neurotransmitter.
Magnesium stimulates the activity of cerebral GABAergic systems by behaving as a modulator of GABA receptors, increasing their activity.What is the best GABA supplement? ›
- GNC GABA.
- KAL GABA 25 mg - Cherry Natural Flavor.
- Natural Factors Pharma GABA.
- NOW GABA 500 mg.
- NVS Labs GABA.
- Source Naturals GABA Calm.
- Swanson GABA.
- Thorne PharmaGABA-100.
Those with potential clinical efficacy include dextrorphan, dextromethorphan, licostinel, and magnesium.
Nutrients that help to lower glutamate levels include vitamin C, magnesium, vitamin D, and omega-3 fatty acids.What stimulates GABA release? ›
GABA release into the synaptic cleft is stimulated by depolarization of presynaptic neurons. GABA diffuses across the cleft to the target receptors on the postsynaptic surface. The action of GABA at the synapse is terminated by reuptake into both presynaptic nerve terminals and surrounding glial cells.How long does it take to restore GABA levels? ›
A minimum of 3-6 months is required to restore neurotransmitter levels to normal. However, it takes longer to restore the body's total store of neurotransmitters. If a patient stops the neurotransmitter therapy too quickly, they may experience a return of their original symptoms.What depletes GABA in the brain? ›
Alcohol use can lead to downregulation in the number and sensitivity of GABA receptors in the brain and can reduce GABA's ability to bind to its receptors. Also the loss of GABA in the urine can lead to depletion of GABA stores. Iron levels may contribute to inadequate receptor binding of GABA and low GABA stores.
Can you repair GABA receptors? ›
Two potential medications that may restore GABAA receptor function are the gabapentinoids (Figure 5) and muscimol (MML) (Figure 14). Since gabapentinoids increase extrasynaptic GABA levels and block Ca2+ channel activity, more GABA is available to bind to extrasynaptic receptors.What causes not enough GABA? ›
The most important function of GABA is in our brain. When GABA levels get too low, it's difficult for the body to relax after a stress-induced neurotransmitter release. Low GABA activity leads to anxiety, depression, insomnia, and mood disorders. GABA is a natural brain relaxant that makes us feel good.What causes GABA imbalance? ›
Causes. GABA-transaminase deficiency is caused by mutations in the ABAT gene, which provides instructions for making the GABA-transaminase enzyme. This enzyme helps break down a brain chemical (neurotransmitter) called GABA when it is not needed.Does B12 increase GABA? ›
Vitamin B12 enhances GABA content but reduces glutamate content in the rat suprachiasmatic nucleus. Am J Physiol.What herb has the most GABA? ›
The largest body of evidence for GABAA modulation is associated with valerian root (Valeriana officinalis L.), which is widely used to reduce the latency of sleep onset and increase sleep quality [13,79].Does zinc increase GABA? ›
The present study suggests that zinc enhances GABA release via potentiation of AMPA/kainate receptors in the CA3 region, followed by a decrease in presynaptic glutamate release in the same region. Zinc seems to be an inhibitory neuromodulator of glutamate release.Should I take magnesium and GABA together? ›
The bottom line. Gabapentin and magnesium can interact with each other. Magnesium can lower the effects of gabapentin. If you've been prescribed gabapentin and take a medication or supplement containing magnesium, it's recommended to take gabapentin at least 2 hours after taking it.Does magnesium increase glutamate? ›
Magnesium blocks the actions of glutamate in the NMDA receptors. If your body is magnesium deficient, it means that few of the NMDA receptors are blocked. This may lead to overexcitation and cell damage. Because of this, it is possible that magnesium may be useful in the treatment and prevention of depression.What is the best form of magnesium for anxiety? ›
Based on current data, magnesium taurate and glycinate have the most research supporting their effects on anxiety and other mental health disorders. Magnesium malate and threonine have also demonstrated therapeutic effects and may be useful in many psychiatric cases.Which is better L theanine or GABA? ›
When it comes to L-theanine and GABA, L-theanine wins the battle to cross the blood brain barrier. Once consumed, it can easily cross the blood brain barrier and its effects on the brain are noted within 30 minutes . L-theanine helps to promote relaxation without making you drowsy.
Can you take GABA supplements everyday? ›
It is possibly safe when taken in larger amounts as medicine. Doses of up to 1.5 grams daily have been used for up to one month. There isn't enough reliable information to know if GABA supplements are safe when used for longer than one month.What are the symptoms of low GABA? ›
The symptoms for an individual with GABA-T deficiency can include: psychomotor retardation (a slowing down of thought and activity), low muscle tone, hyperactive responses, lethargy, seizures, and EEG abnormalities.How do you fix glutamate levels? ›
Because certain foods contain high amounts of free glutamate, one of the easiest ways to reduce glutamate toxicity is through dietary intervention. This can be done by removing or reducing foods that are high in free glutamate, such as: Gluten, dairy, and soy. Processed foods.How do I restore my glutamate levels? ›
Relaxing herbs such as lemon balm, chamomile, and passion can offset the negative effects of glutamate by restoring its balance with gamma-aminobutyric acid (GABA).Does zinc block glutamate? ›
Zinc directly inhibits NMDA-sensitive glutamate-gated channels by two separate mechanisms: high-affinity binding to N-terminal domains of GluN2A subunits reduces channel open probability, and low-affinity voltage-dependent binding to pore-lining residues blocks the channel.Does Ashwagandha reduce glutamate? ›
Studies have shown that when ashwagandha was used before glutamate exposure, there was a natural protection from glutamate excitotoxicity in the brain.What medications regulate glutamate? ›
Interestingly, vitamin C is prone to increase the activity of NMDA receptors but also promotes a decrease in glutamate-stimulated [3 H] MK801 binding and decreases cell membrane content of NMDA receptor glutamate ionotropic receptor subunit 1 (GluN1) subunits.What promotes the binding of GABA? ›
Neuroactive steroids have effects similar to those of barbiturates in that they enhance agonist binding to the GABA site and allosterically modulate benzodiazepine and TBPS binding [2,3]. Also, like barbiturates, high concentrations of neurosteroids directly activate the GABAA receptor Cl− channel.Does increasing serotonin increase GABA? ›
When it comes to GABA, serotonin plays the role of a modulator. This means it works to enhance and improve the effects of GABA.
