Landscape of the mitochondrial Hsp90 metabolome in tumours

Young Chan Chae; Alessia Angelin; Sofia Lisanti; Andrew V. Kossenkov; Kaye D. Speicher; Huan Wang; James F. Powers; Arthur S. Tischler; Karel Pacak; Stephanie Fliedner; Ryan D. Michalek; Edward D. Karoly; Douglas C. Wallace; Lucia R. Languino; David W. Speicher; Dario C. Altieri

doi:10.1038/ncomms3139

Landscape of the mitochondrial Hsp90 metabolome in tumours

Young Chan Chae, Alessia Angelin, Sofia Lisanti, Andrew V. Kossenkov, Kaye D. Speicher, Huan Wang, James F. Powers, Arthur S. Tischler, Karel Pacak, Stephanie Fliedner, Ryan D. Michalek, Edward D. Karoly, Douglas C. Wallace, Lucia R. Languino, David W. Speicher, Dario C. Altieri^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Medizinische Klinik I

140 Zitate (Scopus)

Abstract

Reprogramming of tumour cell metabolism contributes to disease progression and resistance to therapy, but how this process is regulated on the molecular level is unclear. Here we report that heat shock protein 90-directed protein folding in mitochondria controls central metabolic networks in tumour cells, including the electron transport chain, citric acid cycle, fatty acid oxidation, amino acid synthesis and cellular redox status. Specifically, mitochondrial heat shock protein 90, but not cytosolic heat shock protein 90, binds and stabilizes the electron transport chain Complex II subunit succinate dehydrogenase-B, maintaining cellular respiration under low-nutrient conditions, and contributing to hypoxia-inducible factor-1α-mediated tumorigenesis in patients carrying succinate dehydrogenase-B mutations. Thus, heat shock protein 90-directed proteostasis in mitochondria regulates tumour cell metabolism, and may provide a tractable target for cancer therapy.

Originalsprache	Englisch
Aufsatznummer	2139
Zeitschrift	Nature Communications
Jahrgang	4
DOIs	https://doi.org/10.1038/ncomms3139
Publikationsstatus	Veröffentlicht - 23.07.2013

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Chae, Y. C., Angelin, A., Lisanti, S., Kossenkov, A. V., Speicher, K. D., Wang, H., Powers, J. F., Tischler, A. S., Pacak, K., Fliedner, S., Michalek, R. D., Karoly, E. D., Wallace, D. C., Languino, L. R., Speicher, D. W., & Altieri, D. C. (2013). Landscape of the mitochondrial Hsp90 metabolome in tumours. Nature Communications, 4, Artikel 2139. https://doi.org/10.1038/ncomms3139

@article{dfb014359d774fd189ffc6bd4e938c54,

title = "Landscape of the mitochondrial Hsp90 metabolome in tumours",

abstract = "Reprogramming of tumour cell metabolism contributes to disease progression and resistance to therapy, but how this process is regulated on the molecular level is unclear. Here we report that heat shock protein 90-directed protein folding in mitochondria controls central metabolic networks in tumour cells, including the electron transport chain, citric acid cycle, fatty acid oxidation, amino acid synthesis and cellular redox status. Specifically, mitochondrial heat shock protein 90, but not cytosolic heat shock protein 90, binds and stabilizes the electron transport chain Complex II subunit succinate dehydrogenase-B, maintaining cellular respiration under low-nutrient conditions, and contributing to hypoxia-inducible factor-1α-mediated tumorigenesis in patients carrying succinate dehydrogenase-B mutations. Thus, heat shock protein 90-directed proteostasis in mitochondria regulates tumour cell metabolism, and may provide a tractable target for cancer therapy.",

author = "Chae, \{Young Chan\} and Alessia Angelin and Sofia Lisanti and Kossenkov, \{Andrew V.\} and Speicher, \{Kaye D.\} and Huan Wang and Powers, \{James F.\} and Tischler, \{Arthur S.\} and Karel Pacak and Stephanie Fliedner and Michalek, \{Ryan D.\} and Karoly, \{Edward D.\} and Wallace, \{Douglas C.\} and Languino, \{Lucia R.\} and Speicher, \{David W.\} and Altieri, \{Dario C.\}",

year = "2013",

month = jul,

day = "23",

doi = "10.1038/ncomms3139",

language = "English",

volume = "4",

journal = "Nature Communications",

issn = "1751-8636",

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TY - JOUR

T1 - Landscape of the mitochondrial Hsp90 metabolome in tumours

AU - Chae, Young Chan

AU - Angelin, Alessia

AU - Lisanti, Sofia

AU - Kossenkov, Andrew V.

AU - Speicher, Kaye D.

AU - Wang, Huan

AU - Powers, James F.

AU - Tischler, Arthur S.

AU - Pacak, Karel

AU - Fliedner, Stephanie

AU - Michalek, Ryan D.

AU - Karoly, Edward D.

AU - Wallace, Douglas C.

AU - Languino, Lucia R.

AU - Speicher, David W.

AU - Altieri, Dario C.

PY - 2013/7/23

Y1 - 2013/7/23

N2 - Reprogramming of tumour cell metabolism contributes to disease progression and resistance to therapy, but how this process is regulated on the molecular level is unclear. Here we report that heat shock protein 90-directed protein folding in mitochondria controls central metabolic networks in tumour cells, including the electron transport chain, citric acid cycle, fatty acid oxidation, amino acid synthesis and cellular redox status. Specifically, mitochondrial heat shock protein 90, but not cytosolic heat shock protein 90, binds and stabilizes the electron transport chain Complex II subunit succinate dehydrogenase-B, maintaining cellular respiration under low-nutrient conditions, and contributing to hypoxia-inducible factor-1α-mediated tumorigenesis in patients carrying succinate dehydrogenase-B mutations. Thus, heat shock protein 90-directed proteostasis in mitochondria regulates tumour cell metabolism, and may provide a tractable target for cancer therapy.

AB - Reprogramming of tumour cell metabolism contributes to disease progression and resistance to therapy, but how this process is regulated on the molecular level is unclear. Here we report that heat shock protein 90-directed protein folding in mitochondria controls central metabolic networks in tumour cells, including the electron transport chain, citric acid cycle, fatty acid oxidation, amino acid synthesis and cellular redox status. Specifically, mitochondrial heat shock protein 90, but not cytosolic heat shock protein 90, binds and stabilizes the electron transport chain Complex II subunit succinate dehydrogenase-B, maintaining cellular respiration under low-nutrient conditions, and contributing to hypoxia-inducible factor-1α-mediated tumorigenesis in patients carrying succinate dehydrogenase-B mutations. Thus, heat shock protein 90-directed proteostasis in mitochondria regulates tumour cell metabolism, and may provide a tractable target for cancer therapy.

UR - https://www.scopus.com/pages/publications/84880299429

U2 - 10.1038/ncomms3139

DO - 10.1038/ncomms3139

M3 - Journal articles

C2 - 23842546

AN - SCOPUS:84880299429

SN - 1751-8636

VL - 4

JO - Nature Communications

JF - Nature Communications

M1 - 2139

ER -

Landscape of the mitochondrial Hsp90 metabolome in tumours

Abstract

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