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Showing posts with label Theoharides. Show all posts
Showing posts with label Theoharides. Show all posts

Monday, 4 August 2014

Allergies, Autism and Cognitive Impairment

Previous posts showed how pollen allergies can lead to summertime flare-ups in autism; most noticeable are violent/aggressive behaviours, but there is actually much more going on.

I established that Verapamil, the calcium channel blocker, and surprisingly also a mast cell stabilizer, can very effectively extinguish the aggression, but without really solving the usual allergy symptoms like itchy eyes.  As a result, you need to use a convention anti-allergy treatment as well.


Asthma/Pollen Hot Spots

Any asthma suffer will be able to tell you about the places that make them feel worse and the places that places that reduce their symptoms.  It seems that pine forests high in the mountains and on certain coastlines are best.

Forested areas around cities are not good for asthma, Berlin being an example. So you can easily check if you live in an asthma hot spot, or in a better place.


Cognitive Impairment

We just spent two weeks under the olive trees beside the sea in Greece, which I would classify as a low pollen location.  Having returned home to a big city and a house directly opposite a forest, we could see the effect of an asthma/pollen hot spot.

Monty, aged 11 with ASD, mild pollen allergy and mild asthma, did change his behaviour almost immediately.

The Verapamil does continue to block aggressive behaviour, but what changed was an immediate return of mild atopic dermatitis (red patches behind knees) and what Monty’s brother Ted, aged 14, described as Monty became “more stupid”.  It is not a nice way to describe it, but when you look closely, it is there.  The allergy has effectively lowered his cognitive function.  It is very easy to check, just ask some simple maths questions or memory questions (what did you have for breakfast?).  It is as if he is very mildly intoxicated (drunk), he is not staggering around, but he is not as sharp as he was in Greece, or at home in the spring.

Faced with an aggressive child, the last thing you would bother about is how good he is at mental maths, and so you would probably never notice it.  But having solved the aggression we are left with the observation that the allergy causes some temporary cognitive impairment.  I say temporary, because if you take away the allergens, everything improves and returns to where it was.


What is going on?

We know that allergens cause mast cell degranulation, which releases histamine, IL-6, and other pro-inflammatory substances in a chain reaction.  We know that these cross the BBB (blood brain barrier) where there are several types of histamine receptor.  The body has at least 4 types: - H1, H2, H3 and H4, and maybe more not yet identified.

Typical anti-histamines only block H1, and the newer ones are specifically designed not to cross the BBB, so as not to make you drowsy.  We later discovered that most H1 anti-histamines have moderate mast cell stabilizing properties, meaning they do reduce the release of histamine itself.

Calcium channel signaling is known to be disturbed in autism and there is excess physical calcium found in the autistic brain.  This did suggest that modifying calcium channel behaviour might be of benefit.  A known genetic variation in autism does affect the L-type calcium channels.  This suggested that blocking the L-channels might be helpful.  This was shown to be true in Timothy syndrome and I showed it to be true in Monty.

Other research has shown that Verapamil is an effective mast cell stabilizer, which did come as a surprise.

Now we come back to the effect of the allergy.  If untreated, it will “dumb down” the child and also lead to extreme behaviours like aggression, but also even odd physical tics, like moving the head forwards and backwards like a pigeon.

Perhaps there is a two stage process going on, which ultimately leads to the aberrant signaling of the L-type calcium channels and aggression.  Or is it just a progression from mild to severe?

Is it a coincidence that a calcium channel blocker can stabilize mast cells?  I think it unlikely.


Autism as an Allergy of the Brain

The idea put forward by Professor Theoharides, that autism is, at least in part, an allergy of the brain, looks more and more valid.  It was the subject of an earlier post.


I do wonder how much mental retardation (MR) / cognitive impairment is also caused by the same mechanism.  Depending on how you define “autism” and whose figures you use, between 20% and 50% of people with autism have MR.  MR is defined as an IQ of 70 or less.

·        Mild retardation: Mild retardation: IQ level 50-55 to approximately 70 (85% of people with mental retardation are in this category)
·        Moderate retardation: IQ level 35-40 to 50-55 (10% of people with mental retardation)
·        Severe retardation: IQ level 20-25 to 35-40 (3 - 4% of people with mental retardation)
·        Profound retardation: IQ level below 20 or 25 (1 - 2% of people with mental retardation)

I would suggest that many people with autism might be “cognitively impaired” by allergies, be they caused by pollen, cats, dust, food, detergents, pollution or anything else.  Maybe they just dropped from a potential IQ of 120 to 110, or maybe they dropped from 80 to 35 and are now known as severely retarded.


