GATA6-AS1 regulates intestinal epithelial mitochondrial functions, and its reduced expression is linked to intestinal inflammation and less favorable disease course in ulcerative colitis (UC)

Document Type



Paediatrics and Child Health


Background and aims: Widespread dysregulation of long non-coding RNAs (lncRNAs) including a reduction in GATA6-AS1 was noted in inflammatory bowel disease (IBD). We previously reported a prominent inhibition of epithelial mitochondrial functions in UC. However, the connection between reduction of GATA6-AS1 expression and attenuated epithelial mitochondrial functions was not yet defined.
Methods: Mucosal transcriptomics was used to conform GATA6-AS1 reduction in several treatment naïve independent human cohorts (n=673). RNA pull-down followed by mass-spectrometry was used to determine GATA6-AS1 interactome. Metabolomics and mitochondrial respiration following GATA6-AS1 silencing in Caco-2, were used to elaborate on GATA6-AS1 functions.
Results: GATA6-AS1 showed predominant expression in gut epithelia using single cell datasets. GATA6-AS1 levels were reduced in Crohn disease (CD) ileum and in ulcerative colitis (UC) rectum in independent cohorts. Reduced GATA6-AS1 lncRNA was further linked to more severe UC form, and to less favorable UC course. GATA6-AS1 interactome showed robust enrichment for mitochondrial proteins, and included TGM2, an autoantigen in celiac disease that is induced in UC, CD, and celiac, in contrast GATA6-AS1 reduction in these cohorts. GATA6-AS1 silencing resulted in induction of TGM2, and this was coupled with reduction in mitochondrial membrane potential and mitochondrial respiration, as well as in reduction of metabolites linked with aerobic respiration relevant to mucosal inflammation. TGM2 knockdown in GATA6-AS1 deficient cells rescued mitochondrial respiration.
Conclusions: GATA6-AS1 levels are reduced in UC, CD, and celiac, and in more severe UC forms. We highlight GATA6-AS1 as a target regulating epithelial mitochondrial functions, potentially through controlling TGM2 levels


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Publication (Name of Journal)

Journal of Crohn's & colitis