Saturday, June 29, 2019

Select microbiota species provides protection against food allergy via RORγt+ Tregs

It is now undoubtedly acknowledged that body's microbiota plays a decisive role in protection against allergy, including food allergy. But how exactly microbiota does it is less clear.

A new study in mice published in Nature Medicine suggests the certain microbiota species signal subset of FOXP3+ Tregs called RORγt+ Tregs via adaptor MyD88 to exert its protective role against food allergy.

The most of the experiments reported here were done in genetically modified mice called Il4raF709 that shows a predisposition to allergy due to an alteration in IL-4 signaling. Here, germ-free Il4raF709 mice were colonized with microbiota consortium differently enriched between non-allergic versus allergic infants. Out of those, defined mix of Clostridiales and Bacteriodales but not Proteobacteria could reduce allergic reaction in Il4raF709 mice. (Note, you can click the image to expand it to see it more accurately).






In a separate set of experiments the authors noticed that Il4raF709 mice or mice specifically deficient for RORγt+ Tregs subset displayed similar phenotype in response to allergic challenge. They thought there could be a connection.




Indeed, Il4raF709 mice deficient for RORγt+ Tregs subset lost an ability to resist allergic reaction when colonized with defined mix of Clostridiales and Bacteriodales.






Finally, the authors attributed the loss of protection to loss of MyD88 adaptor signaling in Tregs because Il4raF709 mice deficient for MyD88 signaling in Tregs also showed loss of protection against allergic reaction when colonized with defined mix of Clostridiales and Bacteriodales (Note, oral short chain fatty acid (SCFA) therapy failed to protect Il4raF709 mice against allergic response) .







In summary, we could conclude based on this and other studies that RORγt+ Tregs do play a decisive role in protection against unwanted inflammatory response (Note, however, that allergic sensitization protocol employed here is not exactly "translational" approach).

One major drawback of this study is that the authors failed to examine why it is that Clostridiales and Bacteriodales but not Proteobacteria or other species could signal via MyD88 to provide protection against allergic response. In my view it is not a difference in innate signaling molecules that distinguishes protective versus non-protective microbiota species but rather their antigenic composition that provides epitopes to RORγt+ Tregs to keep them active and in a good functioning condition (MyD88 could be just necessary to keep such antigen-specific Tregs active due to its role in metabolic pathways).

posted by David Usharauli


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