Verapamil treats more than aggression and SIB

Based on my sample of one, it would be conceivable that Verapamil merely treats aggression and self-injurious behaviour (SIB), and that allergies are a side issue.  But thanks to the feedback on this blog, it is clear that Verapamil is treating the allergy.  One reader gave very extensive feedback showing how Verapamil greatly reduced her child’s GI problems (caused by food intolerance/allergies) and improved behaviour.  So based on a sample of two, Verapamil’s effect does seem to be related to mast cell degranulation and allergies.


Conclusion

I am very happy to have discovered the benefits of Verapamil, but I will continue to look into how further to reduce the “brain allergy effect”.  Perhaps the allergy is somehow affecting the excitatory/inhibitory balance of the Neurotransmitter GABA, I say this because Monty’s behaviour somehow resembles life without Bumetanide.  

Bumetanide’s role in autism is to lower brain Cl- concentration and to switch GABA to be inhibitory.  A recent comment on one of my Bumetanide posts was from somebody highlighting a paper that questioned whether enough Bumetanide crosses into the brain to switch GABA to be inhibitory.  

Note that a recently published comprehensive review on the use of bumetanide in the treatment of neonatal seizures indicates that theres is no evidence to support the use of this drug in the treatment of central nervous system disorders via the NKCC1-dependent mechanism described above, as at the very low doses that are given to infants and children bumetanide does not reach sufficient levels in the brain.

direct link to the original review:
http://onlinelibrary.wiley.com/doi/10.1111/epi.12620/pdf

It is conceivable that allergies affect the blood brain barrier (BBB), although you might expect allergies to weaken the BBB, rather than strengthen it; but the body does plenty of strange things.  So a second daily dose of Bumetanide just might help.  In France, the autism researchers working with Bumetanide do give it twice a day.

The simplest method to reduce the “brain allergy effect” would be to just avoid the allergen(s).  In the case of Monty, this would be to go and live in a low pollen environment, and perhaps even avoid cats.

Since 30+% of people with autism apparently suffer from asthma, then 30% of people with autism might also find behavioral relief by avoiding pollen.  Those suffering from aggression and SIB would very likely benefit dramatically from Verapamil.

This might also suggest that residential facilities for people with severe autism should be in low pollen areas.

Incidentally, our local special needs school used to be surrounded by a rampant overgrowth of ragweed/ambrosia.  This is one of the most notorious plants for causing allergies in humans.  The current number 1 in the ATP world tennis rankings then gave them some money to tidy up the grounds.  Coincidentally, like many of the “inmates”, he also favors a gluten free diet.






Monday, 24 March 2014

Summertime Raging in Autism – H1 Anti-histamine Effect on Histamine Levels and IL-6



Last summer, I wrote a lot about autism getting much worse in that time of the year and how I found that common “24 hour” anti-histamine drugs seemed to have a magical effect; but one that lasted only 2-3 hours. There were only visible signs of a mild allergy, which could indeed easily be overlooked.

I did later receive a message from a reader who noticed his child’s ASD behaviours were greatly improved by Zrtec and his doctor agreed to prescribe this H1 antihistamine all year round.

Recently, I stumbled upon a blog, rich with many comments of parents of kids with severer types of autism.  Here I noted some parents referring to “summertime raging”, and I thought to myself, I know what they mean.  Fortunately, I found out how to make it go away.


Ant-histamine drugs

The two most common antihistamine drugs are Claritin (Loratadine), its active derivative Aerius (Desloratadine) and Zrtec (Ceterizine) and its active derivative Xyzal (levocetirizine).

The main action of an antihistamine is not actually to reduce the amount of histamine in your blood, rather it is to block the effect of histamine on the H1 receptors.

An H2 antihistamine blocks H2 receptors that are mainly in your intestines, and is used to reduce the amount of acid in the stomach.

This led me on a quest for substances that actually stop the increase in histamine, rather than just blocking some effects.  The only thing that does this is something that can stop so-called mast cells from degranulating and spilling their load of histamine, serotonin, nerve growth factor and cytokines, including IL-6, into the blood; from where, all except serotonin, are free to travel to the brain, across the blood brain barrier (BBB).  Serotonin cannot cross the BBB.

