SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling

Chuan Xu; Guoxiang Jin; Hong Wu; Wei Cui; Yu Hui Wang; Rajesh Kumar Manne; Guihua Wang; Weina Zhang; Xian Zhang; Fei Han; Zhen Cai; Bo Syong Pan; Che Chia Hsu; Yiqiang Liu; Anmei Zhang; Jie Long; Hongbo Zou; Shuang Wang; Xiaodan Ma; Jinling Duan; Bin Wang; Weihui Liu; Haitao Lan; Qing Xiong; Gang Xue; Zhongzhu Chen; Zhigang Xu; Mark E. Furth; Sarah Haigh Molina; Yong Lu; Dan Xie; Xiu Wu Bian; Hui Kuan Lin

doi:10.1172/JCI141797

SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling

Chuan Xu, Guoxiang Jin, Hong Wu, Wei Cui, Yu Hui Wang, Rajesh Kumar Manne, Guihua Wang, Weina Zhang, Xian Zhang, Fei Han, Zhen Cai, Bo Syong Pan, Che Chia Hsu, Yiqiang Liu, Anmei Zhang, Jie Long, Hongbo Zou, Shuang Wang, Xiaodan Ma, Jinling DuanBin Wang, Weihui Liu, Haitao Lan, Qing Xiong, Gang Xue, Zhongzhu Chen, Zhigang Xu, Mark E. Furth, Sarah Haigh Molina, Yong Lu, Dan Xie, Xiu Wu Bian, Hui Kuan Lin

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

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Abstract

Cancer stem-like cells (CSLCs) acquire enhanced immune checkpoint responses to evade immune cell killing and promote tumor progression. Here we showed that signal regulatory protein γ (SIRPγ) determined CSLC properties and immune evasiveness in a small population of lung adenocarcinoma (LUAD) cancer cells. A SIRPγhi population displayed CSLC properties and transmitted the immune escape signal through sustaining CD47 expression in both SIRPγhi and SIRPγlo/- tumor cells. SIRPγ bridged MST1 and PP2A to facilitate MST1 dephosphorylation, resulting in Hippo/YAP activation and leading to cytokine release by CSLCs, which stimulated CD47 expression in LUAD cells and consequently inhibited tumor cell phagocytosis. SIRPγ promoted tumor growth and metastasis in vivo through YAP signaling. Notably, SIRPγ targeting with genetic SIRPγ knockdown or a SIRPγ-neutralizing antibody inhibited CSLC phenotypes and elicited phagocytosis that suppressed tumor growth in vivo. SIRPG was upregulated in human LUAD and its overexpression predicted poor survival outcome. Thus, SIRPγhi cells serve as CSLCs and tumor immune checkpoint-initiating cells, propagating the immune escape signal to the entire cancer cell population. Our study identifies Hippo/YAP signaling as the first mechanism by which SIRPγ is engaged and reveals that targeting SIRPγ represents an immune- and CSLC-targeting strategy for lung cancer therapy.

Original language	English (US)
Article number	e141797
Journal	Journal of Clinical Investigation
Volume	132
Issue number	5
DOIs	https://doi.org/10.1172/JCI141797
State	Published - Mar 1 2022

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Medicine(all)

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10.1172/JCI141797

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Xu, C., Jin, G., Wu, H., Cui, W., Wang, Y. H., Manne, R. K., Wang, G., Zhang, W., Zhang, X., Han, F., Cai, Z., Pan, B. S., Hsu, C. C., Liu, Y., Zhang, A., Long, J., Zou, H., Wang, S., Ma, X., ... Lin, H. K. (2022). SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling. Journal of Clinical Investigation, 132(5), Article e141797. https://doi.org/10.1172/JCI141797

Xu, C, Jin, G, Wu, H, Cui, W, Wang, YH, Manne, RK, Wang, G, Zhang, W, Zhang, X, Han, F, Cai, Z, Pan, BS, Hsu, CC, Liu, Y, Zhang, A, Long, J, Zou, H, Wang, S, Ma, X, Duan, J, Wang, B, Liu, W, Lan, H, Xiong, Q, Xue, G, Chen, Z, Xu, Z, Furth, ME, Molina, SH, Lu, Y, Xie, D, Bian, XW & Lin, HK 2022, 'SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling', Journal of Clinical Investigation, vol. 132, no. 5, e141797. https://doi.org/10.1172/JCI141797

