Unger T, Chung O, Csikos T, Culman J, Gallinat S, Gohlke P, Höhle S, Meffert S, Stoll M, Stroth U, Zhu Y Z
Department of Pharmacology, Christian-Albrechts University of Kiel, Germany.
J Hypertens Suppl. 1996 Dec;14(5):S95-103.
The octapeptide angiotensin II, the potent effector molecule of the renin-angiotensin system, has been implicated in the pathology of hypertension, in cardiovascular diseases like cardiac left ventricular hypertrophy and in structural alterations of the heart such as post-infarct remodelling.
The development of highly selective angiotensin II receptor ligands allowed the identification of angiotensin II receptor subtypes, designated AT1, AT2, AT3 and AT4. Most of the known effects of angiotensin II can be attributed to the AT1 receptor (e.g. vasoconstriction, aldosterone and vasopressin release and proliferative effects on vascular smooth muscle and other cells). The AT1 receptor is coupled to G-proteins and engages classical intracellular second messenger systems, for example activation of phospholipase C or inhibition of adenylate cyclase. In contrast, the function and the signal transduction pathways of the AT2 receptor, which exhibits only a 32-34% homology to the AT1 receptor, are so far not fully understood. Coupling of the AT2 receptor to phosphatases and inhibitory actions on AT1 receptor- and growth factor-mediated proliferation in endothelial and other cells as well as induction of neuronal outgrowth in PC12w cells have been demonstrated. Due to its wide distribution in fetal tissues including the central nervous system and its transient reappearance in the adult organism under pathological conditions (for instance after myocardial infarction) the AT2 receptor has been associated with cell differentiation and regeneration.
The application of orally active AT1 receptor antagonists as antihypertensive drugs has, compared to angiotensin converting enzyme inhibitors, the potential advantage of a more specific renin-angiotensin system inhibition. It is conceivable that the AT2 receptor, left unopposed by AT1 receptor antagonists, contributes to some of the actions of these drugs.
八肽血管紧张素II是肾素-血管紧张素系统的强效效应分子,与高血压的病理过程、诸如心脏左心室肥厚等心血管疾病以及心脏结构改变(如心肌梗死后重塑)有关。
高选择性血管紧张素II受体配体的研发使得血管紧张素II受体亚型得以鉴定,分别命名为AT1、AT2、AT3和AT4。血管紧张素II的大多数已知作用可归因于AT1受体(如血管收缩、醛固酮和血管加压素释放以及对血管平滑肌和其他细胞的增殖作用)。AT1受体与G蛋白偶联,并参与经典的细胞内第二信使系统,例如磷脂酶C的激活或腺苷酸环化酶的抑制。相比之下,与AT1受体仅有32%-34%同源性的AT2受体的功能和信号转导途径目前尚未完全明确。已证实AT2受体与磷酸酶偶联,并对内皮细胞和其他细胞中AT1受体及生长因子介导的增殖具有抑制作用,同时可诱导PC12w细胞的神经元生长。由于其在包括中枢神经系统在内的胎儿组织中广泛分布,且在病理条件下(如心肌梗死后)在成体中短暂重新出现,AT2受体已被认为与细胞分化和再生有关。
与血管紧张素转换酶抑制剂相比,口服活性AT1受体拮抗剂作为抗高血压药物应用具有更特异性抑制肾素-血管紧张素系统的潜在优势。可以想象,未被AT1受体拮抗剂拮抗的AT2受体可能促成了这些药物的某些作用。
