Arginine and its Derivatives in Cognitive Impairment

Source: Epiphany ASD Blog

Today’s post is very relevant to dementia, relevant to schizophrenia and diabetes and I believe some autism, including that of my son; agmatine is part of his Polypill therapy.

Arginine is highly versatile amino acid and you need the arginine metabolism to be working correctly, particularly in your brain.

Arginine is a widely available from diet and can be produced from citrulline and indirectly from glutamine; so you are unlikely to be deficient in arginine, except in your brain and particularly if you have Alzheimer’s.

In Alzheimer’s it has been shown that the microglia in effect destroy arginine in the brain and this may play a role in what initiates the disease.

Research has suggested that a deficiency in polyamines, another derivative of Arginine, is a feature of dementia.

A deficiency of arginine in the brain will likely cause a deficiency of polyamines.

Your body needs nitric oxide to maintain a healthy blood pressure and this requires arginine to follow the blue line in the above chart towards citrulline and be converted by eNOS.  In most older people this does not happen and oxidative stress appears to be a big part of the problem.

Agmatine – good 

Agmatine has been shown in research to have a benefit in Alzheimer’s.  

This could be due to increased eNOS improving blood flow, an increase in Polyamines, or by reducing insulin resistance in the brain. Recall those studies of intranasal insulin? We had "type 3 diabetes", which was a brain-specific blunting of insulin.

https://www.ncbi.nlm.nih.gov/pubmed/27810390 

"Agmatine administration rescued the reduction in insulin signalling, which in turn reduced the accumulation of Aβ and p-tau in the brain. Furthermore, agmatine treatment also reduced cognitive decline. Agmatine attenuated the occurrence of AD in T2DM mice via the activation of the blunted insulin signal"

Methylarginines – not good

Two by-products of arginine are bad for you in the way Agmatine is good for you.

Nitric Oxide is produced via iNOS, nNos and eNOS. In simple terms we want nitric oxide to be produced in the endothelium, the name for cells that line the interior surface of blood vessels and lymphatic vessels, To achieve this we needs lots of the enzyme eNOS and not much iNOS or nNOS, this is one of Agmatine’s jobs.

Two derivatives of arginine/proteins in the body with very long names are abbreviated to NMMA and ADMA. They both inhibit eNOS and so will restrict blood flow and this will appear as elevated blood pressure.   

The methylarginines NMMA, ADMA, and SDMA are ubiquitous constituents of the main vegetables of human nutrition.

Endogenous methylarginines, N(G),N(G)-dimethyl-L-arginine (asymmetric dimethylarginine, ADMA), N(G)-N('G)-dimethyl-L-arginine (symmetric dimethylarginine; SDMA), and N(G)-monomethyl-L-arginine (monomethyl arginine; NMMA) are supposed to be produced in human body through the methylation of protein arginine residues by protein arginine methyltransferases (PRMT) and released during proteolysis of the methylated proteins. Micromolar concentration of ADMA and NMMA can compete with arginine for nitric oxide synthase (NOS) reducing nitric oxide (NO) formation, whereas SDMA does not. Indeed, increased ADMA and SDMA plasma levels or a decreased arginine/ADMA ratio is related with risk factors for chronic kidney disease and cardiovascular disease. To the best of our knowledge the exogenous presence of methylarginines, like that in fruits and vegetables, has never been described so far. Here, we report the finding that methylarginines are ubiquitous in vegetables which represent an important part of human daily diet. Some of these vegetables contain discrete amounts of ADMA, SDMA, and NMMA. Specifically, among the vegetables examined, soybean, rye, sweet pepper, broad bean, and potato contain the highest ADMA and NMMA mean levels. Our results establish that the three methylarginines, in addition to being produced endogenously, can also be taken daily through the diet in conspicuous amounts. We propose that the contribution of the methylarginines contained in the vegetables of daily diet should be taken into account when the association between vegetable assumption and their levels is evaluated in clinical studies. Furthermore, a comprehensive understanding on the role of the digestive breakdown process and intestinal absorption grade of the methylarginines contained in vegetables is now needed. 

ADMA

Asymmetric dimethylarginine (ADMA) is a naturally occurring chemical found in blood plasma. It is closely related to L-arginine. ADMA interferes with L-arginine in the production of nitric oxide (NO), a key chemical involved in normal endothelial function and, by extension, cardiovascular health. ADMA inhibits eNOS, which in simple terms is the good NOS, the other two being iNOS and nNOS.

ADMA is considered a marker for vascular disease. 

