HDAC6 Regulates Hsp90 Acetylation and Chaperone-Dependent Activation of Glucocorticoid Receptor

Kovacs, Jeffery; Murphy, Patrick J.; Gaillard, Stéphanie; Zhao, Xuan; Wu, June‐Tai; Nicchitta, Christopher V.; Yoshida, Minoru; Toft, David O.; Pratt, William B.; Yao, Tso Pang

doi:10.1016/j.molcel.2005.04.021

Cited by 972 publications

(788 citation statements)

References 21 publications

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“…HDAC6 can not only bind both mono and poly-ubiquitinated proteins but also promote its own mono-ubiquitination. Specific inhibition of HDAC6 activity or its downregulation by siRNA increases a-tubulin and HSP90 acetylation, which reduces cellular motility, and induces HSP90 client proteins degradation, cell growth inhibition and cell death (Bali et al, 2005;Kovacs et al, 2005). Acetylated HSP90 cannot form stable complex with client proteins and its deacetylation by HDAC6 is required to regenerate functional HSP90 (Aoyagi and Archer, 2005).…”

Section: Ros Thioredoxin and Trx Binding Protein 2 Inmentioning

confidence: 99%

“…As indicated above, this chaperone protein is essential for the stability and function of many client proteins, including steroid hormone receptors and protein kinases, that are crucial for numerous cell signaling processes and cellular homeostasis (Solit and Rosen, 2006). Recent studies have demonstrated both a direct physical interaction between HDAC6 and HSP90, and HDAC6 as a regulator of HSP90 activity, through its deacetylation (Bali et al, 2005;Kovacs et al, 2005). Considering the number of HSP90 client proteins, many molecular alterations can be anticipated as a result of HSP90 inactivation through HDAC6 inhibition by HDACi, or its downregulation by HDAC6 siRNA.…”

Section: Ros Thioredoxin and Trx Binding Protein 2 Inmentioning

confidence: 99%

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Histone deacetylase inhibitors: molecular mechanisms of action

2007

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Section: Ros Thioredoxin and Trx Binding Protein 2 Inmentioning

confidence: 99%

Section: Ros Thioredoxin and Trx Binding Protein 2 Inmentioning

confidence: 99%

Histone deacetylase inhibitors: molecular mechanisms of action

2007

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“…While it is clear that acetylation and phosphorylation are important aspects of Hsp90's in vivo function, the precise role of these modifications in the chaperone cycle is not well understood. Hyperactylation of Hsp90 disrupts the binding of both client proteins and co-chaperones (Kekatpure et al, 2009;Kovacs et al, 2005;Scroggins et al, 2007;Yu et al, 2002). Regulation of Hsp90's acetylation status occurs primarily through HDAC6 which binds directly to Hsp90 (Kekatpure et al, 2009), and inhibition of HDAC6 leads to the hyperacetylation of Hsp90 (Yu et al, 2002).…”

Section: The Effect Of Phosphorylation and Acetylation On The Conformmentioning

confidence: 99%

Conformational dynamics of the molecular chaperone Hsp90

Krukenberg

Street

Lavery

et al. 2011

Quart. Rev. Biophys.

269

254

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The molecular chaperone Hsp90 is an essential eukaryotic protein that makes up 1-2% of all cytosolic proteins. Hsp90 is vital for the maturation and maintenance of a wide variety of substrate proteins largely involved in signaling and regulatory processes. Many of these substrates have also been implicated in cancer and other diseases making Hsp90 an attractive target for therapeutics. Hsp90 is a highly dynamic and flexible molecule that can adapt its conformation to the wide variety of substrate proteins with which it acts. Large conformational rearrangements are also required for the activation of these client proteins. One driving force for these rearrangements is the intrinsic ATPase activity of Hsp90, as seen with other chaperones. However, unlike other chaperones, studies have shown that the ATPase cycle of Hsp90 is not conformationally deterministic. That is, rather than dictating the conformational state, ATP binding and hydrolysis shifts the equilibrium between a pre-existing set of conformational states in an organismdependent manner. In vivo Hsp90 functions as part of larger heterocomplexes. The binding partners of Hsp90, co-chaperones, assist in the recruitment and activation of substrates, and many co-chaperones further regulate the conformational dynamics of Hsp90 by shifting the conformational equilibrium towards a particular state. Studies have also suggested alternative mechanisms for the regulation of Hsp90's conformation. In this review, we discuss the structural and biochemical studies leading to our current understanding of the conformational dynamics of Hsp90 and the role that nucleotide, co-chaperones, post-translational modification and clients play in regulating Hsp90's conformation. We also discuss the effects of current Hsp90 inhibitors on conformation and the potential for developing small molecules that inhibit Hsp90 by disrupting the conformational dynamics.

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“…Of the known substrates of HDAC6, Hsp90 may be linked with the HDAC6-mediated regulation of mitochondrial metabolic activity. Inactivation of HDAC6 leads to hyperacetylation of Hsp90 and instability of its client proteins [6,7]. Interestingly, Kang et al have found that an abundant pool of Hsp90 localizes to mitochondria in various tumor cells and regulates mitochondrial integrity [21].…”

Section: Hdac6 Regulates Mitochondrial Metabolic Activity In the Cytomentioning

confidence: 99%

“…Early studies found that HDAC6-mediated a-tubulin deacetylation destabilizes dynamic microtubules [3] and promotes an increase in cell motility [4,5]. In addition to a-tubulin, several cytoplasmic proteins including Hsp90 [6,7], cortactin [8], b-catenin [9], peroxiredoxins I and II [10], and Ku70 [11] are regulated in a HDAC6-mediated deacetylation-dependent manner. Strong ubiquitin binding activity [12,13] further adds to the multifunctionality of HDAC6, enabling the regulation of many important processes including cell migration, cell stress response to the cytotoxic accumulation of protein aggregates, and immune synapse formation [1,2].…”

Section: Introductionmentioning

confidence: 99%

Depression of mitochondrial metabolism by downregulation of cytoplasmic deacetylase, HDAC6

et al. 2012

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a b s t r a c tMitochondria perform multiple functions critical to the maintenance of cellular homeostasis. Here we report that the downregulation of histone deacetylase 6 (HDAC6) causes a reduction in the net activity of mitochondrial enzymes, including respiratory complex II and citrate synthase. HDAC6 deacetylase and ubiquitin-binding activities were both required for recovery of reduced mitochondrial metabolic activity due to the loss of HDAC6. Hsp90, a substrate of HDAC6, localizes to mitochondria and partly mediates the regulation of mitochondrial metabolic activity by HDAC6. Our finding suggests that HDAC6 regulates mitochondrial metabolism and might serve as a cellular homeostasis surveillance factor.

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HDAC6 Regulates Hsp90 Acetylation and Chaperone-Dependent Activation of Glucocorticoid Receptor

Cited by 972 publications

References 21 publications

Histone deacetylase inhibitors: molecular mechanisms of action

Histone deacetylase inhibitors: molecular mechanisms of action

Conformational dynamics of the molecular chaperone Hsp90

Depression of mitochondrial metabolism by downregulation of cytoplasmic deacetylase, HDAC6

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