Nephrotoxicity of angiotensin inhibition during the perinatal period.

Y Miyazaki, I Ichikawa
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引用次数: 2

Abstract

As the only ex utero mechanism for the removal of nitrogenous waste, the mammalian kidney achieves some 50-fold increase in urine production during the perinatal period when the placental circulation becomes no longer available as a functional dialyzer. This urine is efficiently removed from the kidney by the renal pelvis, a smooth muscle structure unique to mammals, which develops during the perinatal period. We found that mutant mice completely devoid of angiotensinogen or its type 1 receptor, as well as wild-type neonates given an ACE inhibitor, fail to develop a renal pelvis or a ureteral peristaltic movement. These structural and functional defects in the urinary tract are followed by severe obstructive injury of the renal parenchyma. The ability of angiotensin to directly induce the pelvis is demonstrated in an organ culture system, in which treatment with angiotensin induces the characteristic smooth muscle layer in the wild type, but not in homozygous null mutants. Upregulation of both renal angiotensin content and type 1 receptor at the renal hilum are also demonstrated in the wild type during the transition from intra- to extra-uterine life. By inducing the timely development of the renal pelvis, angiotensin thus facilitates the removal from the renal parenchyma of the urine that promptly increases at birth, thereby effectively preventing a buildup of intrarenal pressure and a consequent development of dysmorphic kidney.

围产期血管紧张素抑制的肾毒性。
作为唯一的体外清除含氮废物的机制,在围产期,当胎盘循环不再作为功能透析器时,哺乳动物肾脏的尿产量增加了约50倍。这些尿液通过肾盂有效地从肾脏中排出,肾盂是哺乳动物特有的平滑肌结构,在围产期发育。我们发现,完全缺乏血管紧张素原或其1型受体的突变小鼠,以及给予ACE抑制剂的野生型新生儿,不能形成肾盂或输尿管蠕动。这些尿路的结构和功能缺陷会导致严重的肾实质梗阻性损伤。血管紧张素直接诱导骨盆的能力在器官培养系统中得到证实,血管紧张素在野生型中诱导了特征性的平滑肌层,而在纯合的零突变体中则没有。肾血管紧张素含量和肾门1型受体的上调也在野生型从子宫内到子宫外生活的过渡过程中得到证实。通过诱导肾盂的及时发育,血管紧张素促进了出生时迅速增加的尿液从肾实质中排出,从而有效地防止了肾内压力的积累和随后的畸形肾的发展。
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