NMMA (NG-monomethyl-l-arginine, or just called Targinine) 

The following study is very interesting for your older relatives. As we already know oxidative stress is a feature of aging. Many people have high blood pressure in old age. Nitric Oxide (NO) is needed keep blood vessels wide open. In old age (>60) oxidative stress reduces NO availability to nothing. 

Since oxidative stress is reversible (in this study vitamin C was used) you wonder why more older people, particularly with high blood pressure, do not take entioxidants. 

Age-Related Reduction of NO Availability and Oxidative Stress in Humans

A novel finding of the present study is that in normotensive subjects, the reduction in endothelial function associated with aging seems to be mediated by a progressive reduction of NO availability, inasmuch as the inhibiting effect of L-NMMA on acetylcholine-induced vasodilation was progressively impaired by advancing age. It is worth noting that after the age of 60 years, the inhibiting effect of L-NMMA on response to acetylcholine was very weak, suggesting that in aged individuals NO availability is almost totally compromised. To assess the possible role exerted by oxidative stress, we tested the antioxidant vitamin C.¹⁹ Up to the age of 60 years, despite the evident decline in endothelium-dependent vasodilation, vitamin C did not modify the response to acetylcholine. In contrast, in the oldest individuals (age >60 years) characterized by a profound alteration in NO availability, vitamin C not only enhanced the response to the endothelial agonist but also restored the inhibiting effect of L-NMMA on vasodilation to acetylcholine. Thus, in the present study, the use of L-NMMA and vitamin C, never tested before in investigating the mechanisms responsible for the previously demonstrated age-related endothelial dysfunction in humans,¹⁷ seems to indicate that the progressive impairment in endothelium-dependent vasodilation is caused by a progressive alteration of the l-arginine-NO pathway. Only in old age (after ≈60 years) does the production of oxidative stress appear, leading to the complete compromise of NO availability.  

Arginase

Arginase is an enzyme that acts as the catalyst for the reaction.

 arginine + H₂O → ornithine + urea 

People with schizophrenia and also people with diabetes tend to have high levels of Arginase. This will affect how arginine is metabolized. If arginase is increased there is less arginine that can go towards creatine, citrulline or agmatine. 

Going towards citrulline involves the production of nitric oxide NO. Now in schizophrenia we see a reduction in the good type of NO, that produced in the endothelium, the cells that line the interior surface of blood vessels and lymphatic vessels. As a result, we vascular dysfunction in schizophrenia.

Agmatine is also elevated in schizophrenia, which may be one of those feedback loops since agmatine will inhibit iNOS, nNOS while increasing eNOS

So where is there a reduction in Arginine in schizophrenia?

Well it looks like it is creatine which takes the hit.

CREATINE ABNORMALITIES IN SCHIZOPHRENIA AND BIPOLAR DISORDER 

“Patients with schizophrenia had a statistically significant reduction in Cr levels as compared with controls; bipolar disorder patients showed no difference in Cr as compared with controls”

In people with elevated arginase a useful strategy might be to use an arginase inhibitor.

Arginase Inhibitors: A Rational Approach Over One Century.

The next paper highlights the arginase inhibitor I favour, which is L-norvaline. The paper is from Kursk university. Kursk gave its name to the nuclear-powered submarine that was lost in the Barents Sea in 2000 and triggered a new international cooperation to rescue stricken submarines. The Battle of Kursk was the largest tank battle of all time and the final major offensive by the Germans against the Russians in World War 2, where Hitler wanted to cut off a large bulge in the front line and trap a lot of Russians. Thanks to some clever English mathematicians, encrypted German communications were readable and the Russians repositioned their forces in advance, allowing them to counter attack. The Allies then invaded Sicily and that was the end for the Germans in Russia. 

Arginase Inhibitor in the Pharmacological Correction of Endothelial Dysfunction

The present research shows expressed endothelium-protective property of arginase inhibitor, L-norvaline, characterized by decrease of coefficient of endothelial dysfunction and the approached its application to a group of intact animals. In other words, L-norvaline prevents the development of systemic endothelial dysfunctions in L-NAME- and methionine-induced NO deficiency.

Age-induced memory impairment (AMI)

Now we move to Polyamines that are on the bottom left my graphic at the start of this post. Spermidine and Spermine are very beneficial derivatives of arginine that most older people will be lacking. Autophagy is the cellular garbage disposal service that is dysfunction in many neurological disorders. We generally want more autophagy.