According to the mast cell specialist Theoharides, conventional drugs are not genuine mast cell stabilizers.  There are some partial ones, like Ketotifen, Cromalin, Rupatadine and Azelastine, but Theoharides thinks naturally occurring flavonoids like Luteolin and Quercetin work best.

Last summer in this blog I looked at newly discovered histamine receptors types H3 and H4 which are known to be present in the brain.


So how is it that Claritin and Zrtec can reduce autistic behaviours ?

I did note that both the above drugs did reduce summertime raging and also the Theoharides' research that showed they probably should not, since they are not mast cell stabilizers. 

Since my blog reader also found Zrtec helpful, so much so he gives it to his kid year round and it now seems summertime raging is not an unusual phenomenon in autism, I did some more checking.

In spite of what Theoharides tells us, it turns out that both Claritin and Zrtec do indeed reduce the amount of histamine in the blood.

Also, it turns out that not only is the pro-inflammatory cytokine IL-6 released from mast cells but it is also released from another type of cell, called the endothelial cell.

The endothelium is the thin layer of cells that lines the interior surface of blood vessels and lymphatic vessels, forming an interface between circulating blood or lymph in the lumen and the rest of the vessel wall. The cells that form the endothelium are called endothelial cells. Endothelial cells in direct contact with blood are called vascular endothelial cells, whereas those in direct contact with lymph are known as lymphatic endothelial cells.

And what prompts endothelial cells to release IL-6? Histamine does.

Indeed we have studies showing how Claritin (loratadine) and  Zrtec (Ceterizine) reduce histamine and IL-6; it is the IL-6 from the endothelial cells.


"CONCLUSION:

These results demonstrate that both L and DCL are active to reduce the histamine-induced activation of EC. Interestingly, DCL seems to be effective at lesser concentrations especially to inhibit cytokine secretion."

The above study would suggest that Aerius (DCL) should be more effective than Claritin (L) its predecessor.



"Histamine is a major constituent of the mast cell. The effect of histamine on endothelial cells is primarily mediated through H1R

Collectively, our results suggest that mast cell-derived histamine and proteases play an important role in vascular inflammation and calcification in addition to their well-recognized participation in allergic diseases."

This study, and others like it, show how mast cell degranulation contributes to heart disease.  This would suggest that mast cell stabilizers have a much wider role in human health than is realized.  Another example of how a red apple a day (with the skin) may indeed help keep the doctor away and a glass of red wine will do the same.  Both are rich sources of the mast stabilizer Quercetin.  The alcohol increases the bio-availability.


"Conclusion

These results suggest that cetirizine exerts its beneficial effects on viral myocarditis by suppressing expression of pro-inflammatory cytokines, genes related to cardiac remodeling in the hearts of mice."


So how do Claritin and Zrtec reduce summertime/year round raging in autism?  Well it could be histamine or it could be IL-6, we cannot know for sure.  The science tells us that the brain has many H3 and H4 receptors, so they are possibly to be implicated.  Or, it may just be IL-6;  histamine’s involvement could be just provoking the endothelial cells to release more IL-6.


Conclusion

Claritin/Zrtec/Xyzal are relatively cheap, in theory they are long lasting drugs.  In Monty, aged 10 with ASD, they all work for summertime time raging, but not for long.  Adults should take one per 24 hours.  Monty would need one every 3 hours.

The, supposedly better, mast cell stabilizers like Ketotifen and Rupatadine take a few days before they have any effect at all.  Azelastin is available as a nasal spray and is supposed to be effective quickly as an allergy treatment.

My preferred mast cell stabilizing, IL-6 inhibiting, strategy is to combine PEA (palmitoylethanolamide) which is already naturally in your body, with the flavonoid quercetin, which is found in the skin of red apples and red grapes.  In theory, according to the research, this is both a potent combination and should be free of harmful side effects.

Very frequent doses of Claritin/Zrtec/Xyzal are not going to be good.


Links


  

On this blog:-







Monday, 17 March 2014

Let’s be Serious about the Data - Flavonoids, Cytokines & Autism


You may be wondering why, with so many research papers written about autism, so little progress has been made.  It is a very complex task, but nobody is coordinating it.

How do you find a Boeing 777 missing somewhere in Asia?  Another daunting challenge, but with the right people and resources it can be done.  With the wrong people, it will prove to be impossible.
Ashwood et al have documented the level of various inflammatory markers in autism.  Very helpfully, they created three groups: typical children, children with non-regressive autism, and children with regressive autism.

