How Histamine Intolerance Affects Your Brain
Histamine's powerful effects on mood, sleep and stress
How histamine intolerance affects your brain
By now you’re likely aware of the effects of histamine on your overall health, and how an excess of histamine is the reason behind your chronically dripping nose, digestive issues like bloating and cramps, and other irritating allergic reactions like a rash, itchy eyes and a scratchy throat.
You already know that histamine forms as part of many essential processes related to your immune response, and why the foods you eat trigger histamine, but did you know that histamine plays a crucial role in your brain, too?
Surprisingly, the histamine response in your brain that can have such a profound effect on your mood, ability to concentrate, and overall brain function. Today, you're going to discover the link that living with high histamine has with your sleep troubles, emotional imbalances and stress responses.
Histamine in the brain
Your brain is constantly receiving signals from the environment via inputs from your five senses. The brain doesn’t simply receive and process them; it takes four complex systems, called the aminergic systems, to process the information and ensure it goes through the correct channels. One of these systems is known as the histaminergic system, which involves a histamine-mediated process. The role of histamine here is one of homeostasis, or balance. It acts as a modulator of the stimuli received relating to1:
- The sleep-wake cycle
- Motivation and goal seeking behaviors
- Satiety, feeding behaviors and taste perception
- Neurotransmitter regulation
- Addictive behaviors
- Memory formation
- Pain perception
Those all seem pretty important, don’t they; and with this in mind, you can begin to paint a picture of why an increase in your histamine load affects your brain so profoundly.
But where in the brain does this happen?
The histamine found in brain tissue comes from two major pools, namely mast cells and neurons. Mast cells are relatively scarce in the brain, therefore the primary source of histamine is found in neurons. More specifically, these histamine-releasing neurons are exclusive to just one region of the brain, known as the hypothalamus2. It is from this location that histamine spreads to other areas of the brain.
When histamine binds to the receptors located in other brain regions, it causes an excitatory effect, one which is amplified even further during periods of wakefulness3. This means that histamine is independently over stimulating areas of the brain.
To break down histamine in the brain and prevent this excitatory mechanism from running rampant, the HNMT enzyme (not DAO, that you’ve likely heard about so often) comes into play. HNMT breaks down histamine by forming a t-type methylhistamine, which is then broken down even further by two enzymes called monoamine oxidase B (MAOB) and aldehyde dehydrogenase4.
Now, looking at the list of functions above, and having and idea of histamine’s importance, let’s take a deeper look at the symptoms caused by histamine in the brain.
The sleep-wake cycle
You already know that histamine is responsible for wakefulness, so there is little wonder why too much histamine increases the risk of sleeplessness and sleeping disorders like insomnia. It's interesting to note that more than half of all of the over-the-counter sleep aids contain a histamine receptor blocking agent, to reduce the effects of histamine in sleep disorders5.
Motivation and goal seeking behaviors
Histamine plays a role in motivation and reward mechanisms in the brain6. The association has been studied in exercise capacity, where the response to an increase in histamine increases motivation to complete tasks, and has a positive influence on goal seeking behaviors.
Satiety, feeding behaviors and taste perception
Hunger is a survival mechanism, which the body uses to stimulate food seeking as a means to meet the metabolic and energy demands of the body. We have known about the link between histamine and feeding cycles since the 70s - there’s a distinct inverse correlation between histamine levels and food intake. As histamine increases, so does appetite and feeding behavior7.
Histamine itself is an important neurotransmitter, which has an influence on other neurotransmitters (chemical messengers). This is why histamine has implications towards neuropsychiatric conditions like depression, schizophrenia and even ADHD when histamine levels are high8,9,10.
In studies on rats, it has been found that alcohol dependence may be influenced by higher brain histamine levels, and that therapies used to block particular brain histamine receptors may be a safe and effective treatment for alcohol abuse disorders11.
Histamine has been shown to have a positive effect on memory, and there’s even evidence to suggest that higher brain histamine levels may offer protection against Alzheimer’s Disease12.
Activation of the stress response has been associated with the triggering of itching; a well-known symptom of allergic and histamine reactions. While stress itself doesn’t actually cause allergies, the chemicals released into your body as a result of stress increases the production of histamine, this in turn aggravating the symptoms13.
Fortunately, there is something you can do about these brain-influencing actions of histamine.
