A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition

Cancer cells are metabolically adaptable and the identification of specific vulnerabilities is challenging. Here the authors identify a subset of neuroendocrine cell lines exquisitely sensitive to inhibition of SQLE, an enzyme in the cholesterol biosynthetic pathway, due to the toxic accumulation of...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Christopher E. Mahoney, David Pirman, Victor Chubukov, Taryn Sleger, Sebastian Hayes, Zi Peng Fan, Eric L. Allen, Ying Chen, Lingling Huang, Meina Liu, Yingjia Zhang, Gabrielle McDonald, Rohini Narayanaswamy, Sung Choe, Yue Chen, Stefan Gross, Giovanni Cianchetta, Anil K. Padyana, Stuart Murray, Wei Liu, Kevin M. Marks, Joshua Murtie, Marion Dorsch, Shengfang Jin, Nelamangala Nagaraja, Scott A. Biller, Thomas Roddy, Janeta Popovici-Muller, Gromoslaw A. Smolen
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
Materias:
Q
Acceso en línea:https://doaj.org/article/27aeab8f4bce40e788924435c21f0b77
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:27aeab8f4bce40e788924435c21f0b77
record_format dspace
spelling oai:doaj.org-article:27aeab8f4bce40e788924435c21f0b772021-12-02T14:38:38ZA chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition10.1038/s41467-018-07959-42041-1723https://doaj.org/article/27aeab8f4bce40e788924435c21f0b772019-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-07959-4https://doaj.org/toc/2041-1723Cancer cells are metabolically adaptable and the identification of specific vulnerabilities is challenging. Here the authors identify a subset of neuroendocrine cell lines exquisitely sensitive to inhibition of SQLE, an enzyme in the cholesterol biosynthetic pathway, due to the toxic accumulation of pathway intermediate squalene.Christopher E. MahoneyDavid PirmanVictor ChubukovTaryn SlegerSebastian HayesZi Peng FanEric L. AllenYing ChenLingling HuangMeina LiuYingjia ZhangGabrielle McDonaldRohini NarayanaswamySung ChoeYue ChenStefan GrossGiovanni CianchettaAnil K. PadyanaStuart MurrayWei LiuKevin M. MarksJoshua MurtieMarion DorschShengfang JinNelamangala NagarajaScott A. BillerThomas RoddyJaneta Popovici-MullerGromoslaw A. SmolenNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-14 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Christopher E. Mahoney
David Pirman
Victor Chubukov
Taryn Sleger
Sebastian Hayes
Zi Peng Fan
Eric L. Allen
Ying Chen
Lingling Huang
Meina Liu
Yingjia Zhang
Gabrielle McDonald
Rohini Narayanaswamy
Sung Choe
Yue Chen
Stefan Gross
Giovanni Cianchetta
Anil K. Padyana
Stuart Murray
Wei Liu
Kevin M. Marks
Joshua Murtie
Marion Dorsch
Shengfang Jin
Nelamangala Nagaraja
Scott A. Biller
Thomas Roddy
Janeta Popovici-Muller
Gromoslaw A. Smolen
A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition
description Cancer cells are metabolically adaptable and the identification of specific vulnerabilities is challenging. Here the authors identify a subset of neuroendocrine cell lines exquisitely sensitive to inhibition of SQLE, an enzyme in the cholesterol biosynthetic pathway, due to the toxic accumulation of pathway intermediate squalene.
format article
author Christopher E. Mahoney
David Pirman
Victor Chubukov
Taryn Sleger
Sebastian Hayes
Zi Peng Fan
Eric L. Allen
Ying Chen
Lingling Huang
Meina Liu
Yingjia Zhang
Gabrielle McDonald
Rohini Narayanaswamy
Sung Choe
Yue Chen
Stefan Gross
Giovanni Cianchetta
Anil K. Padyana
Stuart Murray
Wei Liu
Kevin M. Marks
Joshua Murtie
Marion Dorsch
Shengfang Jin
Nelamangala Nagaraja
Scott A. Biller
Thomas Roddy
Janeta Popovici-Muller
Gromoslaw A. Smolen
author_facet Christopher E. Mahoney
David Pirman
Victor Chubukov
Taryn Sleger
Sebastian Hayes
Zi Peng Fan
Eric L. Allen
Ying Chen
Lingling Huang
Meina Liu
Yingjia Zhang
Gabrielle McDonald
Rohini Narayanaswamy
Sung Choe
Yue Chen
Stefan Gross
Giovanni Cianchetta
Anil K. Padyana
Stuart Murray
Wei Liu
Kevin M. Marks
Joshua Murtie
Marion Dorsch
Shengfang Jin
Nelamangala Nagaraja
Scott A. Biller
Thomas Roddy
Janeta Popovici-Muller
Gromoslaw A. Smolen
author_sort Christopher E. Mahoney
title A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition
title_short A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition
title_full A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition
title_fullStr A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition
title_full_unstemmed A chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to SQLE inhibition
title_sort chemical biology screen identifies a vulnerability of neuroendocrine cancer cells to sqle inhibition
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/27aeab8f4bce40e788924435c21f0b77
work_keys_str_mv AT christopheremahoney achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT davidpirman achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT victorchubukov achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT tarynsleger achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT sebastianhayes achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT zipengfan achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT ericlallen achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT yingchen achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT linglinghuang achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT meinaliu achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT yingjiazhang achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT gabriellemcdonald achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT rohininarayanaswamy achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT sungchoe achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT yuechen achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT stefangross achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT giovannicianchetta achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT anilkpadyana achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT stuartmurray achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT weiliu achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT kevinmmarks achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT joshuamurtie achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT mariondorsch achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT shengfangjin achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT nelamangalanagaraja achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT scottabiller achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT thomasroddy achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT janetapopovicimuller achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT gromoslawasmolen achemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT christopheremahoney chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT davidpirman chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT victorchubukov chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT tarynsleger chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT sebastianhayes chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT zipengfan chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT ericlallen chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT yingchen chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT linglinghuang chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT meinaliu chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT yingjiazhang chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT gabriellemcdonald chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT rohininarayanaswamy chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT sungchoe chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT yuechen chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT stefangross chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT giovannicianchetta chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT anilkpadyana chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT stuartmurray chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT weiliu chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT kevinmmarks chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT joshuamurtie chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT mariondorsch chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT shengfangjin chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT nelamangalanagaraja chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT scottabiller chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT thomasroddy chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT janetapopovicimuller chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
AT gromoslawasmolen chemicalbiologyscreenidentifiesavulnerabilityofneuroendocrinecancercellstosqleinhibition
_version_ 1718390881028931584