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首页> 美国卫生研究院文献>American Journal of Physiology - Heart and Circulatory Physiology >Pregnancy reduces RhoA/Rho kinase and protein kinase C signaling pathways downstream of thromboxane receptor activation in the rat uterine artery
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Pregnancy reduces RhoA/Rho kinase and protein kinase C signaling pathways downstream of thromboxane receptor activation in the rat uterine artery

机译:妊娠减少大鼠子宫动脉血栓烷受体激活下游的RhoA / Rho激酶和蛋白激酶C信号通路

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During pregnancy, reduced vascular responses to constrictors contribute to decreased uterine and total vascular resistance. Thromboxane A2 (TxA2) is a potent vasoconstrictor that exerts its actions via diverse signaling pathways, and its biosynthesis increases in preeclampsia. In this study, we hypothesized that maternal vascular responses to TxA2 will be attenuated via Rho kinase, PKC, p38 MAPK, and ERK1/2 signaling pathways. Isolated ring segments of uterine and small mesenteric arteries from late pregnant (19–21 days) and virgin rats were suspended in a myograph, and isometric force was measured. Pregnancy did not affect uterine and mesenteric artery responses to the TxA2 analog U-46619 (10−9–10−5 M), but transduction signals associated with these contractions were different between pregnant and nonpregnant rats. Inhibition of Rho kinase (10−6 M Y-27632) reduced sensitivity to U-46619 in virgin uterine vessels but did not inhibit these contractions in pregnant uterine arteries and had no effect on mesenteric vessels. Treatment of arterial segments with a PKC inhibitor (10−6 M bisindolylmaleimide I) reduced U-46619-induced contractions in virgin uterine and mesenteric arteries and in pregnant mesenteric arteries. Pregnant uterine arteries, however, were unresponsive to PKC inhibition. Inhibition of ERK1/2 (10−5 M PD-98059) and p38 MAPK (10−5 M SB-203580) reduced U46619-induced contractions in nonpregnant vessels and in pregnant uterine and mesenteric vessels. These data suggest that normal pregnancy does not affect uterine and mesenteric contractile responses to TxA2 but reduces the contribution of Rho kinase and PKC signaling pathways to these contractions in the uterine vasculature. In contrast, the role of ERK1/2 and p38 MAPK in U-46619-induced uterine contractions remains unchanged with pregnancy. TxA2-associated transduction signals and its regulators might present potential targets for the development of new treatments for preeclampsia and other pregnancy-associated vascular diseases.
机译:在怀孕期间,对收缩器的血管反应减少会导致子宫和总血管阻力降低。血栓烷A2(TxA2)是一种有效的血管收缩剂,可通过多种信号途径发挥作用,并在子痫前期中增加其生物合成。在这项研究中,我们假设母体对TxA2的血管反应将通过Rho激酶,PKC,p38 MAPK和ERK1 / 2信号通路减弱。将妊娠晚期(19-21天)和处女大鼠的子宫和肠系膜小动脉的分离环段悬吊在肌电图仪中,并测量等轴测力。怀孕并未影响子宫和肠系膜动脉对TxA2类似物U-46619(10 -9 –10 -5 M)的反应,但与这些收缩相关的转导信号有所不同在怀孕和非怀孕的老鼠之间。抑制Rho激酶(10 −6 M Y-27632)可以降低原始子宫血管对U-46619的敏感性,但不能抑制妊娠子宫动脉的这些收缩,并且对肠系膜血管没有影响。用PKC抑制剂(10 −6 M bisindolylmaleimide I)治疗动脉节段可减少U-46619引起的子宫和肠系膜动脉以及怀孕的肠系膜动脉的收缩。但是,怀孕的子宫动脉对PKC抑制无反应。抑制ERK1 / 2(10 −5 M PD-98059)和p38 MAPK(10 −5 M SB-203580)减少了U46619诱导的非妊娠血管和子宫收缩。怀孕的子宫和肠系膜血管。这些数据表明正常妊娠不会影响对TxA2的子宫和肠系膜收缩反应,但会降低Rho激酶和PKC信号通路对子宫血管中这些收缩的作用。相反,ERK1 / 2和p38 MAPK在U-46619引起的子宫收缩中的作用随妊娠而保持不变。 TxA2相关的转导信号及其调节剂可能为开发先兆子痫和其他与妊娠相关的血管疾病的新疗法提供了潜在的靶标。

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