Abstract
Cystic fibrosis (CF) is a disease caused by loss-of-function mutations affecting the CF transmembrane conductance regulator (CFTR), a chloride channel. Recent evidence indicates that CFTR is inhibited by a gluten/gliadin-derived peptide (P31-43), causing an acquired state of CFTR inhibition within the gut that contributes to the pathogenesis of celiac disease (CD). Of note, CFTR inhibition does not only cause intra- and extracellular ion imbalances but also affects proteostasis by activating transglutaminase-2 (TGM2) and by disabling autophagy. These three phenomena (CFTR inhibition, TGM2 activation, and autophagy impairment) engage in multiple self-amplifying circuitries, thus forming an “infernal trio”. The trio hinders enterocytes from returning to homeostasis and instead locks them in an irreversible pro-inflammatory state that ultimately facilitates T lymphocyte-mediated immune responses against another gluten/gliadin-derived peptide (P57–68), which,upon deamidation by activated TGM2, becomes fully antigenic. Hence, the pathogenic protein gliadin exemplifies a food constituent the exceptional immunogenicity of which arises from a combination of antigenicity (conferred by deaminated P57–68) and adjuvanticity (conferred by P31-43). CF can be treated by agents targeting the “infernal trio” including CFTR potentiators, TGM2 inhibitors, and autophagy enhancers. We speculate that such agents may also be used for CD therapy and indeed could constitute close-to-etiological treatments of this enteropathy.
Highlights
Cystic fibrosis (CF) is a disease caused by loss-of-function mutations affecting the CF transmembrane conductance regulator (CFTR), a chloride channel
● Prior epithelial stress and innate immunity activation are essential for breaking oral tolerance to gliadin and triggering an (HLA) DQ2/DQ8-restricted Th1 and antibody response in celiac individuals
● The stress response triggered by gliadin is similar to that generated by CFTR inhibition in Cystic Fibrosis epithelia
Summary
● Prior epithelial stress and innate immunity activation are essential for breaking oral tolerance to gliadin and triggering an (HLA) DQ2/DQ8-restricted Th1 and antibody response in celiac individuals. ● The stress response triggered by gliadin is similar to that generated by CFTR inhibition in Cystic Fibrosis epithelia. A brief overview of celiac disease (CD) Celiac disease (CD) affects up to 1% of the world population. This enteropathy is triggered by an immunogenic/autoimmune reaction against gluten, and in particular its component gliadin, that is contained in wheat, barley, rye, and related species of cereals[1-3]. Gliadin is subjected to partial proteolysis to generate peptides that, instead of being ignored by the immune system or triggering oral tolerance, induce an immunogenic and autoimmune reaction that causes
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