Spermidine-triggered autophagy ameliorates memory during aging 

The aging process drives the progressive deterioration of an organism and is thus subject to a complex interplay of regulatory and executing mechanisms. Our understanding of this process eventually aims at the delay and/or prevention of age-related pathologies, among them the age-dependent decrease in cognitive performance (e.g., learning and memory). Using the fruit fly Drosophila melanogaster, which combines a generally high mechanistic conservation with an efficient experimental access regarding aging and memory studies, we have recently unveiled a protective function of polyamines (including spermidine) against age-induced memory impairment (AMI). The flies’ age-dependent decline of aversive olfactory memory, an established model for AMI, can be rescued by both pharmacological treatment with spermidine and genetic modulation that increases endogenous polyamine levels. Notably, we find that this effect strictly depends on autophagy, which is remarkable in light of the fact that autophagy is considered a key regulator of aging in other contexts. Given that polyamines in general and spermidine in particular are endogenous metabolites, our findings place them as candidate target substances for AMI treatment.  

Spermine and spermidine reversed age-related cardiac deterioration in rats

Aging is the most important risk factor for cardiovascular disease (CVD). Slowing or reversing the physiological impact of heart aging may reduce morbidity and mortality associated with age-related CVD. The polyamines, spermine (SP) and spermidine (SPD) are essential for cell growth, differentiation and apoptosis, and levels of both decline with age. To explore the effects of these polyamines on heart aging, we administered SP or SPD intraperitoneally to 22- to 24-month-old rats for 6 weeks. Both treatments reversed and inhibited age-related myocardial morphology alterations, myocardial fibrosis, and cell apoptosis. Using combined proteomics and metabolomics analyses, we identified proteins and metabolites up- or downregulated by SP and SPD in aging rat hearts. SP upregulated 51 proteins and 28 metabolites while downregulating 80 proteins and 29 metabolites. SPD upregulated 44 proteins and 24 metabolites and downregulated 84 proteins and 176 metabolites. These molecules were mainly associated with immune responses, blood coagulation, lipid metabolism, and glutathione metabolism pathways. Our study provides novel molecular information on the cardioprotective effects of polyamines in the aging heart, and supports the notion that SP and SPD are potential clinical therapeutics targeting heart disease                                                               

Spermidine boosts autophagy to protect from synapse aging 

Figure 1. summarizes the suggestion that spermidine-triggered restoration of autophagy protects synapses from age-induced changes, and thus delays the normally occurring decline of memory formation. Given that spermidine is a physiologic, easy administrable substance, future research may consider its supplementation to counter age-dependent dementia.

Spermidine operates directly at presynaptic active zone scaffolds (composed of Brp/bruchpilot protein) to allow for an autophagy-dependent homeostatic regulation of these specializations. In effect, spermidine protects learning efficacy from aging-induced decline.                                      

 Spermidine in health and disease

 Having your longevity and eating too

Although caloric restriction has clear benefits for maximizing health span and life span, it is sufficiently unpleasant that few humans stick to it. Madeo et al. review evidence that increased intake of the polyamine spermidine appears to reproduce many of the healthful effects of caloric restriction, and they explain its cellular actions, which include enhancement of autophagy and protein deacetylation. Spermidine is found in foods such as wheat germ, soybeans, nuts, and some fruits and vegetables and produced by the microbiota. Increased uptake of spermidine has protective effects against cancer, metabolic disease, heart disease, and neurodegeneration. 

Although spermidine induces autophagy and autophagy inhibition curtails many of the health-promoting effects of spermidine, additional mechanisms have been proposed to explain the beneficial effects of spermidine on aging. These potentially autophagy-independent mechanisms include direct antioxidant and metabolic effects on arginine bioavailability and nitric oxide (NO) production. However, it has not been formally determined whether these routes act in a completely autophagy-independent manner or are interrelated with autophagy (in an additive or synergistic way) (see the figure), and it will be important to define actionable molecular targets that explain the beneficial effects of spermidine in diverse pathophysiological settings. In this sense, it will also be of interest to explore synergisms of spermidine with other CRMs that initially act through different mechanisms.

It is a surprise that those long-lived Japanese eat Natto? Also, it is a good source of vitamin K2 and importantly it is an estrogen and so an ERβ agonist.

Not all probiotics are helpful to produce polyamines and one well known probiotic, VSL#3, has been shown to reduce their level. Choose your bacteria very carefully. 

Here the probiotic strain Bifidobacterium animalis subsp. lactis LKM512 is used to increase polyamine production

Longevity in Mice IsPromoted by Probiotic-Induced Suppression of Colonic Senescence Dependent on Upregulation of Gut Bacterial Polyamine Production

Alzheimer’s and Arginine

In a fairly recent study it was suggested that the immune system in the brain is being suppressed and the microglia are slightly mutated along with the over-expression of arginase. Arginase is the enzyme that coverts arginine to ornithine plus urea.

