Quinacrine prevention of intestinal ischaemic mucosal damage is partly mediated through inhibition of intraluminal phospholipase A2

Abstract

The influence of total ischaemia and revascularization on luminal phospholipid metabolism in the rat small intestine was investigated. Two hours of total ischaemia followed by five minutes of revascularization caused increases in phospholipase A₂ activity, and lysophosphalidylcholine content in the gut lumen. The above treatment also resulted in mucosal damage expressed as an increase in N-acetyl-β-glucosaminidase activity in the lumen. Pretreatment of animals with the phospholipase A₂ inhibitor, quinacrine prevented the increases in luminal phospholipase A₂ activity and mucosal damage following ischaemia and revascularization. Intraluminal injection of either phospholipase A₂ purified from snake venom or Triton X-100 resulted in increased activity of N-acetyl-β-glucosaminidase in the luminal content. Again, quinacrine pretreatment of animals prevented the increases in mucosal permetability and activity of N-acetyl-β-glucosaminidase after intraluminal injection of purified phospholipase A₂. On the other hand quinacrine pretreatment had no influence on the observed effects of Triton X-100 treatment. These findings suggest that an increase in luminal phospholipase A₂ could be involved in mediating the mucosal injury caused by small intestinal ischaemia.