Biochemical characterization of cardiac α-actin mutations A21V and D26N implicated in hypertrophic cardiomyopathy.

Johannes N Greve, Frederic V Schwäbe, Manuel H Taft, Dietmar J Manstein
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Abstract

Familial hypertrophic cardiomyopathy (HCM) affects .2% of the world's population and is inherited in an autosomal dominant manner. Mutations in cardiac α-actin are the cause in 1%-5% of all observed cases. Here, we describe the recombinant production, purification, and characterization of the HCM-linked cardiac α-actin variants p.A21V and p.D26N. Mass spectrometric analysis of the initially purified recombinant cardiac α-actin variants and wild-type protein revealed improper N-terminal processing in the Spodoptera frugiperda (Sf-9) insect cell system, compromising the labeling of the protein with fluorescent probes for biochemical studies. Therefore, we produced N-terminal deletion mutants lacking the N-terminal cysteine (ΔC2). The ΔC2 wild-type construct behaved similar to porcine cardiac α-actin purified from native Sus scrofa heart tissue and all ΔC2 constructs showed improved fluorescent labeling. Further analysis of untruncated and ΔC2 constructs showed that while neither the A21V nor the D26N mutation affects nucleotide binding, they cause a similar slowing of the rate of filament formation as well as a reduction in the thermal stability of monomeric and filamentous cardiac α-actin. In vitro motility assays and transient-kinetic studies probing the interaction of the actin variants with cardiac β-myosin revealed perturbed actomyosin interactions and a reduced motile activity for the p.D26N variant. Addition of the small molecule effector EMD 57033, which targets cardiac β-myosin, rescued the approximately 40% drop in velocity observed with the p.D26N constructs and activated the motile activity of wild-type and p.D26N to the same level of 1100 nm s-1 .

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与肥厚型心肌病有关的心脏α-肌动蛋白突变 A21V 和 D26N 的生化特征。
家族性肥厚型心肌病(HCM)占全球人口的 0.2%,为常染色体显性遗传。在所有观察到的病例中,1%-5%的病例是由心脏α-肌动蛋白突变引起的。在此,我们介绍了与 HCM 相关的心脏α-肌动蛋白变异 p.A21V 和 p.D26N 的重组生产、纯化和表征。对最初纯化的重组心脏α-肌动蛋白变体和野生型蛋白质进行的质谱分析表明,在鞘翅目蛙科(Sf-9)昆虫细胞系统中,N-端处理不当,影响了用荧光探针标记蛋白质进行生化研究。因此,我们制造了缺少 N 端半胱氨酸(ΔC2)的 N 端缺失突变体。ΔC2 野生型构建体的表现与从原生苏氏猪心脏组织中纯化的猪心脏α-肌动蛋白相似,而且所有 ΔC2 构建体的荧光标记都有所改善。对未截断和ΔC2构建体的进一步分析表明,虽然A21V和D26N突变都不影响核苷酸结合,但它们会导致类似的丝状形成速度减慢,以及单体和丝状心脏α-肌动蛋白热稳定性降低。体外运动试验和瞬时动力学研究探测了肌动蛋白变体与心脏 β 肌球蛋白的相互作用,结果显示 p.D26N 变体的肌球蛋白相互作用受到干扰,运动活性降低。加入靶向心脏 β 肌球蛋白的小分子效应物 EMD 57033 后,p.D26N 构建物的速度下降了约 40%,而加入小分子效应物 EMD 57033 后,p.D26N 构建物的速度下降了约 40%,野生型和 p.D26N 的运动活性被激活至 1100 nm s-1 的相同水平。
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