So, in Alzheimer’s there will be a lack of arginine available for its other purposes. 

So, we would expect a lack of creatine, agmatine and citrulline. Along the way we should see less Nitric Oxide.

Based on my graphic above, it would seem that L-Norvaline should improve the outcome in Alzheimer’s mice.

We already know that Agmatine improves Alzheimer’s mice, as we now should expect.

So, my cocktail for an aging mouse would be: - 

·        L-Norvaline (used by body builders)

·        Agmatine (used by body builders)

·        Creatine (used by body builders)

·        Natto/wheatgerm/ LKM512 probiotic

·        Vitamin C or NAC

·        Citrulline (used by body builders)

·        Betanin (an approved food colour additive, see below)

Served with cheese, naturally.

A New Potential Cause for Alzheimer’s: Arginine DeprivatiON

Alzheimer’s study suggests immune cells chew up an important amino acid 

Increasingly, evidence supports the idea that the immune system, which protects our bodies from foreign invaders, plays a part in Alzheimer’s disease. But the exact role of immunity in the disease is still a mystery. A new Duke University study in mice suggests that in Alzheimer’s disease, certain immune cells that normally protect the brain begin to abnormally consume an important nutrient: arginine. Blocking this process with a small-molecule drug prevented the characteristic brain plaques and memory loss in a mouse model of the disease. Published April 15 in the Journal of Neuroscience, the new research not only points to a new potential cause of Alzheimer’s but also may eventually lead to a new treatment strategy. “If indeed arginine consumption is so important to the disease process, maybe we could block it and reverse the disease,” said senior author Carol Colton, professor of neurology at the Duke University School of Medicine, and a member of the Duke Institute for Brain Sciences. The brains of people with Alzheimer’s disease show two hallmarks -- ‘plaques’ and ‘tangles’ -- that researchers have puzzled over for some time. Plaques are the build-up of sticky proteins called beta amyloid, and tangles are twisted strands of a protein called tau. In the study, the scientists used a type of mouse, called CVN-AD, that they had created several years ago by swapping out a handful of important genes to make the animal’s immune system more similar to a human’s. Compared with other mice used in Alzheimer’s research, the CVN-AD mouse has it all: plaques and tangles, behaviour changes, and neuron loss. In addition, the gradual onset of these symptoms in the CVN-AD mouse gave researchers a chance to study its brain over time and to focus on how the disease begins, said the study’s first author Matthew Kan, an MD/PhD student in Colton’s lab. Looking for immune abnormalities throughout the lifespan of the mice, the group found that most immune system components stayed the same in number, but a type of brain-resident immune cells called microglia that are known first responders to infection begin to divide and change early in the disease. The microglia express a molecule, CD11c, on their surface. Isolating these cells and analyzing their patterns of gene activity, the scientists found heightened expression of genes associated with suppression of the immune system. They also found dampened expression of genes that work to ramp up the immune system. “It’s surprising, because [suppression of the immune system is] not what the field has been thinking is happening in AD,” Kan said. Instead, scientists have previously assumed that the brain releases molecules involved in ramping up the immune system, that supposedly damage the brain. The group did find CD11c microglia and arginase, an enzyme that breaks down arginine, are highly expressed in regions of the brain involved in memory, in the same regions where neurons had died. Blocking arginase using the small drug difluoromethylornithine (DFMO) before the start of symptoms in the mice, the scientists saw fewer CD11c microglia and plaques develop in their brains. These mice performed better on memory tests. “All of this suggests to us that if you can block this local process of amino acid deprivation, then you can protect -- the mouse, at least -- from Alzheimer’s disease,” Kan said. DFMO is being investigated in human clinical trials to treat some types of cancer, but it hasn’t been tested as a potential therapy for Alzheimer’s. In the new study, Colton’s group administered it before the onset of symptoms; now they are investigating whether DFMO can treat features of Alzheimer’s after they appear. Does the study suggest that people should eat more arginine or take dietary supplements? The answer is ‘no,’ Colton said, partly because a dense mesh of cells and blood vessels called the blood-brain barrier determines how much arginine will enter the brain. Eating more arginine may not help more get into the sites of the brain that need it. Besides, if the scientists’ theory is correct, then the enzyme arginase, unless it’s blocked, would still break down the arginine. “We see this study opening the doors to thinking about Alzheimer’s in a completely different way, to break the stalemate of ideas in AD," Colton said. "The field has been driven by amyloid for the past 15, 20 years and we have to look at other things because we still do not understand the mechanism of disease or how to develop effective therapeutics

The full study: -

Arginine deprivation and immune suppression in a mouse model of Alzheimer's disease.

