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Ca2+ 与ATP的协同构象效应是Ca2+ -ATP酶(SERCA)催化循环中连续反应激活所必需的。

Concerted conformational effects of Ca2+ and ATP are required for activation of sequential reactions in the Ca2+ ATPase (SERCA) catalytic cycle.

作者信息

Inesi Giuseppe, Lewis David, Ma Hailun, Prasad Anand, Toyoshima Chikashi

机构信息

California Pacific Medical Center Research Institute, 475 Brannan Street, San Francisco, California 94107, USA.

出版信息

Biochemistry. 2006 Nov 21;45(46):13769-78. doi: 10.1021/bi061255d.

Abstract

We relate solution behavior to the crystal structure of the Ca2+ ATPase (SERCA). We find that nucleotide binding occurs with high affinity through interaction of the adenosine moiety with the N domain, even in the absence of Ca2+ and Mg2+, or to the closed conformation stabilized by thapsigargin (TG). Why then is Ca2+ crucial for ATP utilization? The influence of adenosine 5'-(beta,gamma-methylene) triphosphate (AMPPCP), Ca2+, and Mg2+ on proteolytic digestion patterns, interpreted in the light of known crystal structures, indicates that a Ca2+-dependent conformation of the ATPase headpiece is required for a further transition induced by nucleotide binding. This includes opening of the headpiece, which in turn allows inclination of the "A" domain and bending of the "P" domain. Thereby, the phosphate chain of bound ATP acquires an extended configuration allowing the gamma-phosphate to reach Asp351 to form a complex including Mg2+. We demonstrate by Asp351 mutation that this "productive" conformation of the substrate-enzyme complex is unstable because of electrostatic repulsion at the phosphorylation site. However, this conformation is subsequently stabilized by covalent engagement of the -phosphate yielding the phosphoenzyme intermediate. We also demonstrate that the ADP product remains bound with high affinity to the transition state complex but dissociates with lower affinity as the phosphoenzyme undergoes a further conformational change (i.e., E1-P to E2-P transition). Finally, we measured low-affinity ATP binding to stable phosphoenzyme analogues, demonstrating that the E1-P to E2-P transition and the enzyme turnover are accelerated by ATP binding to the phosphoenzyme in exchange for ADP.

摘要

我们将溶液行为与Ca2+ ATP酶(SERCA)的晶体结构联系起来。我们发现,即使在没有Ca2+和Mg2+的情况下,或者在由毒胡萝卜素(TG)稳定的封闭构象中,核苷酸也能通过腺苷部分与N结构域的相互作用以高亲和力结合。那么为什么Ca2+对ATP的利用至关重要呢?根据已知的晶体结构解释,腺苷5'-(β,γ-亚甲基)三磷酸(AMPPCP)、Ca2+和Mg2+对蛋白水解消化模式的影响表明,ATP酶头部的Ca2+依赖性构象是核苷酸结合诱导进一步转变所必需的。这包括头部的开放,这反过来又允许“A”结构域倾斜和“P”结构域弯曲。由此,结合的ATP的磷酸链获得延伸构型,使γ-磷酸能够到达Asp351以形成包括Mg2+的复合物。我们通过Asp351突变证明,由于磷酸化位点的静电排斥,底物-酶复合物的这种“有效”构象是不稳定的。然而,这种构象随后通过-磷酸的共价结合而稳定,产生磷酸酶中间体。我们还证明,ADP产物以高亲和力与过渡态复合物结合,但随着磷酸酶经历进一步的构象变化(即E1-P到E2-P转变),其以较低亲和力解离。最后,我们测量了低亲和力ATP与稳定的磷酸酶类似物的结合,证明ATP与磷酸酶结合以交换ADP加速了E1-P到E2-P的转变和酶的周转。

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