Structure, Function and Regulation of the Hsp90 Machinery
Jing Li,Johannes Buchner +1 more
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TLDR
The recent progress made in understanding the Hsp90 machinery is discussed, which influences the conformational cycle, co-chaperone interaction, and inter-domain communications.Abstract:
Heat shock protein 90 (Hsp90) is an ATP-dependent molecular chaperone which is essential in eukaryotes It is required for the activation and stabilization of a wide variety of client proteins and many of them are involved in important cellular pathways Since Hsp90 affects numerous physiological processes such as signal transduction, intracellular transport, and protein degradation, it became an interesting target for cancer therapy Structurally, Hsp90 is a flexible dimeric protein composed of three different domains which adopt structurally distinct conformations ATP binding triggers directionality in these conformational changes and leads to a more compact state To achieve its function, Hsp90 works together with a large group of cofactors, termed co-chaperones Co-chaperones form defined binary or ternary complexes with Hsp90, which facilitate the maturation of client proteins In addition, posttranslational modifications of Hsp90, such as phosphorylation and acetylation, provide another level of regulation They influence the conformational cycle, co-chaperone interaction, and inter-domain communications In this review, we discuss the recent progress made in understanding the Hsp90 machineryread more
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References
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S-nitrosylation of Hsp90 promotes the inhibition of its ATPase and endothelial nitric oxide synthase regulatory activities.
Antonio Martínez-Ruiz,Laura Villanueva,Cecilia González de Orduña,Daniel Lopez-Ferrer,María Ángeles Higueras,Carlos Tarin,Ignacio Rodríguez-Crespo,Jesús Vázquez,Santiago Lamas +8 more
TL;DR: It is suggested that S-nitrosylation may functionally regulate the general activities of Hsp90 and provide a feedback mechanism for limiting eNOS activation.
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Structural basis for recruitment of the ATPase activator Aha1 to the Hsp90 chaperone machinery.
Philippe Meyer,Chrisostomos Prodromou,Chunyan Liao,Bin Hu,S. Mark Roe,Cara K. Vaughan,Ignacija Vlasic,Barry Panaretou,Peter W. Piper,Laurence H. Pearl +9 more
TL;DR: Structural analysis and mutagenesis show that binding of N‐Aha1 promotes a conformational switch in the middle‐segment catalytic loop of Hsp90 that releases the catalytic Arg 380 and enables its interaction with ATP in the N‐terminal nucleotide‐binding domain of the chaperone.
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Update on Hsp90 inhibitors in clinical trial.
TL;DR: This review will provide an overview of the clinical trial results thus far and pivotal issues in further development of Hsp90 inhibitors as anticancer drugs will be discussed.
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ERp99, an abundant, conserved glycoprotein of the endoplasmic reticulum, is homologous to the 90-kDa heat shock protein (hsp90) and the 94-kDa glucose regulated protein (GRP94).
Richard Mazzarella,Maurice Green +1 more
TL;DR: An expressible full-length cDNA clone encoding murine ERp99, an abundant, conserved transmembrane glycoprotein of the endoplasmic reticulum membrane, is isolated and revealed that ER p99 has extensive homology with the 90-kDa heat shock protein of Saccharomyces cerevisiae and the 83-k Da heat shockprotein of Drosophila melanogaster.
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Post-translational modifications of Hsp90 and their contributions to chaperone regulation
Mehdi Mollapour,Len Neckers +1 more
TL;DR: The varied roles of known post-translational modifications of cytosolic and nuclear Hsp90 (phosphorylation, acetylation, S-nitrosylation, oxidation and ubiquitination) in fine-tuning chaperone function in eukaryotes are explored.