The pathogenesis of Alzheimer's disease (AD) is a critical unsolved question; and although recent studies have demonstrated a strong association between altered brain immune responses and disease progression, the mechanistic cause of neuronal dysfunction and death is unknown. We have previously described the unique CVN-AD mouse model of AD, in which immune-mediated nitric oxide is lowered to mimic human levels, resulting in a mouse model that demonstrates the cardinal features of AD, including amyloid deposition, hyperphosphorylated and aggregated tau, behavioral changes, and age-dependent hippocampal neuronal loss. Using this mouse model, we studied longitudinal changes in brain immunity in relation to neuronal loss and, contrary to the predominant view that AD pathology is driven by proinflammatory factors, we find that the pathology in CVN-AD mice is driven by local immune suppression. Areas of hippocampal neuronal death are associated with the presence of immunosuppressive CD11c(+) microglia and extracellular arginase, resulting in arginine catabolism and reduced levels of total brain arginine. Pharmacologic disruption of the arginine utilization pathway by an inhibitor of arginase and ornithine decarboxylase protected the mice from AD-like pathology and significantly decreased CD11c expression. Our findings strongly implicate local immune-mediated amino acid catabolism as a novel and potentially critical mechanism mediating the age-dependent and regional loss of neurons in humans with AD.

So Arginine for Alzheimer’s? Not so simple

Eating more arginine is not an effective way to increase the level of arginine in your brain and also the high level of arginase might just soak it all up anyway.

Other science does suggest that there are other ways to increase the amount of arginine in your brain, such as L-citrulline.  We have already seen that we can inhibit arginase with L-norvaline among other things.

Betanin for Alzheimer’s

Since we are on Alzheimer’s, we might as well include another clever idea.

Our reader Tyler highlighted another interesting Alzheimer’s study, which suggests preventing/treating Alzheimer’s with Betanin, the pigment in beet root.

This might sound mad, but is deadly serious. The research showed that Betanin inhibits the formation of the trademark beta-amyloid plaques that define Alzheimer’s. No plaques, no Alzheimer’s.

Vegetable compound could have a key role in ‘beeting’ Alzheimer’s disease

Beetroot has already been featured in this blog; it has numerous health benefits.

To lower blood pressure and increase exercise endurance it is the nitrates that are helpful, but beetroot has numerous other effects; it even increases insulin sensitivity, so is a good choice for diabetics and pre-diabetics.

The Potential Benefits of Red Beetroot Supplementation in Health and Disease

Betanin without the beetroot?

Betanin has such a strong colour it is used commercially as a food colourant, it appears as E162 on the label. In Europe it is called Beetroot red E162 and is inexpensive.

Personally, I take my betanin with the rest of the beetroot. 

Vascular Dementia - before I forget

Vascular dementia is the easiest type of cognitive impairment to understand. Reduced blood flow to the brain, most likely due to reasons including a loss of endothelial nitric oxide, effectively starves the brain. We saw how cocoa flavanols improve blood flow and hence mild cognitive impairment, this is via an NO-dependent mechanism that nobody fully understands. In autism things get more complicated and we saw in earlier posts that we seem to have unstable blood flow rather than just reduced blood flow. Nonetheless, improving cerebral blood flow may well be useful for some people with autism; so more eNOS and not too much arginase, cocoa flavanols may well be beneficial. Antioxidants are hopefully already being taken.

Conclusion

I was surprised just how much in the post can be implemented today with no prescription medication.

It is no surprise that certain diets (Mediterranean/Okinawan) promote not only longevity but also an extended healthy life expectancy.

I think there are some tips here for fine tuning out of balance brains found in autism, schizophrenia and bipolar.

I hope someone trials my cocktail on an Alzheimer’s mouse and a regular older mouse. 

·        L-Norvaline and Citrulline

·        Agmatine

·        Creatine

·        Natto/wheatgerm/ LKM512 probiotic

·        Vitamin C or NAC

·        Betanin


I suspect this cocktail would be more effective than Donepezil or Memantine, neither of which address the underlying cause of Alzheimer's disease. In reality some of the above might not even be needed (e.g. creatine and citrulline).

Agmatine as an alternative for some people who respond to intranasal insulin is an interesting idea. Research seems to have stalled because the preservative in the insulin causes irritation inside the nose.

