Friday, September 8, 2017

Loss of microbiota depletes cross-reactive Foxp3+ Tregs leading to selective immunopathologies

Check out our follow-up manuscript in PeerJ Preprints that provides a brief guide to SPIRAL, a novel interpretive framework that demonstrates the central role of microbiota-Treg axis in the initiation of immune disorders.

Kamala T, Usharauli D. (2017)
 
Loss of microbiota depletes cross-reactive Foxp3+ Tregs leading to selective immunopathologies.
PeerJ Preprints 5:e3237v1
 
The 'Hygiene hypothesis', a cornerstone model to account for the role of exogenous pathogens and later of endogenous microbiota in immune disorders, is currently presumed to operate at the innate immunity and metabolite levels to properly 'educate' the immune system. Doing so however fails to satisfactorily account for the antigen-specific nature of such disorders. SPIRAL is a novel interpretive framework that resolves this dilemma. It represents the periodic table of cross-reactive Foxp3+ regulatory T cell (Treg) epitopes selected from commensal microbiota over evolutionary time to mediate self-nonself discrimination and effector class regulation. Here, we utilize the SPIRAL's predictive power to provide a mechanistic antigen-specific basis for the initiation of allergies and autoimmune diseases as well as for the failure to mount effective anti-tumor and vaccine responses through selective loss of microbiota and corresponding cross-reactive Foxp3+ Tregs.



 

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