Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1

Chia Wei Li; Seung Oe Lim; Ezra M. Chung; Yong Soo Kim; Andrew H. Park; Jun Yao; Jong Ho Cha; Weiya Xia; Li Chuan Chan; Taewan Kim; Shih Shin Chang; Heng Huan Lee; Chao Kai Chou; Yen Liang Liu; Hsin Chih Yeh; Evan P. Perillo; Andrew K. Dunn; Chu Wei Kuo; Kay Hooi Khoo; Jennifer L. Hsu; Yun Wu; Jung Mao Hsu; Hirohito Yamaguchi; Tzu Hsuan Huang; Aysegul A. Sahin; Gabriel N. Hortobagyi; Stephen S. Yoo; Mien Chie Hung

doi:10.1016/j.ccell.2018.01.009

Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1

Chia Wei Li, Seung Oe Lim, Ezra M. Chung, Yong Soo Kim, Andrew H. Park, Jun Yao, Jong Ho Cha, Weiya Xia, Li Chuan Chan, Taewan Kim, Shih Shin Chang, Heng Huan Lee, Chao Kai Chou, Yen Liang Liu, Hsin Chih Yeh, Evan P. Perillo, Andrew K. Dunn, Chu Wei Kuo, Kay Hooi Khoo, Jennifer L. HsuYun Wu, Jung Mao Hsu, Hirohito Yamaguchi, Tzu Hsuan Huang, Aysegul A. Sahin, Gabriel N. Hortobagyi, Stephen S. Yoo, Mien Chie Hung

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

365 Scopus citations

Abstract

Protein glycosylation provides proteomic diversity in regulating protein localization, stability, and activity; it remains largely unknown whether the sugar moiety contributes to immunosuppression. In the study of immune receptor glycosylation, we showed that EGF induces programmed death ligand 1 (PD-L1) and receptor programmed cell death protein 1 (PD-1) interaction, requiring β-1,3-N-acetylglucosaminyl transferase (B3GNT3) expression in triple-negative breast cancer. Downregulation of B3GNT3 enhances cytotoxic T cell-mediated anti-tumor immunity. A monoclonal antibody targeting glycosylated PD-L1 (gPD-L1) blocks PD-L1/PD-1 interaction and promotes PD-L1 internalization and degradation. In addition to immune reactivation, drug-conjugated gPD-L1 antibody induces a potent cell-killing effect as well as a bystander-killing effect on adjacent cancer cells lacking PD-L1 expression without any detectable toxicity. Our work suggests targeting protein glycosylation as a potential strategy to enhance immune checkpoint therapy. Li et al. show that glycosylation of PD-L1 is essential for PD-L1/PD-1 interaction and immunosuppression in triple-negative breast cancer (TNBC). They generate a glycosylation-specific antibody that induces PD-L1 internalization and an antibody-drug conjugate with potent anti-tumor activities in TNBC models.

Original language	English (US)
Pages (from-to)	187-201.e10
Journal	Cancer cell
Volume	33
Issue number	2
DOIs	https://doi.org/10.1016/j.ccell.2018.01.009
State	Published - Feb 12 2018

Keywords

B3GNT3
PD-1
PD-L1
TNBC
antibody-drug conjugate
glycosylation
immune checkpoint blockade
immunosuppression
immunotherapy
receptor internalization

ASJC Scopus subject areas

Oncology
Cell Biology
Cancer Research

MD Anderson CCSG core facilities

Advanced Technology Genomics Core
Flow Cytometry and Cellular Imaging Facility
Research Animal Support Facility
Tissue Biospecimen and Pathology Resource
Cytogenetics and Cell Authentication Core
Clinical Trials Office

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10.1016/j.ccell.2018.01.009

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Li, C. W., Lim, S. O., Chung, E. M., Kim, Y. S., Park, A. H., Yao, J., Cha, J. H., Xia, W., Chan, L. C., Kim, T., Chang, S. S., Lee, H. H., Chou, C. K., Liu, Y. L., Yeh, H. C., Perillo, E. P., Dunn, A. K., Kuo, C. W., Khoo, K. H., ... Hung, M. C. (2018). Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1. Cancer cell, 33(2), 187-201.e10. https://doi.org/10.1016/j.ccell.2018.01.009

Li, CW, Lim, SO, Chung, EM, Kim, YS, Park, AH, Yao, J, Cha, JH, Xia, W, Chan, LC, Kim, T, Chang, SS, Lee, HH, Chou, CK, Liu, YL, Yeh, HC, Perillo, EP, Dunn, AK, Kuo, CW, Khoo, KH, Hsu, JL, Wu, Y, Hsu, JM, Yamaguchi, H, Huang, TH, Sahin, AA, Hortobagyi, GN, Yoo, SS & Hung, MC 2018, 'Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1', Cancer cell, vol. 33, no. 2, pp. 187-201.e10. https://doi.org/10.1016/j.ccell.2018.01.009

