I was
interested to receive a comment from a reader of this blog who finds that the
anti-parasite drug Ivermectin has a major impact on her child’s autism, debilitating tics and OCD (Obsessive Compulsive Disorder).
Regular readers may recall that
when looking at so-called PAK1 inhibitors, which look like the Holy Grail for
both common cancers and autism, it turned out that two already exist. One is an old anti-parasitic drug called
Ivermectin and the other is a substance found in certain types of bee propolis
from Brazil and New Zealand.
It then turned out that a
handful of “alternative” practitioners in the US are already using Ivermectin
for autism, but for entirely different reasons.
They believe that various parasites exist inside the children and
cause/exacerbate autism.
I thought this was intriguing
and quite likely another case of “the right therapy, for the wrong reason”.
Tics and Ticks
Ticks are tiny parasites that
like to attach themselves to your skin, they can fall from trees/bushes or
attach themselves to skin as you pass through long grass. Some ticks carry Lyme Disease.
Tics are common in autism,
PANDAS, PANS and many forms of OCD (Obsessive Compulsive Disorder).
It seems
that some “alternative” practitioners in
the US are treating PANDAS and PANS on the assumption that it is caused by Lyme
Disease. Others are recommending
“de-worming” for autism, on the assumption that intestinal parasites are to
blame.
Here is a
link to somebody writing about these alternative practitioners, for those who
are curious.
My take
This all
sound highly odd to me, partly because it seems that you have to keep taking
the de-worming tablets for the long term.
With regular mild parasites found in developed countries, drugs therapy
can eliminate the parasites. In some
tropical climates more aggressive parasites exist that are almost impossible to
eradicate 100%.
So regular
de-worming of humans in the United States, in 2014, sounds bizarre.
On the other
hand, you cannot dispute when somebody finds their child’s tics and OCD have
disappeared with the de-worming therapy and that they return when the therapy
stops.
Is it, as I
suggested in the early posts, that the PAK1 inhibiting properties of Ivermectin
are behind its effect? Hopefully yes,
but I am not sure. So I will take a look
at Ivermectin and see if it has any other properties that could impact autism,
tics and OCD.
Ivermectin - not just for your dog
Most people
would only come across Ivermectin at the vet, but there is much more to it.
Discovered in the late-1970s, originating solely from a
single microorganism isolated at the Kitasato Institute, Tokyo, Japan from
Japanese soil, Ivermectin has had an immeasurably beneficial impact in
improving the lives and welfare of billions of people throughout the world.
Originally introduced as a veterinary drug, it kills a wide range of internal
and external parasites in commercial livestock and companion animals. It was
quickly discovered to be ideal in combating two of the world’s most devastating
and disfiguring diseases which have plagued the world’s poor throughout the
tropics for centuries. It is now being used free-of-charge as the sole tool in
campaigns to eliminate both diseases globally. It has also been used to
successfully overcome several other human diseases and new uses for it are
continually being found.
The origins of ivermectin as a human drug are
inextricably linked with Onchocerciasis (or River Blindness), a chronic human
filarial disease caused by infection with Onchocerca volvulus worms. The disease causes
visual damage for some 1–2 million people, around half of who will become
blind.
Lymphatic Filariasis, also known as Elephantiasis, is
another devastating, highly debilitating disease that threatens over 1 billion
people in more than 80 countries. Over 120 million people are infected, 40
million of whom are seriously incapacitated and disfigured. The disease results
from infection with filarial worms
Modes of Action
Let us look at the various modes of action proposed for
Ivermectin.
1. GABA
Initially, researchers believed that Ivermectin blocked
neurotransmitters, acting on GABA-gated Cl− channels, exhibiting
potent disruption at GABA receptors in invertebrates and mammals.
In mammals the GABA receptors occur only in the central
nervous system (CNS), i.e. in the brain and the spinal cord. But mammals have a
so-called blood-brain barrier (BBB)
that prevents microscopic objects and large molecules
to get into the brain. Ivermectin, while paralyzing body-wall and pharyngeal muscle in nematodes
has no such impact in mammals.
Consequently Ivermectin is much less toxic to mammals than to
parasites without such a barrier, which allows quite high safety margins for
use on livestock, pets and humans.
2. Glutamate
Subsequently, researchers discovered that it was in fact
glutamate-gated Cl− channels (GUCl−) that were the target
of Ivermectin and related drugs.
3. Reversing
Immunosuppression
The growing body of evidence supports the theory that the
rapid parasite clearance following Ivermectin treatment results not from the
direct impact of the drug but via suppression of the ability of the
parasite to secrete proteins that enable it to evade the host’s natural immune
defence mechanism.
In a major breakthrough that comes after decades of research and nearly
half a billion treatments in humans, scientists have finally unlocked how a key
anti-parasitic drug kills the worms brought on by the filarial diseases river
blindness and elephantitis
Regular readers will recall that a beneficial parasite
therapy in inflammatory diseases is the TSO worm. This worm also modulates the host’s immune
system so as not to be ejected. This
calming of the over activated immune system appears to be beneficial in several
conditions and possibly autism.
4. Inhibitor
of Wnt-TCF Pathway
Recent cancer research has shown the Ivermectin has a
highly unexpected property; it can block a pathway called Wnt-TCF on which many
cancers are dependent.
Wnt
signaling is also a strong activator of mitochondrial biogenesis. This leads to
increased production of reactive oxygen species (ROS), in other
words oxidative stress, known to cause DNA and cellular damage.
