MYCN drives chemoresistance in small cell lung cancer while USP7 inhibition can restore chemosensitivity

Eli Grunblatt; Nan Wu; Huajia Zhang; Xiaoli Liu; Justin P. Norton; Yamini Ohol; Paul Leger; Joseph B. Hiatt; Emily C. Eastwood; Rhiana Thomas; Ali H. Ibrahim; Deshui Jia; Ryan Basom; Keith D. Eaton; Renato Martins; A. McGarry Houghton; David MacPherson

doi:10.1101/gad.340133.120

MYCN drives chemoresistance in small cell lung cancer while USP7 inhibition can restore chemosensitivity

Eli Grunblatt, Nan Wu, Huajia Zhang, Xiaoli Liu, Justin P. Norton, Yamini Ohol, Paul Leger, Joseph B. Hiatt, Emily C. Eastwood, Rhiana Thomas, Ali H. Ibrahim, Deshui Jia, Ryan Basom, Keith D. Eaton, Renato Martins, A. McGarry Houghton, David MacPherson

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

40 Scopus citations

Abstract

Small cell lung cancer (SCLC) is an aggressive neuroendocrine cancer characterized by initial chemosensitivity followed by emergence of chemoresistant disease. To study roles for MYCN amplification in SCLC progression and chemoresistance, we developed a genetically engineered mouse model of MYCN-overexpressing SCLC. In treatment-naïve mice, MYCN overexpression promoted cell cycle progression, suppressed infiltration of cytotoxic T cells, and accelerated SCLC. MYCN overexpression also suppressed response to cisplatin-etoposide chemotherapy, with similar findings made upon MYCL overexpression. We extended these data to genetically perturb chemosensitive patient-derived xenograft (PDX) models of SCLC. In chemosensitive PDX models, overexpression of either MYCN or MYCL also conferred a switch to chemoresistance. To identify therapeutic strategies for MYCN-overexpressing SCLC, we performed a genome-scale CRISPR-Cas9 sgRNA screen. We identified the deubiquitinase USP7 as a MYCN-associated synthetic vulnerability. Pharmacological inhibition of USP7 resensitized chemoresistant MYCN-overexpressing PDX models to chemotherapy in vivo. Our findings show that MYCN overexpression drives SCLC chemoresistance and provide a therapeutic strategy to restore chemosensitivity.

Original language	English (US)
Pages (from-to)	1210-1226
Number of pages	17
Journal	Genes and Development
Volume	34
Issue number	17-18
DOIs	https://doi.org/10.1101/gad.340133.120
State	Published - Sep 1 2020
Externally published	Yes

Keywords

Chemoresistance
MYCL
MYCN
SCLC
USP7

ASJC Scopus subject areas

Genetics
Developmental Biology

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10.1101/gad.340133.120

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Grunblatt, E., Wu, N., Zhang, H., Liu, X., Norton, J. P., Ohol, Y., Leger, P., Hiatt, J. B., Eastwood, E. C., Thomas, R., Ibrahim, A. H., Jia, D., Basom, R., Eaton, K. D., Martins, R., McGarry Houghton, A., & MacPherson, D. (2020). MYCN drives chemoresistance in small cell lung cancer while USP7 inhibition can restore chemosensitivity. Genes and Development, 34(17-18), 1210-1226. https://doi.org/10.1101/gad.340133.120

Grunblatt, E, Wu, N, Zhang, H, Liu, X, Norton, JP, Ohol, Y, Leger, P, Hiatt, JB, Eastwood, EC, Thomas, R, Ibrahim, AH, Jia, D, Basom, R, Eaton, KD, Martins, R, McGarry Houghton, A & MacPherson, D 2020, 'MYCN drives chemoresistance in small cell lung cancer while USP7 inhibition can restore chemosensitivity', Genes and Development, vol. 34, no. 17-18, pp. 1210-1226. https://doi.org/10.1101/gad.340133.120

