Leptin controls bone formation through a hypothalamic relay.

Recent progress in hormone research Pub Date : 2001-01-01 DOI:10.1210/RP.56.1.401

Gerard Karsenty

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引用次数: 108

Abstract

Menopause favors osteoporosis and obesity protects from it. In an attempt to decipher the molecular bases of these two well-known clinical observations, we hypothesized that they meant that bone remodeling, body weight, and reproduction are controlled by identical endocrine pathways. We used mouse genetics as a tool to translate these clinical observations into a molecular hypothesis. The ob/ob and db/db mice were valuable models, since two of the three functions thought to be co-regulated are affected in these mice: they are obese and hypogonadic. Surprisingly, given their hypogonadism, both mouse mutant strains have a high bone mass phenotype. Subsequent analysis of the mechanism leading to this high bone mass revealed that it was due to an increase of bone formation. All data collected indicate that, in vivo, leptin does not act directly on osteoblasts but rather through a central pathway following binding to its specific receptors located on hypothalamic nuclei. This result revealed that bone remodeling, like most other homeostatic functions, is under hypothalamic control. The nature of the signal downstream of the hypothalamus is unknown but current experiments are attempting to identify it.

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瘦素通过下丘脑接力控制骨形成。

更年期易患骨质疏松症，而肥胖可预防骨质疏松症。在试图破译这两个著名的临床观察的分子基础时，我们假设它们意味着骨骼重塑，体重和生殖是由相同的内分泌途径控制的。我们使用小鼠遗传学作为工具，将这些临床观察转化为分子假设。ob/ob和db/db小鼠是有价值的模型，因为被认为是共同调节的三种功能中的两种在这些小鼠中受到影响:它们肥胖和性腺功能低下。令人惊讶的是，考虑到它们的性腺功能减退，两种小鼠突变株都具有高骨量表型。随后对导致高骨量的机制的分析表明，这是由于骨形成的增加。所有收集到的数据表明，在体内，瘦素不直接作用于成骨细胞，而是通过与位于下丘脑核的特定受体结合后的中枢途径。这一结果表明骨重塑，像大多数其他体内平衡功能一样，是受下丘脑控制的。下丘脑下游信号的性质尚不清楚，但目前的实验正试图识别它。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recent progress in hormone research

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