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Clin Transl Sci. 2010 Aug;3(4):189-96. doi: 10.1111/j.1752-8062.2010.00213.x.
2
Coordinated regulation of cardiac Na(+)/Ca (2+) exchanger and Na (+)-K (+)-ATPase by phospholemman (FXYD1).磷酸化酶膜蛋白(FXYD1)对心脏钠钙交换体和钠钾 ATP 酶的协同调节。
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3
Regulation of in vivo cardiac contractility by phospholemman: role of Na+/Ca2+ exchange.磷酸烯醇式丙酮酸载体对体内心肌收缩性的调节:钠钙交换的作用。
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4
Expression and phosphorylation of the na-pump regulatory subunit phospholemman in heart failure.钠泵调节亚基磷膜蛋白在心力衰竭中的表达与磷酸化
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Characterization of the phospholemman knockout mouse heart: depressed left ventricular function with increased Na-K-ATPase activity.磷酸化受磷蛋白基因敲除小鼠心脏的特征:左心室功能降低,钠钾ATP酶活性增加。
Am J Physiol Heart Circ Physiol. 2008 Feb;294(2):H613-21. doi: 10.1152/ajpheart.01332.2007. Epub 2007 Dec 7.
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Altered contractility and [Ca2+]i homeostasis in phospholemman-deficient murine myocytes: role of Na+/Ca2+ exchange.磷膜蛋白缺陷型小鼠心肌细胞的收缩性改变及胞内钙离子稳态:钠钙交换的作用
Am J Physiol Heart Circ Physiol. 2006 Nov;291(5):H2199-209. doi: 10.1152/ajpheart.01181.2005. Epub 2006 Jun 2.
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Phospholemman: its role in normal cardiac physiology and potential as a druggable target in disease.磷膜蛋白:其在正常心脏生理学中的作用以及作为疾病中可成药靶点的潜力。
Curr Opin Pharmacol. 2009 Apr;9(2):160-6. doi: 10.1016/j.coph.2008.12.015. Epub 2009 Feb 3.
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Phospholemman-mediated activation of Na/K-ATPase limits [Na]i and inotropic state during beta-adrenergic stimulation in mouse ventricular myocytes.在小鼠心室肌细胞中,磷膜蛋白介导的钠钾ATP酶激活在β-肾上腺素能刺激期间限制细胞内钠离子浓度和心肌收缩力状态。
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Heart failure leads to altered β2-adrenoceptor/cyclic adenosine monophosphate dynamics in the sarcolemmal phospholemman/Na,K ATPase microdomain.心力衰竭导致肌膜磷质调节素/Na,K-ATP 酶微域中β2-肾上腺素能受体/环磷酸腺苷动态改变。
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L30A Mutation of Phospholemman Mimics Effects of Cardiac Glycosides in Isolated Cardiomyocytes.磷膜蛋白的L30A突变模拟强心苷对分离心肌细胞的作用。
Biochemistry. 2016 Nov 8;55(44):6196-6204. doi: 10.1021/acs.biochem.6b00633. Epub 2016 Oct 25.
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Development of a high-affinity peptide that prevents phospholemman (PLM) inhibition of the sodium/calcium exchanger 1 (NCX1).一种可防止磷酸化受磷蛋白(PLM)对钠/钙交换体1(NCX1)产生抑制作用的高亲和力肽的研发。
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Phospholemman is not required for the acute stimulation of Na⁺-K⁺-ATPase α₂-activity during skeletal muscle fatigue.在骨骼肌疲劳期间,急性刺激钠钾ATP酶α₂活性并不需要磷膜蛋白。
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本文引用的文献

1
Phospholemman Ser69 phosphorylation contributes to sildenafil-induced cardioprotection against reperfusion injury.磷酸烯醇式丙酮酸丝氨酸 69 位磷酸化有助于西地那非在再灌注损伤中诱导的心脏保护作用。
Am J Physiol Heart Circ Physiol. 2010 Sep;299(3):H827-36. doi: 10.1152/ajpheart.00129.2010. Epub 2010 Jun 11.
2
Phospholemman modulates the gating of cardiac L-type calcium channels.磷酸调节蛋白调节心脏 L 型钙通道的门控。
Biophys J. 2010 Apr 7;98(7):1149-59. doi: 10.1016/j.bpj.2009.11.032.
3
Phospholemman and beta-adrenergic stimulation in the heart.磷酯膜蛋白与心脏的β-肾上腺素能刺激。
Am J Physiol Heart Circ Physiol. 2010 Mar;298(3):H807-15. doi: 10.1152/ajpheart.00877.2009. Epub 2009 Dec 11.
4
Effects of PKA phosphorylation on the conformation of the Na,K-ATPase regulatory protein FXYD1.蛋白激酶A磷酸化对钠钾ATP酶调节蛋白FXYD1构象的影响
Biochim Biophys Acta. 2009 Nov;1788(11):2462-70. doi: 10.1016/j.bbamem.2009.09.001. Epub 2009 Sep 15.
5
Isoform specificity of the Na/K-ATPase association and regulation by phospholemman.钠钾ATP酶与磷膜蛋白的结合及调控的亚型特异性
J Biol Chem. 2009 Sep 25;284(39):26749-57. doi: 10.1074/jbc.M109.047357. Epub 2009 Jul 28.
6
FXYD3 protein involved in tumor cell proliferation is overproduced in human breast cancer tissues.参与肿瘤细胞增殖的FXYD3蛋白在人类乳腺癌组织中过量产生。
Biol Pharm Bull. 2009 Jul;32(7):1148-54. doi: 10.1248/bpb.32.1148.
7
Extracellular potassium dependence of the Na+-K+-ATPase in cardiac myocytes: isoform specificity and effect of phospholemman.心肌细胞中钠钾ATP酶对细胞外钾的依赖性:同工型特异性及磷蛋白的作用
Am J Physiol Cell Physiol. 2009 Sep;297(3):C699-705. doi: 10.1152/ajpcell.00063.2009. Epub 2009 Jul 1.
8
Reversible oxidative modification: a key mechanism of Na+-K+ pump regulation.可逆性氧化修饰:钠钾泵调节的关键机制
Circ Res. 2009 Jul 17;105(2):185-93. doi: 10.1161/CIRCRESAHA.109.199547. Epub 2009 Jun 18.
9
Crystal structure of the sodium-potassium pump at 2.4 A resolution.钠钾泵在2.4埃分辨率下的晶体结构。
Nature. 2009 May 21;459(7245):446-50. doi: 10.1038/nature07939.
10
FXYD1 phosphorylation in vitro and in adult rat cardiac myocytes: threonine 69 is a novel substrate for protein kinase C.FXYD1在体外及成年大鼠心肌细胞中的磷酸化:苏氨酸69是蛋白激酶C的新底物。
Am J Physiol Cell Physiol. 2009 Jun;296(6):C1346-55. doi: 10.1152/ajpcell.00523.2008. Epub 2009 Apr 1.

