Abstract
Ulcerative colitis is a multi-factorial disease involving a dysregulated immune response. Disruptions to the intestinal epithelial barrier and translocation of bacteria, resulting in inflammation, are common in colitis. The mechanisms underlying epithelial barrier dysfunction or regulation of tight junction proteins during disease progression of colitis have not been clearly elucidated. Increase in phospholipase D (PLD) activity is associated with disease severity in colitis animal models. However, the role of PLD2 in the maintenance of intestinal barrier integrity remains elusive. We have generated intestinal-specific Pld2 knockout mice (Pld2 IEC-KO) to investigate the mechanism of intestinal epithelial PLD2 in colitis. We show that the knockout of Pld2 confers protection against dextran sodium sulphate (DSS)-induced colitis in mice. Treatment with DSS induced the expression of PLD2 and downregulated occludin in colon epithelial cells. PLD2 was shown to mediate phosphorylation of occludin and induce its proteasomal degradation in a c-Src kinase-dependent pathway. Additionally, we have shown that treatment with an inhibitor of PLD2 can rescue mice from DSS-induced colitis. To our knowledge, this is the first report showing that PLD2 is pivotal in the regulation of the integrity of epithelial tight junctions and occludin turn over, thereby implicating it in the pathogenesis of colitis.
Highlights
PLD2 is a well-characterized signalling mediator that regulates several cellular events
We demonstrate that genetic ablation of intestinal epithelial PLD2 prevents dextran sodium sulphate (DSS)-treated mice from developing colitis by improving the intestinal integrity
We show that PLD2 downregulates the tight junction protein occludin and mediates the regulation of intestinal permeability by mediating the turnover of occludin
Summary
PLD2 is a well-characterized signalling mediator that regulates several cellular events. Recent studies highlight the pathophysiological role of PLD2 in the pathogenesis of several diseases[17,18,19,20,21]. Similar results were shown by mRNA expression profiling from the mucosal samples of patients with UC22, 23 These studies do not provide direct evidence for the role of PLD in colitis. We aimed to identify the role of intestinal epithelial PLD2 in the pathogenesis of UC. For this purpose, we used tissue specific knockout mice in a DSS-induced model of experimental colitis. Our study highlights a novel role of PLD2 in the regulation of tight junction protein occludin and intestinal barrier integrity
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