Diet: your most powerful weapon
By following a low histamine diet, you can reduce the amount of histamine your body has to contend with. You can download my complete guide on this for free:
In addition to this, there is another powerful way your diet can impact your histamine intolerance, and act directly on your brain.
Research has shown that a compound called nitric oxide (NO), which you can find in food, can help to inhibit the production of histamine directly in the hypothalamus14. Nitric oxide boosting foods include:
- Beetroot (one of the best sources of dietary NO)
- Nuts and seeds
Histamine has a serious and widespread effect on the body, and high levels can be debilitating, affecting every aspect of your quality of life.
The first step to getting your histamine under control is to focus on your diet, not only to remove those histamine-offending foods, but to add foods into your meals that help to break it down.
If you’re struggling with histamine symptoms that affect your brain, it’s essential to add these nitric oxide-rich foods to your diet. These foods can be found as part of the allowed foods in my free guide to histamine intolerance and can assist both your brain and other symptoms. Click below to get the free e-guide now!
Brown, R. E., Stevens, D. R., & Haas, H. L. (2001). The physiology of brain histamine. Progress in Neurobiology, 63(6), 637–672. https://www.sciencedirect.com/science/article/pii/S0301008200000393
Shan L, et al. Interactions of the histamine and hypocretin systems in CNS disorders. Nat Rev Neurol . 2015;11(7):401–413. https://www.ncbi.nlm.nih.gov/pubmed/26100750
Bolam, P., & Ellender, T. Histamine and the striatum. Neuropharmacology. Volume 106, July 2016, Pages 74-84. https://www.sciencedirect.com/science/article/pii/S0028390815300599#bib5
Haas HL, et al. Histamine in the nervous system. Physiol Rev . 2008;88(3):1183–1241. https://www.ncbi.nlm.nih.gov/pubmed/18626069
Naganuma F, et al. Histamine N-methyltransferase regulates aggression and the sleep-wake cycle. Sci Rep . 2017;7(1):15899. https://www.ncbi.nlm.nih.gov/pubmed/29162912
Loy, B. D., & O’Connor, P. J. (2016). The effect of histamine on changes in mental energy and fatigue after a single bout of exercise. Physiology & Behavior, 153, 7–18. https://www.sciencedirect.com/science/article/abs/pii/S0031938415301463
Provensi G., et al. (2016) Histamine and Appetite. Histamine and Appetite. In: Blandina P., Passani M. (eds) Histamine Receptors. The Receptors, vol 28. Humana Press, Cham. https://link.springer.com/chapter/10.1007/978-3-319-40308-3_15
Sadek, B., et al. Histamine H3 receptor as a potential target for cognitive symptoms in neuropsychiatric diseases. Behavioural Brain Research. Volume 312, 1 October 2016, Pages 415-430. https://www.sciencedirect.com/science/article/pii/S0166432816304168
Silk, T. Chapter 13 - New Frontiers: Neurobiology of Sleep in ADHD. Sleep and ADHD: An Evidence-Based Guide to Assessment and Treatment. 2019, Pages 331-353. https://www.sciencedirect.com/science/article/pii/B9780128141809000132
Ellenbroek, A., et al. Do Histamine receptor 3 antagonists have a place in the therapy for schizophrenia? Current Pharmaceutical Design, Volume 21, Number 26, 2015, pp. 3760-3770(11). https://www.ingentaconnect.com/content/ben/cpd/2015/00000021/00000026/art00007
Panula, P. Histamine, histamine H3 receptor, and alcohol use disorder. British Journal of Pharmacology. 2019. https://bpspubs.onlinelibrary.wiley.com/doi/abs/10.1111/bph.14634
Zlomuzica, A., et al. 2016. Neuronal histamine and cognitive symptoms in Alzheimer's disease. Neuropharmacology. 106, 135e145. https://www.sciencedirect.com/science/article/pii/S0028390815001884?via%3Dihub
Kim, H., et al. How stress triggers itch: a preliminary study of the mechanism of stress‐induced pruritus using fMRI. International Journal of DermatologyVolume 55, Issue 4. 2015. https://onlinelibrary.wiley.com/doi/abs/10.1111/ijd.12864
Prast, H., et al. 1996a. Histaminergic neurons facilitate social memory in rats. Brain Res. 734, 316–318. https://www.sciencedirect.com/science/article/pii/0006899396008864