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在心力衰竭转基因模型中,CREB亮氨酸拉链调节CREB磷酸化、心肌病和致死率。

The CREB leucine zipper regulates CREB phosphorylation, cardiomyopathy, and lethality in a transgenic model of heart failure.

作者信息

Huggins Gordon S, Lepore John J, Greytak Sarah, Patten Richard, McNamee Rachel, Aronovitz Mark, Wang Paul J, Reed Guy L

机构信息

Molecular Cardiology Research Institute, Tufts-New England Medical Center, Boston, Massachusetts 02111, USA.

出版信息

Am J Physiol Heart Circ Physiol. 2007 Sep;293(3):H1877-82. doi: 10.1152/ajpheart.00516.2007. Epub 2007 Jul 6.

DOI:10.1152/ajpheart.00516.2007
PMID:17616745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3911886/
Abstract

Signaling through cAMP plays an important role in heart failure. Phosphorylation of cAMP response element binding protein (CREB) at serine-133 regulates gene expression in the heart. We examined the functional significance of CREB-S133 phosphorylation by comparing transgenic models in which a phosphorylation resistant CREB-S133A mutant containing either an intact or a mutated leucine zipper domain (CREB-S133A-LZ) was expressed in the heart. In vitro, CREB-S133A retained the ability to interact with wild-type CREB, whereas CREB-S133A-LZ did not. In vivo, CREB-S133A and CREB-S133A-LZ were expressed at comparable levels in the heart; however, CREB-S133A markedly suppressed the phosphorylation of endogenous CREB, whereas CREB-S133A-LZ had no effect. The one-year survival of mice from two CREB-S133A-LZ transgenic lines was equivalent to nontransgenic littermate control mice (NTG), whereas transgenic CREB-S133A mice died with heart failure at a median 30 wk of age (P < 0.0001). CREB-S133A mice had an altered gene expression characteristic of the failing heart, whereas CREB-S133A-LZ mice did not. Left ventricular contractile function was substantially reduced in CREB-S133A mice versus NTG mice and only modestly reduced in CREB-S133A-LZ mice (P < 0.02). When considered in light of other studies, these findings indicate that overexpression of the CREB leucine zipper is required for both inhibition of endogenous CREB phosphorylation and cardiomyopathy in this murine model of heart failure.

摘要

通过环磷酸腺苷(cAMP)进行的信号传导在心力衰竭中起重要作用。环磷酸腺苷反应元件结合蛋白(CREB)在丝氨酸133位点的磷酸化调节心脏中的基因表达。我们通过比较转基因模型来研究CREB-S133磷酸化的功能意义,在这些转基因模型中,含有完整或突变亮氨酸拉链结构域的磷酸化抗性CREB-S133A突变体(CREB-S133A-LZ)在心脏中表达。在体外,CREB-S133A保留了与野生型CREB相互作用的能力,而CREB-S133A-LZ则没有。在体内,CREB-S133A和CREB-S133A-LZ在心脏中的表达水平相当;然而,CREB-S133A显著抑制内源性CREB的磷酸化,而CREB-S133A-LZ则没有作用。来自两个CREB-S133A-LZ转基因品系的小鼠的一年生存率与非转基因同窝对照小鼠(NTG)相当,而转基因CREB-S133A小鼠在30周龄中位数时死于心力衰竭(P < 0.0001)。CREB-S133A小鼠具有心力衰竭特征性的基因表达改变,而CREB-S133A-LZ小鼠则没有。与NTG小鼠相比,CREB-S133A小鼠的左心室收缩功能显著降低,而CREB-S133A-LZ小鼠仅略有降低(P < 0.02)。结合其他研究来看,这些发现表明,在这种小鼠心力衰竭模型中,抑制内源性CREB磷酸化和心肌病都需要CREB亮氨酸拉链的过表达。