Perhaps aberrant
Wnt signaling is involved in the mechanism of autism?
Well it
appears to be the case.
Mounting attention is being
focused on the canonical Wnt signaling pathway which has been implicated in the
pathogenesis of autism in some our and other recent studies. The canonical Wnt
pathway is involved in cell proliferation, differentiation and migration,
especially during nervous system development. Given its various functions,
dysfunction of the canonical Wnt pathway may exert adverse effects on
neurodevelopment and therefore leads to the pathogenesis of autism.
5. Inhibitor
of PAK1
We already know from earlier in this blog, that
Ivermectin is a PAK1 inhibitor. Blocking
PAK1 should prevent several common cancers, according to researchers at MIT,
who also suggest that autism cannot occur without PAK1.\
Not entirely surprisingly, if you look into the cancer
research you will see that PAK and WNT are interrelated.
p21-Activated kinase (PAK) interactswith Wnt signaling to regulate tissue polarity and gene expression
Wnt signaling is mediated by three classes of receptors,
Frizzled, Ryk, and Ror. In Caenorhabditis elegans,
Wnt signaling regulates the anterior/posterior polarity of the P7.p vulval
lineage, and mutations in lin-17/Frizzled
cause loss or reversal of P7.p lineage polarity. We found that pak-1/Pak (p21-activated kinase),
along with putative activators of Pak, nck-1/Nck, and ced-10/Rac, regulates P7.p
polarity. Mutations in these genes suppress the polarity defect of lin-17 mutants. Furthermore,
mutations in pak-1, nck-1,
and ced-10 cause constitutive dauer
formation at 27 °C, a phenotype also observed in egl-20/Wnt
and cam-1/Ror mutants. In HEK293T
cells, Pak1 can antagonize canonical Wnt signaling. Moreover, overexpression of
Ror2 leads to phosphorylation of Pak1. Together, these results indicate that Pak interacts with Wnt
signaling to regulate tissue polarity and gene expression.
So there at least five possible effects that Ivermectin
can have.
Too much
Ivermectin is not good
According to the literature in the developing world, there
are 200 million people (http://onlinelibrary.wiley.com/doi/10.15252/emmm.201404084/abstract) currently taking Ivermectin, which is provided free for river blindness; some of those have been using the drug for over 20 years - so much is known
about it.
It is suggested that at excessive doses, Ivermectin
starts to cross the BBB and then affects the neurotransmitter GABA.
Ivermectin
stimulates the release of the GABA in the presynaptic neurons and enhances its
postsynaptic binding to its receptors. This increases the flow of chloride ions
in the neurons, which causes hyperpolarization of the cell membranes. This on
its turn disturbs normal nervous functions and causes a general blockage of the
stimulus mechanisms in the CNS. The resulting cerebral and cortical deficits
include mainly:
- Ataxia (uncoordinated movements)
- Hypermetria (excessive or disproportionate movements)
- Disorientation
- Hyperesthesia (excessive reaction to tactile stimuli)
- Tremor
(uncoordinated trembling or shaking
movements)
- Mydriasis (dilatation of the pupils); in cattle
and cats also myosis
(contraction of the pupils)
- Recumbency (inability to rise)
- Depression
- Blindness
- Coma
So, too much Ivermectin
is not a good idea.
So why is Ivermectin good for Tics, OCD and Autism?
At low doses Ivermectin
does not cross the BBB (blood brain barrier), but in autism it appears that the
BBB can be more permeable than it should be.
So possibly Ivermectin produces an increase in GABA, like that caused by
Valproic Acid. Some people with autism
find Valproic Acid very beneficial.
Perhaps those glutamate-gated
Cl− channels (GUCl−) play a, yet unidentified, role in
autism.
Or, perhaps we got it right and PAK inhibiting property
is what matters.
Perhaps being an PAK1 inhibitor will also make it a Wnt inhibitor, or maybe not, worth checking though?
Perhaps the MIT guys got it wrong and it is Wnt rather than PAK that we should be focused on?
I hope the blog reader that
prompted this post does indeed give the bee propolis a go and see if it has the
same effect as Ivermectin.
Cancer
Having said in an
earlier post that I will not try and out-smart the cancer researchers, I will
just say that the extremely cheap drug Ivermectin does seem to have some potent
anti-cancer properties.
I know that
cancer drugs are supposed to be hugely expensive.
An earlier post
mentioned Ivermectin’s positive effect on Leukemia, but it seems that the WNT-TCF Pathway is involved in
very many cancers. This is not to mention
that just being a PAK1 inhibitor should be enough to prompt further interest.
Conclusion
Well it looks like Dr Wu
and Dr Klinghardt
have indeed got the therapy right, but I believe for entirely the wrong
reasons. By promoting themselves via organisations like Autism One, they are
almost guaranteed to be ignored by mainstream doctors and researchers. The
therapy will therefore remain on the fringe, with the quacks and cranks.
From my perspective, what really matters is whether a therapy works. We can always later on figure out
why it works. So thank you Dr Wu and Dr Klinghardt.
Very interesting as always.
ReplyDeleteAnd food for some thought regarding developping x developped countries, as de-worming is so common where sanitation is less present.
J.
If reliable data existed, you could compare autism incidence with use of Ivermectin. Perhaps it would indeed show that use of this drug results in less autism.
DeleteThis is absolutely confirming some of my own research on the PAK1 pathway. Thank you.
ReplyDeleteWhat would be the recommended dose of ivermectin for ASD?
ReplyDelete