Two distinct dysfunctions in diabetic mouse mesenteric artery contraction are caused by changes in the Rho A-Rho kinase signaling pathway

Diabetic complications are associated with small artery dysfunctions. The objective of this study was to identify differences in endothelial cell-denuded mesenteric artery second branch (mesenteric artery-2) contraction, as a typical small artery, between diabetic and non-diabetic mice. Contractile responses in mesenteric artery-2 were assessed in male type 2 diabetic ob/ob mice aged 16-22 weeks and in age-matched control (Lean) mice. Phenylephrine induced dose-dependent contractions in Lean mice (1126.8 ± 28.6 mN/mm tissue at 10 μM phenylephrine; n = 5), which were significantly reduced in ob/ob mice (716.8 ± 40.8 mN/mm at 10 μM phenylephrine; n = 5). Exposure to high glucose (HG; twice the normal glucose [NG] concentration) enhanced phenylephrine-induced contraction in Lean (1341.4 ± 15.5 mN/mm; n = 5) but not in ob/ob mice. These dysfunctions did not involve α1-receptor sensitization or protein kinase activity, although the calcium sensitivity of contraction was decreased in ob/ob mice. The Rho kinase inhibitor Y27632 suppressed the difference between Lean and ob/ob mice under NG conditions, which was accompanied by Rho A inactivation. Under HG conditions, glucose-dependent Rho A activation persisted in ob/ob mice whereas Rho kinase expression was reduced. These data suggest that inactivation of Rho A reduced contractibility under NG conditions, and the lack of glucose dependency is associated with reduced Rho kinase expression.