磷酸烯醇式丙酮酸载体蛋白:一种新型的心脏应激蛋白。

Phospholemman: a novel cardiac stress protein.

机构信息

Department of Medicine, Thomas Jefferson University, Philadelphia, Pennsylvania, USA.

出版信息

Clin Transl Sci. 2010 Aug;3(4):189-96. doi: 10.1111/j.1752-8062.2010.00213.x.

DOI:10.1111/j.1752-8062.2010.00213.x
PMID:20718822
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3013348/
Abstract

Phospholemman (PLM), a member of the FXYD family of regulators of ion transport, is a major sarcolemmal substrate for protein kinases A and C in cardiac and skeletal muscle. In the heart, PLM co-localizes and co-immunoprecipitates with Na(+)-K(+)-ATPase, Na(+)/Ca(2+) exchanger, and L-type Ca(2+) channel. Functionally, when phosphorylated at serine(68), PLM stimulates Na(+)-K(+)-ATPase but inhibits Na(+)/Ca(2+) exchanger in cardiac myocytes. In heterologous expression systems, PLM modulates the gating of cardiac L-type Ca(2+) channel. Therefore, PLM occupies a key modulatory role in intracellular Na(+) and Ca(2+) homeostasis and is intimately involved in regulation of excitation-contraction (EC) coupling. Genetic ablation of PLM results in a slight increase in baseline cardiac contractility and prolongation of action potential duration. When hearts are subjected to catecholamine stress, PLM minimizes the risks of arrhythmogenesis by reducing Na(+) overload and simultaneously preserves inotropy by inhibiting Na(+)/Ca(2+) exchanger. In heart failure, both expression and phosphorylation state of PLM are altered and may partly account for abnormalities in EC coupling. The unique role of PLM in regulation of Na(+)-K(+)-ATPase, Na(+)/Ca(2+) exchanger, and potentially L-type Ca(2+) channel in the heart, together with the changes in its expression and phosphorylation in heart failure, make PLM a rational and novel target for development of drugs in our armamentarium against heart failure. Clin Trans Sci 2010; Volume 3: 189-196.

摘要

磷调节蛋白(PLM)是 FXYD 家族的成员,是心脏和骨骼肌中蛋白激酶 A 和 C 的主要肌浆网底物。在心脏中,PLM 与 Na(+)-K(+)-ATP 酶、Na(+)/Ca(2+) 交换器和 L 型 Ca(2+) 通道共定位和共免疫沉淀。功能上,当丝氨酸(68)磷酸化时,PLM 刺激 Na(+)-K(+)-ATP 酶,但抑制心肌细胞中的 Na(+)/Ca(2+) 交换器。在异源表达系统中,PLM 调节心脏 L 型 Ca(2+) 通道的门控。因此,PLM 在细胞内 Na(+)和 Ca(2+) 稳态的调节中占据关键调节作用,并密切参与兴奋-收缩(EC)偶联的调节。PLM 的基因缺失导致基础心脏收缩力略有增加和动作电位持续时间延长。当心脏受到儿茶酚胺应激时,PLM 通过减少 Na(+) 过载并同时通过抑制 Na(+)/Ca(2+) 交换器来最大限度地降低心律失常的风险,从而维持心肌收缩力。在心力衰竭中,PLM 的表达和磷酸化状态都发生了改变,这可能部分解释了 EC 偶联的异常。PLM 在心脏中对 Na(+)-K(+)-ATP 酶、Na(+)/Ca(2+) 交换器以及潜在的 L 型 Ca(2+) 通道的调节作用以及其在心力衰竭中的表达和磷酸化的改变,使其成为我们对抗心力衰竭药物武器库中合理的新型靶标。Clin Trans Sci 2010; Volume 3: 189-196.