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一种普遍存在的因子(HF-1a)和一种独特的肌肉因子(HF-1b/MEF-2)形成了一条不依赖E-盒的心肌基因表达途径。

A ubiquitous factor (HF-1a) and a distinct muscle factor (HF-1b/MEF-2) form an E-box-independent pathway for cardiac muscle gene expression.

作者信息

Navankasattusas S, Zhu H, Garcia A V, Evans S M, Chien K R

机构信息

Department of Medicine, University of California, San Diego, La Jolla 92093-0613.

出版信息

Mol Cell Biol. 1992 Apr;12(4):1469-79. doi: 10.1128/mcb.12.4.1469-1479.1992.

DOI:10.1128/mcb.12.4.1469-1479.1992
PMID:1532229
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC369588/
Abstract

Recent studies have identified a conserved 28-bp element (HF-1) within the rat cardiac MLC-2 gene which confers cardiac muscle-specific and inducible expression during myocardial cell hypertrophy. Utilizing a combination of independent experimental approaches, this study characterizes two cardiac nuclear factors which bind to HF-1, a ubiquitous factor (HF-1a), and an A + T-rich binding factor (HF-1b) which is preferentially expressed in differentiated cardiac and skeletal muscle cells. The HF-1a binding site is located in a core region of the 28-bp conserved element, immediately upstream from the A + T-rich HF-1b site, which is homologous to the MEF-2 site found in a number of muscle genes. By a number of separate criteria (gel mobility shift, competition, and mutagenesis studies), HF-1b and MEF-2 appear to be indistinguishable and thus are either identical or closely related muscle factors. Transient assays of luciferase reporter genes containing point mutations throughout the 28-bp HF-1 regulatory element document the importance of both the HF-1a and HF-1b sites in transient assays in ventricular muscle cells. In the native 250-bp MLC-2 promoter fragment, mutations in the single E box had little effect on cardiac muscle specificity, while point mutations in either the HF-1a or HF-1b binding site significantly reduced promoter activity, underscoring the importance of both the HF-1a and HF-1b sites in the transcriptional activation of this cardiac muscle gene. Thus, this study provides evidence that a novel, ubiquitous factor (HF-1a) and a muscle factor (HF-1b/MEF-2) can form a novel, E-box-independent pathway for muscle-specific expression in ventricular cardiac muscle cells.

摘要

最近的研究已经在大鼠心肌肌球蛋白轻链-2(MLC-2)基因中鉴定出一个保守的28个碱基对的元件(HF-1),该元件在心肌细胞肥大过程中赋予心肌特异性和诱导性表达。利用多种独立的实验方法,本研究对与HF-1结合的两种心脏核因子进行了表征,一种是普遍存在的因子(HF-1a),另一种是富含A+T的结合因子(HF-1b),其在分化的心肌和骨骼肌细胞中优先表达。HF-1a结合位点位于28个碱基对保守元件的核心区域,紧挨着富含A+T的HF-1b位点的上游,该位点与许多肌肉基因中发现的MEF-2位点同源。通过一些单独的标准(凝胶迁移率变动分析、竞争和诱变研究),HF-1b和MEF-2似乎难以区分,因此它们要么是相同的,要么是密切相关的肌肉因子。对整个28个碱基对的HF-1调控元件中含有点突变的荧光素酶报告基因进行瞬时分析,证明了HF-1a和HF-1b位点在心室肌细胞瞬时分析中的重要性。在天然的250个碱基对的MLC-2启动子片段中,单个E框中的突变对心肌特异性影响很小,而HF-1a或HF-1b结合位点中的点突变则显著降低了启动子活性,突出了HF-1a和HF-1b位点在该心肌基因转录激活中的重要性。因此,本研究提供了证据,表明一种新的普遍存在的因子(HF-1a)和一种肌肉因子(HF-1b/MEF-2)可以形成一条新的、不依赖E框的途径,用于心室心肌细胞中的肌肉特异性表达。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c8a/369588/f052be34e5c0/molcellb00168-0082-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c8a/369588/0e39f60b4772/molcellb00168-0080-b.jpg
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