Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung

Carla P. Concepcion; Sai Ma; Lindsay M. Lafave; Arjun Bhutkar; Manyuan Liu; Lydia P. Deangelo; Jonathan Y. Kim; Isabella Del Priore; Adam J. Schoenfeld; Manon Miller; Vinay K. Kartha; Peter M.K. Westcott; Francisco J. Sánchez-Rivera; Kevin Meli; Manav Gupta; Roderick T. Bronson; Gregory J. Riely; Natasha Rekhtman; Charles M. Rudin; Carla F. Kim; Aviv Regev; Jason D. Buenrostro; Tyler Jacks

doi:10.1158/2159-8290.CD-21-0248

Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung

Carla P. Concepcion, Sai Ma, Lindsay M. Lafave, Arjun Bhutkar, Manyuan Liu, Lydia P. Deangelo, Jonathan Y. Kim, Isabella Del Priore, Adam J. Schoenfeld, Manon Miller, Vinay K. Kartha, Peter M.K. Westcott, Francisco J. Sánchez-Rivera, Kevin Meli, Manav Gupta, Roderick T. Bronson, Gregory J. Riely, Natasha Rekhtman, Charles M. Rudin, Carla F. KimAviv Regev, Jason D. Buenrostro, Tyler Jacks

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

43 Scopus citations

Abstract

SMARCA4/BRG1 encodes for one of two mutually exclusive ATPases present in mammalian SWI/SNF chromatin remodeling complexes and is frequently mutated in human lung adenocarcinoma. However, the functional consequences of SMARCA4 mutation on tumor initiation, progression, and chromatin regulation in lung cancer remain poorly understood. Here, we demonstrate that loss of Smarca4 sensitizes club cell secretory protein–positive cells within the lung in a cell type–dependent fashion to malignant transformation and tumor progression, resulting in highly advanced dedifferentiated tumors and increased metastatic incidence. Consistent with these phenotypes, Smarca4-deficient primary tumors lack lung lineage transcription factor activities and resemble a metastatic cell state. Mechanistically, we show that Smarca4 loss impairs the function of all three classes of SWI/SNF complexes, resulting in decreased chromatin accessibility at lung lineage motifs and ultimately accelerating tumor progression. Thus, we propose that the SWI/SNF complex via Smarca4 acts as a gatekeeper for lineage-specific cellular transformation and metastasis during lung cancer evolution. SIGNIFICANCE: We demonstrate cell-type specificity in the tumor-suppressive functions of SMARCA4 in the lung, pointing toward a critical role of the cell-of-origin in driving SWI/SNF-mutant lung adenocarcinoma. We further show the direct effects of SMARCA4 loss on SWI/SNF function and chromatin regulation that cause aggressive malignancy during lung cancer evolution.

Original language	English (US)
Pages (from-to)	562-585
Number of pages	24
Journal	Cancer discovery
Volume	12
Issue number	2
DOIs	https://doi.org/10.1158/2159-8290.CD-21-0248
State	Published - Feb 1 2022
Externally published	Yes

ASJC Scopus subject areas

Oncology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1158/2159-8290.CD-21-0248

Cite this

Concepcion, C. P., Ma, S., Lafave, L. M., Bhutkar, A., Liu, M., Deangelo, L. P., Kim, J. Y., Priore, I. D., Schoenfeld, A. J., Miller, M., Kartha, V. K., Westcott, P. M. K., Sánchez-Rivera, F. J., Meli, K., Gupta, M., Bronson, R. T., Riely, G. J., Rekhtman, N., Rudin, C. M., ... Jacks, T. (2022). Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung. Cancer discovery, 12(2), 562-585. https://doi.org/10.1158/2159-8290.CD-21-0248

Concepcion, CP, Ma, S, Lafave, LM, Bhutkar, A, Liu, M, Deangelo, LP, Kim, JY, Priore, ID, Schoenfeld, AJ, Miller, M, Kartha, VK, Westcott, PMK, Sánchez-Rivera, FJ, Meli, K, Gupta, M, Bronson, RT, Riely, GJ, Rekhtman, N, Rudin, CM, Kim, CF, Regev, A, Buenrostro, JD & Jacks, T 2022, 'Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung', Cancer discovery, vol. 12, no. 2, pp. 562-585. https://doi.org/10.1158/2159-8290.CD-21-0248

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title = "Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung",

abstract = "SMARCA4/BRG1 encodes for one of two mutually exclusive ATPases present in mammalian SWI/SNF chromatin remodeling complexes and is frequently mutated in human lung adenocarcinoma. However, the functional consequences of SMARCA4 mutation on tumor initiation, progression, and chromatin regulation in lung cancer remain poorly understood. Here, we demonstrate that loss of Smarca4 sensitizes club cell secretory protein–positive cells within the lung in a cell type–dependent fashion to malignant transformation and tumor progression, resulting in highly advanced dedifferentiated tumors and increased metastatic incidence. Consistent with these phenotypes, Smarca4-deficient primary tumors lack lung lineage transcription factor activities and resemble a metastatic cell state. Mechanistically, we show that Smarca4 loss impairs the function of all three classes of SWI/SNF complexes, resulting in decreased chromatin accessibility at lung lineage motifs and ultimately accelerating tumor progression. Thus, we propose that the SWI/SNF complex via Smarca4 acts as a gatekeeper for lineage-specific cellular transformation and metastasis during lung cancer evolution. SIGNIFICANCE: We demonstrate cell-type specificity in the tumor-suppressive functions of SMARCA4 in the lung, pointing toward a critical role of the cell-of-origin in driving SWI/SNF-mutant lung adenocarcinoma. We further show the direct effects of SMARCA4 loss on SWI/SNF function and chromatin regulation that cause aggressive malignancy during lung cancer evolution.",

