Evidence for non-neurotensin receptor-mediated effects of xenin (1-25)--focus on intestinal microcirculation.

M Heuser, I Kleiman, O Pöpken, R Nustede, S Post

Index: Regul. Pept. 107(1-3) , 23-7, (2002)

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Abstract

Xenin (1-25) has been detected in various locations in mammalians. It has structural similarities with neurotensin and its intestinal effects are claimed to be mediated by neurotensin receptors. It has been shown to influence gastrointestinal motility. The effects of xenin (1-25) on intestinal microvascular perfusion after ischemia/reperfusion have not been investigated yet. Therefore, the superior mesenteric artery was clamped for 40 min in Wistar rats (n=8). Ten minutes prior to reperfusion, intravenous infusion of xenin (1-25) (5 nmol/kg/h) was started. By means of intravital microscopy, microvascular perfusion in the mucosal layer was assessed. Animals (n=8) with and without clamping of the superior mesenteric artery and infusion of the carrier solution served as controls. After ischemia/reperfusion, xenin (1-25) increased the density of perfused microvessels and the capillary red blood cell velocity compared to ischemic controls. Capillary red blood cell velocity was elevated (p<0.05). Xenin (1-25) improved the heterogeneous distribution of mucosal blood flow during reperfusion demonstrated by an increase of both the perfusion index and the percentage of perfused microvessels. We conclude that the effects of xenin (1-25) on intestinal microcirculation are significantly different from those previously described for neurotensin. A more complex effector mechanism must be postulated that may involve other regulatory peptides and receptors.