Table 2, on the third page, tells us what we need to know.  Certain cytokine levels are markedly elevated in regressive autism, including IL-6 and TNF-alpha.  Furthermore, the difference between the two types of autism is dramatic; rather implying the existence of two distinct conditions.
 


So now, I move on to what could have been an amazingly helpful study, had they spent 1% more time on it and collected some blood samples and split the kids into regressive and non-regressive groups.

Last year in Athens, a study was done using Theoharides’ mix of luteolin and quercetin flavonoids to look at the effect of mast cell stabilization on behaviour in autism.  From recent posts, you will recall that these flavonoids reduce the level of inflammatory cytokines, histamine and nerve growth factor, by stabilizing so called mast cells.  In effect, the study was looking at the impact of inhibiting certain cytokines on behaviour in autism.

This sounds great and just what I wanted to find.  Get 40 kids with ASD measure their level of these cytokines/histamine and assess their behaviour.  Give them the cytokine inhibitor/mast cell stabilizer for six months, measure the levels in their blood and assess the behaviour again.
Sadly, they did not bother to take the before and after blood samples and send them downstairs to the hospital’s laboratory.
So we have a paper that took years of planning that tells us that the flavonoids do seem to help; but we do not know exactly why and we cannot correlate improvement in behaviour with change in cytokine levels.
What a pity.  

  

Monday, 10 March 2014

Palmitoylethanolamide (PEA) vs flavonoids Luteolin, Quercetin and Rutin in Autism, Allergies and Arthritis

You might be wondering the relevance of arthritis to an autism blog. Rheumatoid arthritis is an inflammatory condition in which the body's own immune system starts to attack body tissues.  It is often co-morbid with inflammatory bowel disease (including Crohn's disease and ulcerative colitis).  IBD is comorbid with autism.  The study below shows how many autoimmune diseases, including arthritis are connected with autism. 

RESULTS: A total of 3325 children were diagnosed with ASDs, of which 1089 had an infantile autism diagnosis. Increased risk of ASDs was observed for children with a maternal history of rheumatoid arthritis and celiac disease. Also, increased risk of infantile autism was observed for children with a family history of type 1 diabetes.
CONCLUSIONS: Associations regarding family history of type 1 diabetes and infantile autism and maternal history of rheumatoid arthritis and ASDs were confirmed from previous studies. A significant association between maternal history of celiac disease and ASDs was observed for the first time. The observed associations between familial autoimmunity and ASDs/infantile autism are probably attributable to a combination of a common genetic background and a possible prenatal antibody exposure or alteration in fetal environment during pregnancy.

Note that in an earlier post on the vagus nerve, we saw how an implanted vagus nerve stimulator could reduce the inflammation in arthritis.  This is being developed as an alternative to the extremely expensive new drugs for arthritis that target IL-6 and TNF.
In earlier posts on Mast Cells we heard all about Dr Theoharides from Tufts University who is big on using naturally occurring flavonoids to stabilize mast cells and so treat all kinds of allergic reactions as in mastocytosis and in some types of autism.  See below for a reminder of the roll mast cells play in allergies:-

 

Source: Wikipedia
 

Luteolin is Theoharides’ favourite flavonoid because it is the most the most lipophilic and therefore more likely to enter the brain.  Mast cells are all over the body, including the brain.  In autism, he clearly is focused on the mast cells in the brain, but perhaps the mast cells elsewhere are equally problematic.  Indeed, perhaps the mast cells outside the brain are far more important, just because there are far more of them and the inflammatory mediators released by them will travel throughout the entire body.
 
The other two flavonoids know to effect mast cells and inflammation are Rutin and Quercetin. 

Arthritis Luteolin and Palmitoylethanolamide
I was quite surprised to find that research had been carried out on the anti-inflammatory effect of both Luteolin and Palmitoylethanolamide (PEA).  PEA is the substance I have been researching recently, it is not a flavonoid, but it is naturally occurring within the body and has some very interesting properties.

One of the inflammatory markers that is raised in autism is called IL-6.  The research was on arthritis in mice, but it did measure the effect of Luteolin and PEA on IL-6.  The result was interesting:-




 
PEA had the greater effect, but in combination with Luteolin the result improved further. 

This gives yet more reason to look into PEA for autism, but not to forget Luteolin.

