钾likrein- kinins系统的遗传操作和遗传变异:对心血管和肾脏疾病的影响。

Jean-Pierre Girolami, Nelly Blaes, Nadine Bouby, François Alhenc-Gelas
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引用次数: 9

摘要

小鼠小缩likrein-kinin系统(KKS)的遗传操作,无论是功能的获得还是丧失,以及对KKS成分的人类遗传变异性的研究,已经在表型和基因组水平上得到了很好的记录,已经允许认识到KKS在健康和疾病中的生理作用。这一作用在心血管系统和肾脏中尤为明显。大多数器官在静息状态下产生激肽的速度很慢,或很快失活。然而KKS参与动脉功能和肾小管功能。在一些病理情况下,激肽产生增加,激肽受体合成上调,激肽在疾病结局中发挥重要作用,无论是有益的还是有害的。在缺血性、糖尿病或血流动力学攻击的情况下,组织缓激肽释放的激肽通过B2和/或B1缓激肽受体的激活,保护器官免受损伤,这取决于器官和疾病。这在缺血性或糖尿病心脏、肾脏和骨骼肌中已得到充分证明,其中KKS活性可减少氧化应激,限制坏死或纤维化并促进血管生成。另一方面,在一些病理情况下,血浆前钾化肽被不适当地激活,过量的激肽释放在局部或体循环中是有害的,通过水肿或低血压。本章讨论了这些临床和实验结果通过当前药理学发展的推测治疗应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic manipulation and genetic variation of the kallikrein-kinin system: impact on cardiovascular and renal diseases.

Genetic manipulation of the kallikrein-kinin system (KKS) in mice, with either gain or loss of function, and study of human genetic variability in KKS components which has been well documented at the phenotypic and genomic level, have allowed recognizing the physiological role of KKS in health and in disease. This role has been especially documented in the cardiovascular system and the kidney. Kinins are produced at slow rate in most organs in resting condition and/or inactivated quickly. Yet the KKS is involved in arterial function and in renal tubular function. In several pathological situations, kinin production increases, kinin receptor synthesis is upregulated, and kinins play an important role, whether beneficial or detrimental, in disease outcome. In the setting of ischemic, diabetic or hemodynamic aggression, kinin release by tissue kallikrein protects against organ damage, through B2 and/or B1 bradykinin receptor activation, depending on organ and disease. This has been well documented for the ischemic or diabetic heart, kidney and skeletal muscle, where KKS activity reduces oxidative stress, limits necrosis or fibrosis and promotes angiogenesis. On the other hand, in some pathological situations where plasma prekallikrein is inappropriately activated, excess kinin release in local or systemic circulation is detrimental, through oedema or hypotension. Putative therapeutic application of these clinical and experimental findings through current pharmacological development is discussed in the chapter.

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