Cox B E, Ipson M A, Shaul P W, Kamm K E, Rosenfeld C R
Department of Pediatrics, University of Texas Southwestern Medical Center at Dallas 75235.
J Clin Invest. 1993 Nov;92(5):2240-8. doi: 10.1172/JCI116827.
Although regulation of angiotensin II receptor (AT) binding in vascular and uterine smooth muscle is similar in nonpregnant animals, studies suggest it may differ during pregnancy. We, therefore, examined binding characteristics of myometrial AT receptors in nulliparous (n = 7), pregnant (n = 24, 110-139 d of gestation), and postpartum (n = 21, 5 to > or = 130 d) sheep and compared this to vascular receptor binding. We also determined if changes in myometrial binding reflect alterations in receptor subtype. By using plasma membrane preparations from myometrium and medial layer of abdominal aorta, we determined receptor density and affinity employing radioligand binding; myometrial AT receptor subtypes were assessed by inhibiting [125I]-ANG II binding with subtype-specific antagonists. Compared to nulliparous ewes, myometrial AT receptor density fell approximately 90% during pregnancy (1,486 +/- 167 vs. 130 +/- 16 fmol/mg protein) and returned to nulliparous values > or = 4 wk postpartum; vascular binding was unchanged. Nulliparous myometrium expressed predominantly AT2 receptors (AT1/AT2 congruent to 15%/85%), whereas AT1 receptors predominated during pregnancy (AT1/AT2 congruent to 80%/20%). By 5 d postpartum AT1/AT2 congruent to 40%/60%, and > 4 wk postpartum AT2 receptors again predominated (AT1/AT2 congruent to 15%/85%). In studies of ANG II-induced force generation, myometrium from pregnant ewes (n = 10) demonstrated dose-dependent increases in force (P < 0.001), which were inhibited with an AT1 receptor antagonist. Postpartum myometrial responses were less at doses > or = 10(-9) M (P < 0.05) and unaffected by AT2 receptor antagonists. Vascular and myometrial AT receptor binding are differentially regulated during ovine pregnancy, the latter primarily reflecting decreases in AT2 receptor expression. This is the first description of reversible changes in AT receptor subtype in adult mammals.
尽管在未怀孕的动物中,血管和子宫平滑肌中血管紧张素 II 受体(AT)结合的调节是相似的,但研究表明在怀孕期间可能会有所不同。因此,我们研究了未生育(n = 7)、怀孕(n = 24,妊娠 110 - 139 天)和产后(n = 21,5 至≥130 天)绵羊子宫肌层 AT 受体的结合特性,并将其与血管受体结合情况进行比较。我们还确定子宫肌层结合的变化是否反映受体亚型的改变。通过使用子宫肌层和腹主动脉中层的质膜制剂,我们采用放射性配体结合法测定受体密度和亲和力;通过用亚型特异性拮抗剂抑制[125I]-ANG II 结合来评估子宫肌层 AT 受体亚型。与未生育的母羊相比,怀孕期间子宫肌层 AT 受体密度下降约 90%(1486±167 对 130±16 fmol/mg 蛋白),产后≥4 周恢复到未生育时的值;血管结合未改变。未生育的子宫肌层主要表达 AT2 受体(AT1/AT2 约为 15%/85%),而怀孕期间 AT1 受体占主导(AT1/AT2 约为 80%/20%)。产后 5 天时 AT1/AT2 约为 40%/60%,产后>4 周时 AT2 受体再次占主导(AT1/AT2 约为 15%/85%)。在 ANG II 诱导的力产生研究中,怀孕母羊(n = 10)的子宫肌层表现出剂量依赖性的力增加(P < 0.001),这被 AT1 受体拮抗剂抑制。产后子宫肌层在剂量≥10(-9) M 时反应较小(P < 0.05),且不受 AT2 受体拮抗剂影响。绵羊怀孕期间血管和子宫肌层 AT 受体结合受到不同调节,后者主要反映 AT2 受体表达的降低。这是成年哺乳动物中 AT 受体亚型可逆变化的首次描述。