The problem with Luteolin and Theoharides’ formulation called Neuroprotek is that it is really expensive in the suggested dosage.
 

What about Quercetin?
Quercetin is relatively cheap.

Unfortunately there is no direct comparison of Luteolin vs Quercetin in arthritis, but there is plenty of research showing that Quercetin is highly beneficial in arthritis. 
Abstract
Pentahydroxyflavone dihydrate, quercetin (QU) is one of common flavonols biosynthesized by plants and has been suggested to modulate inflammatory responses in various models. In the present study, we investigated in vivo effects of oral or intra-cutaneous QU in chronic rat adjuvant-induced arthritis (AA). Growth delay and arthritic scores were evaluated daily after AA induction in Lewis rats. Oral administration of QU (5 x 160 mg/kg) to arthritic rats resulted in a clear decrease of clinical signs compared to untreated controls. Intra-cutaneous injections of lower doses (5 x 60 mg/kg) of QU gave similar anti-arthritic effects, while 5 x 30 mg/kg concentrations were inefficient in this respect. Finally, injection of relatively low QU doses (5 x 30 mg/kg) prior to AA induction significantly reduced arthritis signs. As QU was suggested to inhibit macrophage-derived cytokines and nitric oxide (NO), we then analyzed macrophage response ex vivo. Anti-arthritic effects of QU correlated with significant decrease of inflammatory mediators produced by peritoneal macrophages, ex vivo and in vitro. These data indicate that QU is a potential anti-inflammatory therapeutic and preventive agent targeting the inflammatory response of macrophages. 

Here is a great paper summarizing the many and varied benefits of quercetin:-


An interesting point with all flavonoids is their bioavailability.  This means what proportion that you eat is actually absorbed.
Quercetin is present in apples, but the largest amount is in the peel and is highest in red apples.   Quercetin is found is lesser amounts in red wine, but it appears the bioavailability is much higher because of the alcohol.  So grape juice would not help much. 


Applications of Quercetin


Asthma

Quercetin is an effective bronchodilator and helps reduce the release of histamine and other allergic or inflammatory chemicals in the body.

Quercetin has demonstrated significant anti-inflammatory activity because of direct inhibition of several initial processes of inflammation.

Cancer

Laboratory studies have investigated Quercetin's potential for use in anti-cancer applications. The American Cancer Society says while quercetin "has been promoted as being effective against a wide variety of diseases, including cancer," and "some early lab results appear promising, as of yet there is no reliable clinical evidence that quercetin can prevent or treat cancer in humans."

Eczema

Serum IgE levels are highly elevated in eczema patients, and virtually all eczema patients are positive for allergy testing. Excessive histamine release can be minimized by the use of antioxidants. Quercetin has been shown to be effective in reducing IgE levels in rodent models.

Inflammation

Several laboratory studies show quercetin may have anti-inflammatory properties, and it is being investigated for a wide range of potential health benefits.

Quercetin has been reported to be of use in alleviating symptoms of pollinosis. An enzymatically modified derivative was found to alleviate ocular but not nasal symptoms of pollinosis.

Studies done in test tubes have shown quercetin may prevent immune cells from releasing histamines which might influence symptoms of allergies.

A study with rats showed that quercetin effectively reduced immediate-release niacin (vitamin B3) flush, in part by means of reducing prostaglandin D2 production. A pilot clinical study of four humans gave preliminary data supporting this.

Fibromyalgia

Quercetin may be effective in the treatment of fibromyalgia because of its potential anti-inflammatory or mast cell inhibitory properties shown in laboratory studies

Monoamine-oxidase inhibitor

Possibly an active component of heather, quercetin was suspected from a bioassay test on crude extracts to selectively inhibit monoamine oxidase, possibly indicating pharmacological properties.

Prostatitis

Quercetin has been found to provide significant symptomatic improvement in most men with chronic prostatitis, a condition also known as male chronic pelvic pain syndrome.


Luteolin
Luteolin is known to stabilize mast cells.  It has been studied in several preliminary in vitro scientific investigations. Proposed activities include antioxidant activity (i.e. scavenging of free radicals), promotion of carbohydrate metabolism, and immune system modulation. Other in vitro studies suggest luteolin has anti-inflammatory activity, and that it acts as a monoamine transporter activator, a phosphodiesterase inhibitor, and an interleukin 6 inhibitor. In vivo studies show luteolin affects xylazine/ketamine-induced anesthesia in mice. In vitro and in vivo experiments also suggest luteolin may inhibit the development of skin cancer.

