Structure-guided design of an Hsp90β N-terminal isoform-selective inhibitor

Anuj Khandelwal; Caitlin N. Kent; Maurie Balch; Shuxia Peng; Sanket J. Mishra; Junpeng Deng; Victor W. Day; Weiya Liu; Chitra Subramanian; Mark Cohen; Jeffery M. Holzbeierlein; Robert Matts; Brian S.J. Blagg

doi:10.1038/s41467-017-02013-1

Structure-guided design of an Hsp90β N-terminal isoform-selective inhibitor

Anuj Khandelwal, Caitlin N. Kent, Maurie Balch, Shuxia Peng, Sanket J. Mishra, Junpeng Deng, Victor W. Day, Weiya Liu, Chitra Subramanian, Mark Cohen, Jeffery M. Holzbeierlein, Robert Matts, Brian S.J. Blagg

Research output: Contribution to journal › Article › peer-review

Abstract

The 90 kDa heat shock protein (Hsp90) is a molecular chaperone responsible for folding proteins that are directly associated with cancer progression. Consequently, inhibition of the Hsp90 protein folding machinery results in a combinatorial attack on numerous oncogenic pathways. Seventeen small-molecule inhibitors of Hsp90 have entered clinical trials, all of which bind the Hsp90 N-terminus and exhibit pan-inhibitory activity against all four Hsp90 isoforms. pan-Inhibition of Hsp90 appears to be detrimental as toxicities have been reported alongside induction of the pro-survival heat shock response. The development of Hsp90 isoform-selective inhibitors represents an alternative approach towards the treatment of cancer that may limit some of the detriments. Described herein is a structure-based approach to design isoform-selective inhibitors of Hsp90β, which induces the degradation of select Hsp90 clients without concomitant induction of Hsp90 levels. Together, these initial studies support the development of Hsp90β-selective inhibitors as a method to overcome the detriments associated with pan-inhibition.

Original language	English (US)
Article number	425
Journal	Nature communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-017-02013-1
State	Published - Dec 1 2018
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-017-02013-1

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@article{3a8fe23a238043589a7cfbe4f5352355,

title = "Structure-guided design of an Hsp90β N-terminal isoform-selective inhibitor",

abstract = "The 90 kDa heat shock protein (Hsp90) is a molecular chaperone responsible for folding proteins that are directly associated with cancer progression. Consequently, inhibition of the Hsp90 protein folding machinery results in a combinatorial attack on numerous oncogenic pathways. Seventeen small-molecule inhibitors of Hsp90 have entered clinical trials, all of which bind the Hsp90 N-terminus and exhibit pan-inhibitory activity against all four Hsp90 isoforms. pan-Inhibition of Hsp90 appears to be detrimental as toxicities have been reported alongside induction of the pro-survival heat shock response. The development of Hsp90 isoform-selective inhibitors represents an alternative approach towards the treatment of cancer that may limit some of the detriments. Described herein is a structure-based approach to design isoform-selective inhibitors of Hsp90β, which induces the degradation of select Hsp90 clients without concomitant induction of Hsp90 levels. Together, these initial studies support the development of Hsp90β-selective inhibitors as a method to overcome the detriments associated with pan-inhibition.",

author = "Anuj Khandelwal and Kent, {Caitlin N.} and Maurie Balch and Shuxia Peng and Mishra, {Sanket J.} and Junpeng Deng and Day, {Victor W.} and Weiya Liu and Chitra Subramanian and Mark Cohen and Holzbeierlein, {Jeffery M.} and Robert Matts and Blagg, {Brian S.J.}",

note = "Funding Information: We gratefully acknowledge the staff of beam-line 19ID at the Advanced Photon Source for their support. This work was supported by grants from The National Institutes of Health to CA120458 (B.S.J.B., J.M.H.), AI113539 (J.D.), the National Institutes of Health Graduate Training Program in Dynamic Aspects of Chemical Biology Grant T32 GM08545 (C.N.K.), the OAES project number OKL02959 (R.L.M.) and AI133589 (J.P.). Support for the NMR instrumentation was provided by NIH Shared Instrumentation Grants (S10OD016360, S10RR024664) and NSF Major Research Instrumentation Grant (0320648). Support for the X-ray diffractometer was provided by NSF Major Research Instrumentation Grant (CHE-0923449). Publisher Copyright: {\textcopyright} 2018 The Author(s).",

year = "2018",

month = dec,

day = "1",

doi = "10.1038/s41467-017-02013-1",

language = "English (US)",

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journal = "Nature communications",