@article{9a7120a1a00a4d8aadaca7b9ac48a19b,

title = "SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling",

abstract = "Cancer stem-like cells (CSLCs) acquire enhanced immune checkpoint responses to evade immune cell killing and promote tumor progression. Here we showed that signal regulatory protein γ (SIRPγ) determined CSLC properties and immune evasiveness in a small population of lung adenocarcinoma (LUAD) cancer cells. A SIRPγhi population displayed CSLC properties and transmitted the immune escape signal through sustaining CD47 expression in both SIRPγhi and SIRPγlo/- tumor cells. SIRPγ bridged MST1 and PP2A to facilitate MST1 dephosphorylation, resulting in Hippo/YAP activation and leading to cytokine release by CSLCs, which stimulated CD47 expression in LUAD cells and consequently inhibited tumor cell phagocytosis. SIRPγ promoted tumor growth and metastasis in vivo through YAP signaling. Notably, SIRPγ targeting with genetic SIRPγ knockdown or a SIRPγ-neutralizing antibody inhibited CSLC phenotypes and elicited phagocytosis that suppressed tumor growth in vivo. SIRPG was upregulated in human LUAD and its overexpression predicted poor survival outcome. Thus, SIRPγhi cells serve as CSLCs and tumor immune checkpoint-initiating cells, propagating the immune escape signal to the entire cancer cell population. Our study identifies Hippo/YAP signaling as the first mechanism by which SIRPγ is engaged and reveals that targeting SIRPγ represents an immune- and CSLC-targeting strategy for lung cancer therapy.",

author = "Chuan Xu and Guoxiang Jin and Hong Wu and Wei Cui and Wang, {Yu Hui} and Manne, {Rajesh Kumar} and Guihua Wang and Weina Zhang and Xian Zhang and Fei Han and Zhen Cai and Pan, {Bo Syong} and Hsu, {Che Chia} and Yiqiang Liu and Anmei Zhang and Jie Long and Hongbo Zou and Shuang Wang and Xiaodan Ma and Jinling Duan and Bin Wang and Weihui Liu and Haitao Lan and Qing Xiong and Gang Xue and Zhongzhu Chen and Zhigang Xu and Furth, {Mark E.} and Molina, {Sarah Haigh} and Yong Lu and Dan Xie and Bian, {Xiu Wu} and Lin, {Hui Kuan}",

note = "Funding Information: We thank the Flow Cytometry Core Facility at Wake Forest School of Medicine for flow cytometric analyses. We also thank the members of the Lin laboratory for their valuable comments and suggestions. This work was supported by the National Natural Science Foundation of China (no. 81873048 to CX; no. 31991172 to XWB), Sichuan Provincial Science Fund for Distinguished Young Scholars of China (no. 2020JDJQ0065), Endowment Funds for Anderson Discovery Professor for Cancer Research, Wake Forest University School of Medicine Start-up funds, and Catalyst funds from Wake Innovation Quarter (to HKL). Publisher Copyright: {\textcopyright} 2022 American Society for Clinical Investigation. All rights reserved.",

year = "2022",

month = mar,

day = "1",

doi = "10.1172/JCI141797",

language = "English (US)",

volume = "132",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "The American Society for Clinical Investigation",

number = "5",

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TY - JOUR

T1 - SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling

AU - Xu, Chuan

AU - Jin, Guoxiang

AU - Wu, Hong

AU - Cui, Wei

AU - Wang, Yu Hui

AU - Manne, Rajesh Kumar

AU - Wang, Guihua

AU - Zhang, Weina

AU - Zhang, Xian

AU - Han, Fei

AU - Cai, Zhen

AU - Pan, Bo Syong

AU - Hsu, Che Chia

AU - Liu, Yiqiang

AU - Zhang, Anmei

AU - Long, Jie

AU - Zou, Hongbo

AU - Wang, Shuang

AU - Ma, Xiaodan

AU - Duan, Jinling

AU - Wang, Bin

AU - Liu, Weihui

AU - Lan, Haitao

AU - Xiong, Qing

AU - Xue, Gang

AU - Chen, Zhongzhu

AU - Xu, Zhigang

AU - Furth, Mark E.