Does L theanine increase GABA? ›
L-theanine has been historically reported as a relaxing agent, prompting scientific research on its pharmacology. Animal neurochemistry studies suggest that L-theanine increases brain serotonin, dopamine, GABA levels and has micromolar affinities for AMPA, Kainate and NMDA receptors.What is a natural source of GABA? ›
GABA-rich foods include cruciferous vegetables, beans, peas, tomatoes, spinach, mushrooms, sprouted grains, rice (particularly brown rice), and chestnuts. Also, enjoy fermented foods (kefir, yogurt, tempeh, kimchi, etc.) and oolong and white teas, which all naturally contain GABA.How can I balance my brain neurotransmitters naturally? ›
Diet. Maintaining a healthy balance of neurotransmitters requires a healthy balanced diet. This provides the brain with the necessary neurochemical building blocks, as well as the appropriate chemicals which are required to support their synthesis, transportation and degradation.How much GABA should I take daily for anxiety? ›
GABA Dosage Guide
The typical dosage for general stress relief is around 750–800 milligrams daily, divided up into three to four doses over the course of the day. For anxiety, some recommend taking between 250 milligrams to 650 milligrams three times daily, for a total of 750–1,950 milligrams.
GABA receptor antagonists are drugs that inhibit the action of GABA. In general these drugs produce stimulant and convulsant effects, and are mainly used for counteracting overdoses of sedative drugs. Examples include bicuculline, securinine and metrazol, and the benzodiazepine GABAA receptor antagonist flumazenil.What teas increase GABA? ›
The research was made with green tea but they later found that the GABA levels increased not only in green tea but also in black tea and oolong tea.What happens when there is too little glutamate? ›
Too Little Glutamate
Glutamate deficiency in the brain is believed to cause such symptoms as: Insomnia. Concentration problems. Mental exhaustion.
Clinical studies suggest that taking up to 120 milligrams (mg) of GABA per day as supplements for 12 weeks is unlikely to cause adverse effects. People should take care when using them with other drugs. Using them with medications for high blood pressure or epilepsy may increase the impact of those drugs.How do you balance excess glutamate? ›
Relaxing herbs such as lemon balm, chamomile, and passion can offset the negative effects of glutamate by restoring its balance with gamma-aminobutyric acid (GABA).What happens if GABA is out of balance? ›
Certain neurologic and mental health conditions are thought to be related to times when GABA messaging activity (“signaling”) isn't in balance and working as it should. Decreased GABA activity may contribute to: Anxiety and mood disorders.
What are the symptoms of GABA deficiency? ›
The symptoms for an individual with GABA-T deficiency can include: psychomotor retardation (a slowing down of thought and activity), low muscle tone, hyperactive responses, lethargy, seizures, and EEG abnormalities.What foods have the highest GABA? ›
Some authors found one of the highest contents on GABA to be 414 nmol/g of dry weight in raw spinach, followed by Solanum tuberosum L. (that is, potato), Ipomoea batatas L. (that is, sweet potato), and Brassica oleracea L. (that is, cruciferous such as kale and broccoli).What removes glutamate from brain? ›
Glutamate is removed from the synaptic cleft by several high-affinity glutamate transporters present in both glial cells and presynaptic terminals. Glial cells contain the enzyme glutamine synthetase, which converts glutamate into glutamine; glutamine is then transported out of the glial cells and into nerve terminals.Does B12 lower glutamate? ›
Vitamin B12 enhances GABA content but reduces glutamate content in the rat suprachiasmatic nucleus. Am J Physiol.Can glutamate damage be reversed? ›
While the center itself cannot be saved, the secondary damage triggered by glutamate release from damaged or dying brain cells could theoretically be prevented or at least limited, and perhaps even reversed.What causes GABA to drop? ›
Nutrient deficiencies, partial B vitamins and other amino acids from the diet, and prolonged stress (which can deplete B Vitamins) may result in low GABA levels. Low levels of GABA have been associated with mood disorders such as anxiety and depression, insomnia, irritability, and restlessness.What causes lack of GABA in the brain? ›
Causes. GABA-transaminase deficiency is caused by mutations in the ABAT gene, which provides instructions for making the GABA-transaminase enzyme. This enzyme helps break down a brain chemical (neurotransmitter) called GABA when it is not needed.Does oatmeal increase GABA? ›
Furthermore, the whole oats increased proliferation of a specific bacteria called Bifidobacterium adolescentis which has the ability to synthesize and secrete the neuroactive substance γ-aminobutyric acid (GABA) and has been associated with disease prevention.What herbs increase GABA in the brain? ›
Valerian, hops, chamomile, passionflower, St John's wort, magnolia and kava are all herbs that have been found to increase GABA levels. They are also traditionally used to reduce anxiety, pain levels, insomnia and restlessness.