V2R structure and diabetes insipidus.

Receptors & channels Pub Date : 2002-01-01
Mariel Birnbaumer
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Abstract

For most audiences, the term "diabetes" conjures thoughts of high levels of blood glucose and of the symptoms that characterize diabetes mellitus. In the last few years, a spirited campaign spear-headed by the families of affected individuals has made progress in educating nonprofessional and medical communities about diabetes insipidus (DI), the other disease characterized by polyuria (i.e., diabetes). Much work lies ahead to find better treatments for this affliction, but the progress in molecular biology over the last years made possible the identification of the genetic defects underlying the inherited forms of the disease. Numerous cases of adult-onset DI are triggered by toxic damage to the kidneys that impairs the concentrating capacity of the nephrons by a nonspecific mechanism. In these pages I shall deal mostly with the inherited forms of the disease. Diabetes insipidus is characterized by the inability of the kidneys of affected individuals to produce concentrated urine (Morello and Bichet 2001). The elimination of large volumes of diluted urine (polyuria) and excessive thirst (polydipsia) are the chief symptoms of the disease. Although this condition and the hints that it was a hereditary disease were described at the end of the 19th century, it took almost 100 years to gain molecular knowledge about its etiology. A brief review of the important role played by vasopressin in the maintenance of body fluids will help the reader understand the severity of this disease.

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V2R结构与尿崩症。
对大多数人来说,“糖尿病”这个词会让人联想到高血糖和糖尿病的症状。在过去几年中,由患者家属牵头的一项积极运动在教育非专业人士和医学界关于尿囊症(DI)的知识方面取得了进展,尿囊症是另一种以多尿症为特征的疾病(即糖尿病)。要找到更好的治疗方法还有很多工作要做,但过去几年来分子生物学的进步使识别这种疾病遗传形式的遗传缺陷成为可能。许多成人发病的DI病例是由肾脏的毒性损伤引起的,这种损伤通过非特异性机制损害了肾单位的浓缩能力。在这几页中,我将主要讨论这种疾病的遗传形式。尿崩症的特点是患者的肾脏不能产生浓缩尿液(Morello和bicchet 2001)。消除大量稀释尿液(多尿)和过度口渴(烦渴)是该病的主要症状。尽管这种情况和它是一种遗传性疾病的迹象在19世纪末就被描述出来了,但人们花了近100年的时间才获得了关于其病因的分子知识。简要回顾抗利尿激素在维持体液中所起的重要作用,将有助于读者了解这种疾病的严重性。
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