AU - Molina, Sarah Haigh

AU - Lu, Yong

AU - Xie, Dan

AU - Bian, Xiu Wu

AU - Lin, Hui Kuan

N1 - Funding Information: We thank the Flow Cytometry Core Facility at Wake Forest School of Medicine for flow cytometric analyses. We also thank the members of the Lin laboratory for their valuable comments and suggestions. This work was supported by the National Natural Science Foundation of China (no. 81873048 to CX; no. 31991172 to XWB), Sichuan Provincial Science Fund for Distinguished Young Scholars of China (no. 2020JDJQ0065), Endowment Funds for Anderson Discovery Professor for Cancer Research, Wake Forest University School of Medicine Start-up funds, and Catalyst funds from Wake Innovation Quarter (to HKL). Publisher Copyright: © 2022 American Society for Clinical Investigation. All rights reserved.

PY - 2022/3/1

Y1 - 2022/3/1

N2 - Cancer stem-like cells (CSLCs) acquire enhanced immune checkpoint responses to evade immune cell killing and promote tumor progression. Here we showed that signal regulatory protein γ (SIRPγ) determined CSLC properties and immune evasiveness in a small population of lung adenocarcinoma (LUAD) cancer cells. A SIRPγhi population displayed CSLC properties and transmitted the immune escape signal through sustaining CD47 expression in both SIRPγhi and SIRPγlo/- tumor cells. SIRPγ bridged MST1 and PP2A to facilitate MST1 dephosphorylation, resulting in Hippo/YAP activation and leading to cytokine release by CSLCs, which stimulated CD47 expression in LUAD cells and consequently inhibited tumor cell phagocytosis. SIRPγ promoted tumor growth and metastasis in vivo through YAP signaling. Notably, SIRPγ targeting with genetic SIRPγ knockdown or a SIRPγ-neutralizing antibody inhibited CSLC phenotypes and elicited phagocytosis that suppressed tumor growth in vivo. SIRPG was upregulated in human LUAD and its overexpression predicted poor survival outcome. Thus, SIRPγhi cells serve as CSLCs and tumor immune checkpoint-initiating cells, propagating the immune escape signal to the entire cancer cell population. Our study identifies Hippo/YAP signaling as the first mechanism by which SIRPγ is engaged and reveals that targeting SIRPγ represents an immune- and CSLC-targeting strategy for lung cancer therapy.

AB - Cancer stem-like cells (CSLCs) acquire enhanced immune checkpoint responses to evade immune cell killing and promote tumor progression. Here we showed that signal regulatory protein γ (SIRPγ) determined CSLC properties and immune evasiveness in a small population of lung adenocarcinoma (LUAD) cancer cells. A SIRPγhi population displayed CSLC properties and transmitted the immune escape signal through sustaining CD47 expression in both SIRPγhi and SIRPγlo/- tumor cells. SIRPγ bridged MST1 and PP2A to facilitate MST1 dephosphorylation, resulting in Hippo/YAP activation and leading to cytokine release by CSLCs, which stimulated CD47 expression in LUAD cells and consequently inhibited tumor cell phagocytosis. SIRPγ promoted tumor growth and metastasis in vivo through YAP signaling. Notably, SIRPγ targeting with genetic SIRPγ knockdown or a SIRPγ-neutralizing antibody inhibited CSLC phenotypes and elicited phagocytosis that suppressed tumor growth in vivo. SIRPG was upregulated in human LUAD and its overexpression predicted poor survival outcome. Thus, SIRPγhi cells serve as CSLCs and tumor immune checkpoint-initiating cells, propagating the immune escape signal to the entire cancer cell population. Our study identifies Hippo/YAP signaling as the first mechanism by which SIRPγ is engaged and reveals that targeting SIRPγ represents an immune- and CSLC-targeting strategy for lung cancer therapy.

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U2 - 10.1172/JCI141797

DO - 10.1172/JCI141797

M3 - Article

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SN - 0021-9738

VL - 132

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 5

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ER -

SIRPγ-expressing cancer stem-like cells promote immune escape of lung cancer via Hippo signaling

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