Note: Creatine deficiency is a known cause of MR/ID/Autism and some types are treatable  https://creatineinfo.org/. It is detectable by Magnetic Resonance Spectroscopy or by measuring creatine levels in plasma and urine. Babies born with creatine deficiency may exhibit hypotonia (floppy baby syndrome) due to weak muscles. 

Autism and Non-Antibiotic Properties of Common Beta-lactam Antibiotics

If you are looking for personalized medicine, you or your doctor need to be a good detective. Not to mention you need some clues.

If you are treating a condition like autism and certain things cause a marked change in the severity of the condition, these are pretty good places to start.

In the case of our reader in Delhi, it is Beta-lactam antibiotics (penicillin, amoxicillin etc), that consistently seem to improve her son’s autism. Improvement during treatment with antibiotics is reported quite often in autism, but with all kinds of different antibiotic.  Nothing is simple.

For non-medical readers, there are several categories of antibiotics; common types including:-

·        Beta-lactams (e.g. Penicillins)

·        Macrolides (e.g. Erythromycin, Azithromycin)

·        Fluoroquinolones (e.g. Ciprofloxacin) 

·        Tetracyclines (e.g. Minocycline) 

Macrolides have already had a dedicated post about their immunomodulatory effects, which did also cover some history about Poland from Monty's homework.

Macrolide Antibiotics for Some Autism? Or better still, Azithromycin analogue CSY0073, or just Nystatin?

Beta Lactam Antibiotics

In earlier posts we came across something called glutamate transporter GLT1 (also known as EAAT2).

Glutamate is the major excitatory neurotransmitter, and is inactivated by uptake via GLT-1 (EAAT2) and GLAST (EAAT1) transporters.

Many people given the observational diagnosis of autism appear to have an underlying imbalance between excitatory and inhibitory neurotransmitters (E/I imbalance). By correcting the specific type of E/I imbalance, even profound symptoms of autism including MR/ID and epilepsy can be moderated. If you have autism and/or epilepsy tuning your E/I imbalance is likely the most important step you can take.

Some drugs increase the expression of GLT-1 and so reduce the amount of glutamate. Macrolide antibiotics are one of these drugs.

So if a person has too much glutamate and this causes/contributes to their E/I imbalance then improved behaviour while taking penicillin antibiotics, who have a simple explanation.

Since you would not want to take penicillin forever you would then look for a non antibiotic drug that also increases the uptake of Glutamate. Once such drug, Riluzole, does exist and has already been trialed on children with OCD. 

But beta-lactams have other effects, so it is not certain that GLT-1 accounts for the beneficial effect sometimes found in autism. Fortunately some researchers have assembled most previous research into a single review paper. This paper does not mention autism and does miss some things out.

Review of Antibiotic and Non-Antibiotic Properties of Beta-lactam Molecules.

There are seven categories:-

·        Antibiotic

·        Epileptogenic

·        Neuroprotective

·        Analgesic

·        Immunomodulatory

·        Anxiolytic

·        Antineoplastic

Antibiotic Effect

We all know something about bacteria. If you have a bacterial infection like an ear infection your doctor might prescribe you an antibiotic.

As well as inflaming your ear, the bacteria may well affect gene expression. We saw in a previous post that bacteria and viruses change the expression of many genes, but the study of this is in its infancy. In autism we know that many genes are miss-expressed, but this varies from person to person. So a bacteria or virus has the potential to make autism worse (e.g. PANS and PANDAS), but also better. Bacteria are not always bad.

A person whose autism responds to an antibiotic might have bacteria that are worsening his autism. This is simplest of explanation of all.

The question then is where is the bacteria? If it is an intestinal bacterium this could be proven by using an antibiotic that only works there, like Vancomycin.

Epileptogenic effects

In this review they concluded the effects relate to GABA and here we are talking about negative effects. 

penicillin is a potent epileptogenic agent = it is capable of causing an epileptic attack

“This could mean that penicillin is a competitive GABA specific antagonist, which would further explain its epileptogenic properties.”

The paper omits to point out that in some people beta-lactams protect from epileptic seizures. The effect on Glutamate is likely at least sometimes what stops seizures.

Beta-Lactam Antibiotics as A Possible Novel Therapy for Managing Epilepsy and Autism, A Case Report and Review of Literature

The really clever thing in the above case report is that appears that the effect on glutamate may be by an epigenetic mechanism (via GLT1), since the effect is long lasting. Read later in this post about the epigenetic effects of beta-lactams.