In autism the ability to stabilize mast cells and inhibit IL-6 is very useful.
 

Luteolin, a flavonoid found in high concentrations in celery and green pepper, has been shown to reduce production of proinflammatory mediators in LPS-stimulated macrophages, fibroblasts, and intestinal epithelial cells. Because excessive production of proinflammatory cytokines by activated brain microglia can cause behavioral pathology and neurodegeneration, we sought to determine whether luteolin also regulates microglial cell production of a prototypic inflammatory cytokine, IL-6. Pretreatment of primary murine microlgia and BV-2 microglial cells with luteolin inhibited LPS-stimulated IL-6 production at both the mRNA and protein levels. To determine how luteolin inhibited IL-6 production in microglia, EMSAs were performed to establish the effects of luteolin on LPS-induced binding of transcription factors to the NF-κB and activator protein-1 (AP-1) sites on the IL-6 promoter. Whereas luteolin had no effect on the LPS-induced increase in NF-κB DNA binding activity, it markedly reduced AP-1 transcription factor binding activity. Consistent with this finding, luteolin did not inhibit LPS-induced degradation of IκB-α but inhibited JNK phosphorylation. To determine whether luteolin might have similar effects in vivo, mice were provided drinking water supplemented with luteolin for 21 days and then they were injected i.p. with LPS. Luteolin consumption reduced LPS-induced IL-6 in plasma 4 h after injection. Furthermore, luteolin decreased the induction of IL-6 mRNA by LPS in hippocampus but not in the cortex or cerebellum. Taken together, these data suggest luteolin inhibits LPS-induced IL-6 production in the brain by inhibiting the JNK signaling pathway and activation of AP-1 in microglia. Thus, luteolin may be useful for mitigating neuroinflammation.

Health effects of Rutin


While a body of evidence for the effects of rutin and quercetin is available in mice, rats, hamsters, and rabbits, as well as in vitro studies, no clinical studies directly demonstrate significant, positive effects of rutin as dietary supplement in humans.
  • Rutin inhibits platelet aggregation, as well as decreases capillary permeability, making the blood thinner and improving circulation.]
  • Rutin shows anti-inflammatory activity in some animal and in vitro models]
  • Rutin inhibits aldose reductase activity.
  • Recent studies show rutin could help prevent blood clots, so could be used to treat patients at risk of heart attacks and strokes.
  • Some evidence also shows rutin can be used to treat hemorrhoids, varicosis, and microangiopathy.
  • Rutin increases thyroid iodide uptake in rats without raising serum T3 or T4.
  • Rutin is also an antioxidant, compared to quercetin, acacetin, morin, hispidulin, hesperidin, and naringin, it was found to be the strongest. However, in other trials, the effects of rutin were lower or negligible compared to those of quercetin.
 

Vox Populi (from Amazon.com reviews)

Rutin   

Few comments

-    This works wonders for hemorrhoids”
 

Quercetin

Hundreds of positive comments for: Nasal allergy, eczema, sinusitis, prostatitis, joint pain etc.

Lifesaver for allergies”
“This really helps and works like Sudafed” 

Luteolin / Neuroprotek (main ingredient is Luteolin)
Few comments mainly:  mastocytosis, allergies, eczema, autism
Works for some people with autism and not for others:
“My son with autism stopped his aggressive behaviour in a day”
“Works for my fibromyalgia”
 
Conclusion
I do have a couple of jars of Neuroprotek, which I was going to try on Monty, aged 10 with ASD, when the pollen season returns in the summer.  Using it all year round would not be cheap and might have little effect.  I find Quercetin very interesting and worthy of investigation; but PEA remains my current favourite.
It does come down to the question of which mast cells de-granulating cause the problem in autism.  In some people it could be the ones in their digestive tract and in others the ones in their eyes and nose.  The ones in the brain may or may not be relevant; these are the ones Theoharides seems to focus on.
PEA, Quercetin and Luteolin seem to have many benefits unrelated to mast cells.  Since they cannot be patented, there is no incentive for Big Pharma to invest in developing their potential.  So even if they did had some remarkable property, like in cancer therapy, we would likely never find out.
If I was a mouse with arthritis, I would add PEA and Quercetin (or Luteolin) to my weekly shop.  Anyone who is a big user of H1 antihistamines should find Quercetin helpful.