author = "Concepcion, {Carla P.} and Sai Ma and Lafave, {Lindsay M.} and Arjun Bhutkar and Manyuan Liu and Deangelo, {Lydia P.} and Kim, {Jonathan Y.} and Priore, {Isabella Del} and Schoenfeld, {Adam J.} and Manon Miller and Kartha, {Vinay K.} and Westcott, {Peter M.K.} and S{\'a}nchez-Rivera, {Francisco J.} and Kevin Meli and Manav Gupta and Bronson, {Roderick T.} and Riely, {Gregory J.} and Natasha Rekhtman and Rudin, {Charles M.} and Kim, {Carla F.} and Aviv Regev and Buenrostro, {Jason D.} and Tyler Jacks",

note = "Publisher Copyright: {\textcopyright} 2021 American Association for Cancer Research.",

year = "2022",

month = feb,

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doi = "10.1158/2159-8290.CD-21-0248",

language = "English (US)",

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T1 - Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung

AU - Concepcion, Carla P.

AU - Ma, Sai

AU - Lafave, Lindsay M.

AU - Bhutkar, Arjun

AU - Liu, Manyuan

AU - Deangelo, Lydia P.

AU - Kim, Jonathan Y.

AU - Priore, Isabella Del

AU - Schoenfeld, Adam J.

AU - Miller, Manon

AU - Kartha, Vinay K.

AU - Westcott, Peter M.K.

AU - Sánchez-Rivera, Francisco J.

AU - Meli, Kevin

AU - Gupta, Manav

AU - Bronson, Roderick T.

AU - Riely, Gregory J.

AU - Rekhtman, Natasha

AU - Rudin, Charles M.

AU - Kim, Carla F.

AU - Regev, Aviv

AU - Buenrostro, Jason D.

AU - Jacks, Tyler

PY - 2022/2/1

Y1 - 2022/2/1

N2 - SMARCA4/BRG1 encodes for one of two mutually exclusive ATPases present in mammalian SWI/SNF chromatin remodeling complexes and is frequently mutated in human lung adenocarcinoma. However, the functional consequences of SMARCA4 mutation on tumor initiation, progression, and chromatin regulation in lung cancer remain poorly understood. Here, we demonstrate that loss of Smarca4 sensitizes club cell secretory protein–positive cells within the lung in a cell type–dependent fashion to malignant transformation and tumor progression, resulting in highly advanced dedifferentiated tumors and increased metastatic incidence. Consistent with these phenotypes, Smarca4-deficient primary tumors lack lung lineage transcription factor activities and resemble a metastatic cell state. Mechanistically, we show that Smarca4 loss impairs the function of all three classes of SWI/SNF complexes, resulting in decreased chromatin accessibility at lung lineage motifs and ultimately accelerating tumor progression. Thus, we propose that the SWI/SNF complex via Smarca4 acts as a gatekeeper for lineage-specific cellular transformation and metastasis during lung cancer evolution. SIGNIFICANCE: We demonstrate cell-type specificity in the tumor-suppressive functions of SMARCA4 in the lung, pointing toward a critical role of the cell-of-origin in driving SWI/SNF-mutant lung adenocarcinoma. We further show the direct effects of SMARCA4 loss on SWI/SNF function and chromatin regulation that cause aggressive malignancy during lung cancer evolution.

AB - SMARCA4/BRG1 encodes for one of two mutually exclusive ATPases present in mammalian SWI/SNF chromatin remodeling complexes and is frequently mutated in human lung adenocarcinoma. However, the functional consequences of SMARCA4 mutation on tumor initiation, progression, and chromatin regulation in lung cancer remain poorly understood. Here, we demonstrate that loss of Smarca4 sensitizes club cell secretory protein–positive cells within the lung in a cell type–dependent fashion to malignant transformation and tumor progression, resulting in highly advanced dedifferentiated tumors and increased metastatic incidence. Consistent with these phenotypes, Smarca4-deficient primary tumors lack lung lineage transcription factor activities and resemble a metastatic cell state. Mechanistically, we show that Smarca4 loss impairs the function of all three classes of SWI/SNF complexes, resulting in decreased chromatin accessibility at lung lineage motifs and ultimately accelerating tumor progression. Thus, we propose that the SWI/SNF complex via Smarca4 acts as a gatekeeper for lineage-specific cellular transformation and metastasis during lung cancer evolution. SIGNIFICANCE: We demonstrate cell-type specificity in the tumor-suppressive functions of SMARCA4 in the lung, pointing toward a critical role of the cell-of-origin in driving SWI/SNF-mutant lung adenocarcinoma. We further show the direct effects of SMARCA4 loss on SWI/SNF function and chromatin regulation that cause aggressive malignancy during lung cancer evolution.

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AN - SCOPUS:85124444783

SN - 2159-8274

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JO - Cancer discovery

JF - Cancer discovery

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ER -

Smarca4 Inactivation Promotes LineageSpecific Transformation and Early Metastatic Features in the Lung

Abstract

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UN SDGs

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