MarvelD3 Is Upregulated in Ulcerative Colitis and Has Attenuating Effects during Colitis Indirectly Stabilizing the Intestinal Barrier

Cells. 2022 May 4;11(9):1541. doi: 10.3390/cells11091541.

Abstract

In inflammatory bowel disease (IBD), the impaired intestinal barrier is mainly characterized by changes in tight junction protein expression. The functional role of the tight junction-associated MARVEL protein MARVELD3 (MD3) in IBD is yet unknown. (i) In colon biopsies from IBD patients we analyzed MD3 expression and (ii) in human colon HT-29/B6 cells we studied the signaling pathways of different IBD-relevant cytokines. (iii) We generated a mouse model with intestinal overexpression of MD3 and investigated functional effects of MD3 upregulation. Colitis, graded by the disease activity index, was induced by dextran sodium sulfate (DSS) and the intestinal barrier was characterized electrophysiologically. MD3 was upregulated in human ulcerative colitis and MD3 expression could be increased in HT-29/B6 cells by IL-13 via the IL13Rα1/STAT pathway. In mice DSS colitis, MD3 overexpression had an ameliorating, protective effect. It was not based on direct enhancement of paracellular barrier properties, but rather on regulatory mechanisms not solved yet in detail. However, as MD3 is involved in regulatory functions such as proliferation and cell survival, we conclude that the protective effects are hardly targeting the intestinal barrier directly but are based on regulatory processes supporting stabilization of the intestinal barrier.

Keywords: DSS-induced colitis; IL-13; MarvelD3; inflammatory bowel disease; tight junction; ulcerative colitis.

MeSH terms

  • Animals
  • Colitis* / chemically induced
  • Colitis* / pathology
  • Dextran Sulfate / pharmacology
  • Humans
  • Intestinal Mucosa / pathology
  • MARVEL Domain-Containing Proteins* / genetics
  • Mice
  • Mice, Inbred C57BL
  • Tight Junction Proteins / metabolism

Substances

  • MARVEL Domain-Containing Proteins
  • Tight Junction Proteins
  • Dextran Sulfate

Grants and funding

This research was funded by the Deutsche Forschungsgemeinschaft (DFG) Graduiertenkolleg “TJ-train”, GRK 2318 project C2, by DFG TRR-241 project B06 and C02, and KFO 5001 project P07.