Calcium-dependent levels of phospholamban pentamer in native heart membranes reflect interactions of monomers with calcium-free SERCA2a

IF 3.8 3区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Archives of biochemistry and biophysics Pub Date : 2025-04-20 DOI:10.1016/j.abb.2025.110432

Jin Guo , Kazuhiro Aonuma, Richard Kovacs, Zhenhui Chen

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引用次数: 0

Abstract

Background

In sarcoplasmic reticulum (SR) membranes, phospholamban (PLB) exists in an equilibrium of non-inhibitory homopentamers (PLB₅) and inhibitory monomers (PLB₁) that bind to SERCA2a. A new approach is needed to determine the full scheme of interactions between PLB and SERCA2a in native cardiac SR membranes, which remains poorly understood.

Methods

Dog cardiac SR membranes (dSR) were switched between EGTA and Ca²⁺ buffers to convert SERCA2a between the Ca²⁺-free, E2 and the high Ca²⁺-affinity, E1 conformations. Reactions were stopped by SDS to preserve PLB₅ structures in dSR before immunoblotting.

Results

Converting SERCA2a from E2 to E1, Ca²⁺ addition significantly increased PLB₅/PLB₁ ratios, suggesting that PLB₁ is dissociated from E1, and assembled into PLB₅ in dSR. This Ca²⁺-induced increase in PLB₅/PLB₁ was reversed by the subsequent addition of EGTA, revealing the processes of PLB₁ binding to E2 and disassembly of PLB₅. In both cases, PLB₅/PLB₁ reached new steady states in <2 s. Furthermore, PLB antibody eliminated Ca²⁺-dependent shifts in PLB₅/PLB₁. PLB phosphorylation caused similar leftward shifts in the Ca²⁺-dependent curve for PLB₅/PLB₁ and Ca²⁺-ATPase activity.

Conclusions

We have developed a simple, effective method and revealed that the levels of SERCA2a inhibition are controlled by an equilibrium between PLB₁ association with E2 and its dissociation from E1, and the formation of PLB₅ in native cardiac SR membranes. With intact regulatory components in their natural phospholipid environment, Ca²⁺-dependent shifts in PLB₅/PLB₁ can expose PLB-SERCA2a protein-protein interactions in native membranes from normal and diseased hearts, in which proteomes and lipidomes are likely to vary.

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天然心膜中磷五聚体的钙依赖水平反映了单体与无钙SERCA2a的相互作用

在肌浆网（SR）膜中，磷蛋白（PLB）存在于非抑制性同戊体（PLB5）和抑制性单体（PLB1）结合SERCA2a的平衡中。需要一种新的方法来确定PLB和SERCA2a在天然心脏SR膜中相互作用的完整方案，这一点仍然知之甚少。方法将狗心脏SR膜（dSR）在EGTA和Ca2+缓冲液之间切换，将SERCA2a转换为无Ca2+、E2和高Ca2+亲和力的E1构象。免疫印迹前用SDS停止反应以保存dSR中的PLB5结构。结果将SERCA2a从E2转化为E1， Ca2+的加入显著提高了PLB5/PLB1比值，表明PLB1在dSR中从E1解离并组装成PLB5。这种Ca2+诱导的PLB5/PLB1的增加被随后添加的EGTA逆转，揭示了PLB1与E2结合和PLB5分解的过程。在这两种情况下，PLB5/PLB1均在45秒内达到新的稳态。此外，PLB抗体消除了PLB5/PLB1的Ca2+依赖性移位。PLB磷酸化在PLB5/PLB1和Ca2+- atp酶活性的Ca2+依赖曲线上引起类似的左移。结论我们开发了一种简单有效的方法，并揭示了SERCA2a的抑制水平是由PLB1与E2的结合及其与E1的解离以及PLB5在天然心脏SR膜中的形成之间的平衡所控制的。在其天然磷脂环境中具有完整的调节成分，PLB5/PLB1的Ca2+依赖性转移可以暴露来自正常和患病心脏的天然膜中的PLB-SERCA2a蛋白-蛋白相互作用，其中蛋白质组和脂质组可能发生变化。

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来源期刊

Archives of biochemistry and biophysics 生物-生化与分子生物学

CiteScore

7.40

自引率

0.00%

发文量

245

审稿时长

26 days

期刊介绍： Archives of Biochemistry and Biophysics publishes quality original articles and reviews in the developing areas of biochemistry and biophysics. Research Areas Include: • Enzyme and protein structure, function, regulation. Folding, turnover, and post-translational processing • Biological oxidations, free radical reactions, redox signaling, oxygenases, P450 reactions • Signal transduction, receptors, membrane transport, intracellular signals. Cellular and integrated metabolism.