Functional diversity in archaeal Hsp60: a molecular mosaic of Group I and Group II chaperonin

Koustav Bhakta, Mousam Roy, Shirsha Samanta, Abhrajyoti Ghosh
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Abstract

External stress disrupts the balance of protein homeostasis, necessitating the involvement of heat shock proteins (Hsps) in restoring equilibrium and ensuring cellular survival. The thermoacidophilic crenarchaeon Sulfolobus acidocaldarius, lacks the conventional Hsp100, Hsp90, and Hsp70, relying solely on a single ATP-dependent Group II chaperonin, Hsp60, comprising three distinct subunits (α, β, and γ) to refold unfolded substrates and maintain protein homeostasis. Hsp60 forms three different complexes, namely Hsp60αβγ, Hsp60αβ, and Hsp60β, at temperatures of 60 °C, 75 °C, and 90 °C, respectively. This study delves into the intricacies of Hsp60 complexes in S. acidocaldarius, uncovering their ability to form oligomeric structures in the presence of ATP. The recognition of substrates by Hsp60 involves hydrophobic interactions, and the subsequent refolding process occurs in an ATP-dependent manner through charge-driven interactions. Furthermore, the Hsp60β homo-oligomeric complex can protect the archaeal and eukaryotic membrane from stress-induced damage. Hsp60 demonstrates nested cooperativity in ATP hydrolysis activity, where MWC-type cooperativity is nested within KNF-type cooperativity. Remarkably, during ATP hydrolysis, Hsp60β, and Hsp60αβ complexes exhibit a mosaic behavior, aligning with characteristics observed in both Group I and Group II chaperonins, adding a layer of complexity to their functionality.

Abstract Image

古菌 Hsp60 的功能多样性:第一类和第二类伴侣素的分子镶嵌。
外部压力会破坏蛋白质的平衡,因此需要热休克蛋白(Hsps)参与恢复平衡并确保细胞存活。嗜酸性热壳菌 Sulfolobus acidocaldarius 缺乏传统的 Hsp100、Hsp90 和 Hsp70,只能依靠由三个不同亚基(α、β 和 γ)组成的单一 ATP 依赖性第二类伴侣蛋白 Hsp60 来重新折叠未折叠的底物,维持蛋白质的平衡。Hsp60 在 60 ℃、75 ℃ 和 90 ℃ 温度下分别形成三种不同的复合物,即 Hsp60αβγ、Hsp60αβ 和 Hsp60β。本研究深入探讨了酸性角叉菜绦虫体内 Hsp60 复合物的复杂性,揭示了它们在 ATP 存在下形成低聚物结构的能力。Hsp60 对底物的识别涉及疏水相互作用,随后的重折叠过程通过电荷驱动的相互作用以依赖 ATP 的方式进行。此外,Hsp60β同源异构体复合物能保护古细菌和真核生物膜免受应激引起的损伤。Hsp60 在 ATP 水解活动中表现出嵌套合作性,其中 MWC 型合作性嵌套在 KNF 型合作性中。值得注意的是,在 ATP 水解过程中,Hsp60β 和 Hsp60αβ 复合物表现出一种镶嵌行为,与在第一类和第二类伴侣蛋白中观察到的特征一致,为其功能增加了一层复杂性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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