Pit-1基因受不同的早期和晚期垂体特异性增强子调控。

The Pit-1 gene is regulated by distinct early and late pituitary-specific enhancers.

作者信息

DiMattia G E, Rhodes S J, Krones A, Carrière C, O'Connell S, Kalla K, Arias C, Sawchenko P, Rosenfeld M G

机构信息

Howard Hughes Medical Institute, Department and School of Medicine, University of California at San Diego, La Jolla 92093-0648, USA.

出版信息

Dev Biol. 1997 Feb 1;182(1):180-90. doi: 10.1006/dbio.1996.8472.

DOI:10.1006/dbio.1996.8472

PMID:9073460

Abstract

The differentiation of three anterior pituitary cell types is regulated by the tissue-specific POU domain factor Pit-1, which is initially expressed on Embryonic Day 13.5-14 in mice. The Pit-1 gene remains continuously, highly expressed in the somatotrope, thyrotrope, and lactotrope cells of the adult. Using the Pit-1-defective Snell dwarf as a genetic background, we demonstrate that the Pit-1 gene utilizes distinct enhancers for initial gene activation and for subsequent autoregulation (required for maintenance of expression) and that Pit-1-dependent activation of the distal enhancer can be mediated in the absence of the early enhancer. These two distinct enhancers provide the basis for temporally specific regulation by discrete pituitary-specific factors, events likely to be prototypic for regulation of other classes of genes encoding transcription factors controlling terminal differentiation.

摘要

三种垂体前叶细胞类型的分化受组织特异性POU结构域因子Pit-1调控，该因子最初在小鼠胚胎第13.5至14天表达。Pit-1基因在成年个体的生长激素细胞、促甲状腺激素细胞和催乳激素细胞中持续高度表达。以Pit-1缺陷型的斯内尔侏儒鼠为遗传背景，我们证明Pit-1基因利用不同的增强子进行初始基因激活和随后的自身调节（维持表达所必需），并且在没有早期增强子的情况下，远端增强子的Pit-1依赖性激活也可介导。这两个不同的增强子为由离散的垂体特异性因子进行时间特异性调控提供了基础，这些事件可能是调控其他控制终末分化的转录因子编码基因类别的原型。

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Pit-1基因受不同的早期和晚期垂体特异性增强子调控。

The Pit-1 gene is regulated by distinct early and late pituitary-specific enhancers.

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