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T1 - Structure-guided design of an Hsp90β N-terminal isoform-selective inhibitor

AU - Khandelwal, Anuj

AU - Kent, Caitlin N.

AU - Balch, Maurie

AU - Peng, Shuxia

AU - Mishra, Sanket J.

AU - Deng, Junpeng

AU - Day, Victor W.

AU - Liu, Weiya

AU - Subramanian, Chitra

AU - Cohen, Mark

AU - Holzbeierlein, Jeffery M.

AU - Matts, Robert

AU - Blagg, Brian S.J.

N1 - Funding Information: We gratefully acknowledge the staff of beam-line 19ID at the Advanced Photon Source for their support. This work was supported by grants from The National Institutes of Health to CA120458 (B.S.J.B., J.M.H.), AI113539 (J.D.), the National Institutes of Health Graduate Training Program in Dynamic Aspects of Chemical Biology Grant T32 GM08545 (C.N.K.), the OAES project number OKL02959 (R.L.M.) and AI133589 (J.P.). Support for the NMR instrumentation was provided by NIH Shared Instrumentation Grants (S10OD016360, S10RR024664) and NSF Major Research Instrumentation Grant (0320648). Support for the X-ray diffractometer was provided by NSF Major Research Instrumentation Grant (CHE-0923449). Publisher Copyright: © 2018 The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - The 90 kDa heat shock protein (Hsp90) is a molecular chaperone responsible for folding proteins that are directly associated with cancer progression. Consequently, inhibition of the Hsp90 protein folding machinery results in a combinatorial attack on numerous oncogenic pathways. Seventeen small-molecule inhibitors of Hsp90 have entered clinical trials, all of which bind the Hsp90 N-terminus and exhibit pan-inhibitory activity against all four Hsp90 isoforms. pan-Inhibition of Hsp90 appears to be detrimental as toxicities have been reported alongside induction of the pro-survival heat shock response. The development of Hsp90 isoform-selective inhibitors represents an alternative approach towards the treatment of cancer that may limit some of the detriments. Described herein is a structure-based approach to design isoform-selective inhibitors of Hsp90β, which induces the degradation of select Hsp90 clients without concomitant induction of Hsp90 levels. Together, these initial studies support the development of Hsp90β-selective inhibitors as a method to overcome the detriments associated with pan-inhibition.

AB - The 90 kDa heat shock protein (Hsp90) is a molecular chaperone responsible for folding proteins that are directly associated with cancer progression. Consequently, inhibition of the Hsp90 protein folding machinery results in a combinatorial attack on numerous oncogenic pathways. Seventeen small-molecule inhibitors of Hsp90 have entered clinical trials, all of which bind the Hsp90 N-terminus and exhibit pan-inhibitory activity against all four Hsp90 isoforms. pan-Inhibition of Hsp90 appears to be detrimental as toxicities have been reported alongside induction of the pro-survival heat shock response. The development of Hsp90 isoform-selective inhibitors represents an alternative approach towards the treatment of cancer that may limit some of the detriments. Described herein is a structure-based approach to design isoform-selective inhibitors of Hsp90β, which induces the degradation of select Hsp90 clients without concomitant induction of Hsp90 levels. Together, these initial studies support the development of Hsp90β-selective inhibitors as a method to overcome the detriments associated with pan-inhibition.

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DO - 10.1038/s41467-017-02013-1

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JF - Nature communications

IS - 1

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ER -

Structure-guided design of an Hsp90β N-terminal isoform-selective inhibitor

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