Neuroprotective properties

“These results suggest that the neuroprotective effect induced by beta-lactam antibiotics is due to their capacity to stimulate GLT1 expression and thus regulate the concentration of glutamate in the synaptic cleft. GLT1 is a glutamate transporter inducing its reuptake by astrocytes preventing excessive glutamate concentration in the synaptic cleft

It was subsequently shown that the neuroprotective effect of BLMs was due not only to glutamate down regulation, but also to a diminished glutamate-induced intracellular Ca2+ concentration and an increased uptake of glutamate

Another probable mechanism of neuroprotection induced by BLMs is down-regulation of oxidative stress and modulation of apoptotic pathways shown in rat spinal cord when CFX was administered for 7 days prior to induction of constrictive neuropathy. This effect was apparently mediated by both a reduction in proapoptotic proteins Bax, and an increment in the antiapoptotic protein Bcl2.

CFX (Ceftiaxone) may induce neuroprotection by other mechanisms besides GLT1 overexpression. Yamada and Jinno [51] reported that the antibiotic reversed axotomy-induced up regulation of GFAP, a neuronal damage marker, and increased neuronal survival; apparently not only through glutamatergic regulation, but also by direct reduction of glial hypereactivity. Supplementary to this is the finding of an attenuation of microglial activation induced IL-1 expression in an ischemic injury model when CFX was administered as a pre-treatment [52]. This result may indicate a direct action on glial cells since partial reduction of astrocytes and microglia was observed.”

Analgesic (pain killing) Properties

“Interestingly, despite the widespread clinical use of BLMs (beta-lactams), some of their known non-antibiotic effects have been either disregarded or misinterpreted as resulting from bacterial microbiome regulation. For example, Caperton, Heim-Duthoy [54] hypothesized that chronic inflammatory arthritis could have a bacterial component and that therefore the clinical course of a patient could be affected by administration of CFX (Ceftriaxone).

Both the anti-inflammatory and neuromodulating effects exerted by BLMs either peripherally or centrally may be related to their analgesic properties in some pathologies that are difficult to treat such as the complex regional pain syndrome [65] or to the analgesic effect of a single preoperative dose of CFX in a clinical protocol [66].

Immunomodulatory Properties 

Not many people seem to have read this paper. They did not flesh out immunomodulation, so I draw on a different paper. People who write about immunomodulation usually say that beta-lactams do not have this effect, but that appears to be incorrect. 

Beta-lactam antibiotics modulate T-cell functions and gene expression via covalent binding to cellular albumin

Recent work has suggested that beta-lactam antibiotics might directly affect eukaryotic cellular functions. Here, we studied the effects of commonly used beta-lactam antibiotics on rodent and human T cells in vitro and in vivo on T-cell–mediated experimental autoimmune diseases. We now report that experimental autoimmune encephalomyelitis and adjuvant arthritis were significantly more severe in rats treated with cefuroxime and other beta-lactams. T cells appeared to mediate the effect: an anti-myelin basic protein T-cell line treated with cefuroxime or penicillin was more encephalitogenic in adoptive transfer experiments. The beta-lactam ampicillin, in contrast to cefuroxime and penicillin, did not enhance encephalomyelitis, but did inhibit the autoimmune diabetes developing spontaneously in non-obese diabetic mice. Gene expression analysis of human peripheral blood T cells showed that numerous genes associated with T helper 2 (Th2) and T regulatory (Treg) differentiation were down-regulated in T cells stimulated in the presence of cefuroxime; these genes were up-regulated in the presence of ampicillin. The T-cell protein that covalently bound beta-lactam antibiotics was found to be albumin. Human and rodent T cells expressed albumin mRNA and protein, and penicillin-modified albumin was taken up by rat T cells, leading to enhanced encephalitogenicity. Thus, beta-lactam antibiotics in wide clinical use have marked effects on T-cell behavior; beta-lactam antibiotics can function as immunomodulators, apparently through covalent binding to albumin.

 Anxiolytic effects (reduce anxiety)

“CA (Clavulanic acid) has proven effective as an anxiolytic drug, since it was reported that this drug diminished anxiety-like conduct in both rodent and primate models”

Antineoplastic effects (preventing tumors)

“CFX (Ceftriaxone) elicit antitumor activity both in vitro and in vivo models”

Addiction

Addiction did not appear in the chart above, but it gets a mention in the text 

“When tested in an opiate dependence model, both CFX [72] and CA [73] inhibited both physical dependence and withdrawal symptoms. This could mean that the effect shown by CFX is not due to its particular molecular structure, but can be reproduced by other BLMs (several BLMs effects shown on Fig. 3)

Other effects

“CA (Clavulanic acid) has been shown to increase dopamine release”

Epigenetic Effects

These were not mentioned in the paper, but I do think epigenetics is a fundamental part of many diseases, including much autism.

