What this
polices up is the reality that gluten intolerance is universal. Celiac disease is merely an additional
reactive loading to an already stressed system.
If there is a
take home, it is that it is generally wise to minimize wheat as much as
possible. It does appear that quantity
matters. It will take a substantial time
for our culture to significantly reduce the gluten diet.
It would be nice
to discover a co ingredient that offsets the gluten effect itself. It seems to me that this could be possible
and needs to be actively investigated.
Research Proves
Wheat Can Cause Harm To Everyone’s Intestines
October 3, 2013
Sayer Ji,
The myth that you need to have ‘bad genes’ to
experience intestinal damage from consuming wheat was disproved years ago.
It is a common myth that wheat only causes
immune-mediated intestinal damage within those with a rare genetically based
aberration called celiac disease. Still relatively unknown research from 2007
clearly demonstrated that everyone’s body likely experiences adverse intestinal
effects from gluten (gliadin)
exposure.
As far as celiac disease, the specific mechanisms by
which wheat causes damage are well-known, and they go like this…
In celiac disease, an alcohol-soluble wheat
storage protein known as gliadin is partially degraded (i.e. deamidated) by the
enzyme tissue transglutaminase, the effect of which is to activate susceptible
host T-cells to mistakenly identify and attack intestinal villi as if they were
‘foreign’ invaders. This highly destructive autoimmune process can be
verified through blood tests, or through the so-called “gold standard” of an
intestinal biopsy that clearly reveals destroyed villi and/or flattened
intestinal surfaces, the hallmark pathology of celiac disease.
The reality, however, is that one does not need to
be celiac, or have a particular genetic mutation, in order to experience damage
associated with exposure to wheat gliadin.
In a study published in the journal GUT in
2007, a group of researchers asked the question: “Is gliadin really safe for non-celiac individuals?“ In order to test their hypothesis that an
innate immune response to gliadin is common in both patients with celiac
disease and without celiac disease, intestinal biopsy cultures were taken from
both groups and challenged with crude gliadin, the gliadin synthetic 19-mer (19
amino acid long gliadin peptide) and 33-mer deamidated peptides.
Results showed that all patients with or without
celiac disease, when challenged with the various forms of gliadin, produced an
interleukin-15-mediated response. The
researchers concluded:
“The data obtained in this pilot study supports the
hypothesis that gluten elicits its harmful effect, throughout an IL15 innate
immune response, on all individuals [my italics].”
The primary difference between the two groups is
that the celiac disease patients experienced both an innate and an
adaptive immune response to the gliadin, whereas the non-celiacs experienced
only the innate response.
The researchers hypothesized that the difference
between the two groups may be attributable to greater genetic susceptibility at
the HLA-DQ gene locus (on chromosome 6) for triggering an adaptive immune
response, higher levels of immune mediators or receptors, or perhaps greater
permeability in the celiac intestine.
It is also possible that over and above the
possibility of greater genetic susceptibility, most of the differences are from
epigenetic factors that are influenced by the presence or absence of certain
nutrients in the diet, bacterial strains within the gut flora, and
environmental exposures, which include NSAID drugs like naproxen or aspirin
which can profoundly increase intestinal permeability in the non-celiac,
rendering them susceptible to gliadin’s potential for activating secondary
adaptive immune responses.
[ which strongly
suggests going gluten free if taking daily aspirin – arclein ]
This may explain why, in up to 5% of all cases of
classically defined celiac disease, the typical HLA-DQ haplotypes are not
found. However, determining the factors associated with greater or lesser
degrees of susceptibility to gliadin’s intrinsically toxic effect should
be secondary to the fact that it has been demonstrated to be toxic to both
non-celiacs and celiacs.1
In other words, rather than look up the adverse gut
responses associated with wheat, and particularly, wheat gliadin, as being a
rare genetically-based aberration, we may want to reconsider the common,
culturally reinforced view that wheat is an intrinsically healthy food that
only an ‘abnormal’ subset of the human population has an ‘unhealthy’ response
to. To the contrary, perhaps the immunoreactive effects that wheat gliadin
induces indicates that we have a human species-specific intolerance to this
‘food,’ and that rather than look at these adverse effects as being ‘unhealthy
reactions to a healthy food,’ perhaps we should look at them as ‘healthy
reactions to an intrinsically unhealthy (or metabolically incompatible) food.’
Ultimately, intestinal damage is only the tip of the
so-called “celiac” or “non-celiac gluten sensitivity” icebergs.
GreenMedInfo.com has indexed research from the National Library of Medicine on over
300 adverse health effects associated with wheat and/or wheat components. You
can view the first-hand research here: http://www.greenmedinfo.com/toxic-ingredient/wheat
Also, learn more about wheat’s adverse effects to
gastrointestinal health by reading our recent article:Wheat As A Common Cause of Dyspepsia and IBS, and a broader perspective on the dangers of wheat
in our essay ‘The Dark Side of Wheat.’
About the Author
Sayer Ji is an author,
researcher, lecturer, and advisory board member of the National Health
Federation.
He founded Greenmedinfo.com in 2008 in order to
provide the world an open access, evidence-based resource supporting natural
and integrative modalities. It is widely recognized as the most widely
referenced health resource of its kind.
Reference:
1 Mustalahti, K., P. Holopainen, K. Karell, M.
Maki, J. Partanen, “Genetic Dissection Between Silent and Clinically
Diagnosed Symptomatic Forms of Coeliac Disease in Multiplex
Families”, Digestive and Live
Research Proves Wheat Can Cause Harm To Everyone’s Intestines are you st^^^^d they prove opposit look at reseatch in healthy people wheat do not cross to blood.
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