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title = "MYCN drives chemoresistance in small cell lung cancer while USP7 inhibition can restore chemosensitivity",

abstract = "Small cell lung cancer (SCLC) is an aggressive neuroendocrine cancer characterized by initial chemosensitivity followed by emergence of chemoresistant disease. To study roles for MYCN amplification in SCLC progression and chemoresistance, we developed a genetically engineered mouse model of MYCN-overexpressing SCLC. In treatment-na{\"i}ve mice, MYCN overexpression promoted cell cycle progression, suppressed infiltration of cytotoxic T cells, and accelerated SCLC. MYCN overexpression also suppressed response to cisplatin-etoposide chemotherapy, with similar findings made upon MYCL overexpression. We extended these data to genetically perturb chemosensitive patient-derived xenograft (PDX) models of SCLC. In chemosensitive PDX models, overexpression of either MYCN or MYCL also conferred a switch to chemoresistance. To identify therapeutic strategies for MYCN-overexpressing SCLC, we performed a genome-scale CRISPR-Cas9 sgRNA screen. We identified the deubiquitinase USP7 as a MYCN-associated synthetic vulnerability. Pharmacological inhibition of USP7 resensitized chemoresistant MYCN-overexpressing PDX models to chemotherapy in vivo. Our findings show that MYCN overexpression drives SCLC chemoresistance and provide a therapeutic strategy to restore chemosensitivity.",

keywords = "Chemoresistance, MYCL, MYCN, SCLC, USP7",

author = "Eli Grunblatt and Nan Wu and Huajia Zhang and Xiaoli Liu and Norton, {Justin P.} and Yamini Ohol and Paul Leger and Hiatt, {Joseph B.} and Eastwood, {Emily C.} and Rhiana Thomas and Ibrahim, {Ali H.} and Deshui Jia and Ryan Basom and Eaton, {Keith D.} and Renato Martins and {McGarry Houghton}, A. and David MacPherson",

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AU - Grunblatt, Eli

AU - Wu, Nan

AU - Zhang, Huajia

AU - Liu, Xiaoli

AU - Norton, Justin P.

AU - Ohol, Yamini

AU - Leger, Paul

AU - Hiatt, Joseph B.

AU - Eastwood, Emily C.

AU - Thomas, Rhiana

AU - Ibrahim, Ali H.

AU - Jia, Deshui

AU - Basom, Ryan

AU - Eaton, Keith D.

AU - Martins, Renato

AU - McGarry Houghton, A.

AU - MacPherson, David

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N2 - Small cell lung cancer (SCLC) is an aggressive neuroendocrine cancer characterized by initial chemosensitivity followed by emergence of chemoresistant disease. To study roles for MYCN amplification in SCLC progression and chemoresistance, we developed a genetically engineered mouse model of MYCN-overexpressing SCLC. In treatment-naïve mice, MYCN overexpression promoted cell cycle progression, suppressed infiltration of cytotoxic T cells, and accelerated SCLC. MYCN overexpression also suppressed response to cisplatin-etoposide chemotherapy, with similar findings made upon MYCL overexpression. We extended these data to genetically perturb chemosensitive patient-derived xenograft (PDX) models of SCLC. In chemosensitive PDX models, overexpression of either MYCN or MYCL also conferred a switch to chemoresistance. To identify therapeutic strategies for MYCN-overexpressing SCLC, we performed a genome-scale CRISPR-Cas9 sgRNA screen. We identified the deubiquitinase USP7 as a MYCN-associated synthetic vulnerability. Pharmacological inhibition of USP7 resensitized chemoresistant MYCN-overexpressing PDX models to chemotherapy in vivo. Our findings show that MYCN overexpression drives SCLC chemoresistance and provide a therapeutic strategy to restore chemosensitivity.

AB - Small cell lung cancer (SCLC) is an aggressive neuroendocrine cancer characterized by initial chemosensitivity followed by emergence of chemoresistant disease. To study roles for MYCN amplification in SCLC progression and chemoresistance, we developed a genetically engineered mouse model of MYCN-overexpressing SCLC. In treatment-naïve mice, MYCN overexpression promoted cell cycle progression, suppressed infiltration of cytotoxic T cells, and accelerated SCLC. MYCN overexpression also suppressed response to cisplatin-etoposide chemotherapy, with similar findings made upon MYCL overexpression. We extended these data to genetically perturb chemosensitive patient-derived xenograft (PDX) models of SCLC. In chemosensitive PDX models, overexpression of either MYCN or MYCL also conferred a switch to chemoresistance. To identify therapeutic strategies for MYCN-overexpressing SCLC, we performed a genome-scale CRISPR-Cas9 sgRNA screen. We identified the deubiquitinase USP7 as a MYCN-associated synthetic vulnerability. Pharmacological inhibition of USP7 resensitized chemoresistant MYCN-overexpressing PDX models to chemotherapy in vivo. Our findings show that MYCN overexpression drives SCLC chemoresistance and provide a therapeutic strategy to restore chemosensitivity.

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MYCN drives chemoresistance in small cell lung cancer while USP7 inhibition can restore chemosensitivity

Abstract

Keywords

ASJC Scopus subject areas

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