The paper really explains why short term use of beta-lactams can stop a person with epilepsy having seizures for a long time.

Off-Target drug effects resulting in altered gene expression events with epigenetic and"Quasi-Epigenetic" origins.

This review synthesizes examples of pharmacological agents who have off-target effects of an epigenetic nature. We expand upon the paradigm of epigenetics to include "quasi-epigenetic" mechanisms. Quasi-epigenetics includes mechanisms of drugs acting upstream of epigenetic machinery or may themselves impact transcription factor regulation on a more global scale. We explore these avenues with four examples of conventional pharmaceuticals and their unintended, but not necessarily adverse, biological effects. The quasi-epigenetic drugs identified in this review include the use of beta-lactam antibiotics to alter glutamate receptor activity and the action of cyclosporine on multiple transcription factors. In addition, we report on more canonical epigenome changes associated with pharmacological agents such as lithium impacting autophagy of aberrant proteins, and opioid drugs whose chronic use increases the expression of genes associated with addictive phenotypes. By expanding our appreciation of transcriptomic regulation and the effects these drugs have on the epigenome, it is possible to enhance therapeutic applications by exploiting off-target effects and even repurposing established pharmaceuticals. That is, exploration of "pharmacoepigenetic" mechanisms can expand the breadth of the useful activity of a drug beyond the traditional drug targets such as receptors and enzymes.

DAO inhibition

As our reader Agnieszka pointed out in the comments section, one commonly prescribed beta-lactam antibiotic called Augmentin contains a second antibiotic, Clavulanic acid, to boost its effectiveness; by chance is also a very potent DAO inhibitor. Diamine oxidase (DAO), also known as histaminase, is an enzyme in your body that is used to inactivate histamine. Histamine is found in food that you eat as well as being produced in your body and released by your mast cells during an allergic reaction.

DAO neutralizes the histamine in food so it does not enter your bloodstream.

So this particular antibiotic should be avoided by those people who are histamine intolerant and so do not produce enough DAO. This is about 1% of the general population, but might be more common in those with autism although there is no data on this subject.

Some people believe that ADHD is associated with a reduced level of DAO.

Indeed there is a patent to treat ADHD with a combination of DAO and caffeine.

Diamine oxidase for use in the treatment or prevention of attention deficit hyperactivity disorder (ADHD)

[0087] DAO can also be mixed with caffeine, strengthening the role of prevention and treatment of attention deficit hyperactivity disorder. Thus, also disclosed herein compositions comprising DAO and caffeine. 

[0088] Caffeine, a xanthine alkaloid group having stimulating properties for the treatment of attention deficit hyperactivity disorder. 

[0089] DAO content of the present invention per unit dose 0 · l-50mg, preferably 2-20mg. 

[0090] The present invention is caffeine content per unit dose 1-lOOmg, preferably 5-50mg. 

[0091] for the prevention and treatment of attention deficit hyperactivity disorder DAO or compositions comprising DAO may be before a meal or postprandial meal administration.

[0092] The use of DAO of the invention or compositions comprising DAO directly affect blood histamine levels, thus affecting the symptoms of attention deficit cumulative histamine levels induced hyperactivity disorder.

You can actually buy DAO supplements and of course caffeine.

Perhaps people consuming DAO inhibitors long term, such as NAC and Verapamil, and have chronic allergies or mast cell disorders might benefit from extra DAO. 

Evaluation of the inhibitory effect of various drugs / active ingredients on the activity of human diamine oxidase in vitro

Most DAO is actually in your digestive tract, where the dietary histamine is.

You can measure DAO levels in your blood.

Serum diamine oxidase (DAO) activity as a diagnostic test for histamine intolerance  

We can conclude that determination of DAO activity in serum is a useful diagnostic tool, together with detailed history to differentiate between food allergy and histamine intolerance.

We found that DAO activity was significantly lower in patients than in healthy control subjects.

Conclusion

I think there is plenty of food for thought here for parents of children whose autism and/or epilepsy improves when taking a beta-lactam antibiotic.  Hopefully some people will figure out which effect is the beneficial one and find something else to replicate it.

There is a lot previously written in this blog about upregulating GLT1, other than by a beta-lactam. My favoured option was Riluzole, but Bromocriptine will also do this, among its other actions. Riluzole is a drug for ALS, that has been trialed in children with OCD, without side effects.    

People technically without histamine intolerance (normal levels of DAO) who incidentally take large amounts of DAO inhibitors, may end up exacerbating an existing mast cell related problem. One potential solution for that small group might be taking an OTC DAO supplement.