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title = "Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1",

abstract = "Protein glycosylation provides proteomic diversity in regulating protein localization, stability, and activity; it remains largely unknown whether the sugar moiety contributes to immunosuppression. In the study of immune receptor glycosylation, we showed that EGF induces programmed death ligand 1 (PD-L1) and receptor programmed cell death protein 1 (PD-1) interaction, requiring β-1,3-N-acetylglucosaminyl transferase (B3GNT3) expression in triple-negative breast cancer. Downregulation of B3GNT3 enhances cytotoxic T cell-mediated anti-tumor immunity. A monoclonal antibody targeting glycosylated PD-L1 (gPD-L1) blocks PD-L1/PD-1 interaction and promotes PD-L1 internalization and degradation. In addition to immune reactivation, drug-conjugated gPD-L1 antibody induces a potent cell-killing effect as well as a bystander-killing effect on adjacent cancer cells lacking PD-L1 expression without any detectable toxicity. Our work suggests targeting protein glycosylation as a potential strategy to enhance immune checkpoint therapy. Li et al. show that glycosylation of PD-L1 is essential for PD-L1/PD-1 interaction and immunosuppression in triple-negative breast cancer (TNBC). They generate a glycosylation-specific antibody that induces PD-L1 internalization and an antibody-drug conjugate with potent anti-tumor activities in TNBC models.",

keywords = "B3GNT3, PD-1, PD-L1, TNBC, antibody-drug conjugate, glycosylation, immune checkpoint blockade, immunosuppression, immunotherapy, receptor internalization",

author = "Li, {Chia Wei} and Lim, {Seung Oe} and Chung, {Ezra M.} and Kim, {Yong Soo} and Park, {Andrew H.} and Jun Yao and Cha, {Jong Ho} and Weiya Xia and Chan, {Li Chuan} and Taewan Kim and Chang, {Shih Shin} and Lee, {Heng Huan} and Chou, {Chao Kai} and Liu, {Yen Liang} and Yeh, {Hsin Chih} and Perillo, {Evan P.} and Dunn, {Andrew K.} and Kuo, {Chu Wei} and Khoo, {Kay Hooi} and Hsu, {Jennifer L.} and Yun Wu and Hsu, {Jung Mao} and Hirohito Yamaguchi and Huang, {Tzu Hsuan} and Sahin, {Aysegul A.} and Hortobagyi, {Gabriel N.} and Yoo, {Stephen S.} and Hung, {Mien Chie}",

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doi = "10.1016/j.ccell.2018.01.009",

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AU - Li, Chia Wei

AU - Lim, Seung Oe

AU - Chung, Ezra M.

AU - Kim, Yong Soo

AU - Park, Andrew H.

AU - Yao, Jun

AU - Cha, Jong Ho

AU - Xia, Weiya

AU - Chan, Li Chuan

AU - Kim, Taewan

AU - Chang, Shih Shin

AU - Lee, Heng Huan

AU - Chou, Chao Kai

AU - Liu, Yen Liang

AU - Yeh, Hsin Chih

AU - Perillo, Evan P.

AU - Dunn, Andrew K.

AU - Kuo, Chu Wei

AU - Khoo, Kay Hooi

AU - Hsu, Jennifer L.

AU - Wu, Yun

AU - Hsu, Jung Mao

AU - Yamaguchi, Hirohito

AU - Huang, Tzu Hsuan

AU - Sahin, Aysegul A.

AU - Hortobagyi, Gabriel N.

AU - Yoo, Stephen S.

AU - Hung, Mien Chie

PY - 2018/2/12

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AB - Protein glycosylation provides proteomic diversity in regulating protein localization, stability, and activity; it remains largely unknown whether the sugar moiety contributes to immunosuppression. In the study of immune receptor glycosylation, we showed that EGF induces programmed death ligand 1 (PD-L1) and receptor programmed cell death protein 1 (PD-1) interaction, requiring β-1,3-N-acetylglucosaminyl transferase (B3GNT3) expression in triple-negative breast cancer. Downregulation of B3GNT3 enhances cytotoxic T cell-mediated anti-tumor immunity. A monoclonal antibody targeting glycosylated PD-L1 (gPD-L1) blocks PD-L1/PD-1 interaction and promotes PD-L1 internalization and degradation. In addition to immune reactivation, drug-conjugated gPD-L1 antibody induces a potent cell-killing effect as well as a bystander-killing effect on adjacent cancer cells lacking PD-L1 expression without any detectable toxicity. Our work suggests targeting protein glycosylation as a potential strategy to enhance immune checkpoint therapy. Li et al. show that glycosylation of PD-L1 is essential for PD-L1/PD-1 interaction and immunosuppression in triple-negative breast cancer (TNBC). They generate a glycosylation-specific antibody that induces PD-L1 internalization and an antibody-drug conjugate with potent anti-tumor activities in TNBC models.

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Eradication of Triple-Negative Breast Cancer Cells by Targeting Glycosylated PD-L1

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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