Tumor-induced reshuffling of lipid composition on the endoplasmic reticulum membrane sustains macrophage survival and pro-tumorigenic activity

Giusy Di Conza; Chin Hsien Tsai; Hector Gallart-Ayala; Yi Ru Yu; Fabien Franco; Lea Zaffalon; Xin Xie; Xiaoyun Li; Zhengtao Xiao; Lydia N. Raines; Maryline Falquet; Antoine Jalil; Jason W. Locasale; Piergiorgio Percipalle; David Masson; Stanley Ching Cheng Huang; Fabio Martinon; Julijana Ivanisevic; Ping Chih Ho

doi:10.1038/s41590-021-01047-4

Tumor-induced reshuffling of lipid composition on the endoplasmic reticulum membrane sustains macrophage survival and pro-tumorigenic activity

Giusy Di Conza, Chin Hsien Tsai, Hector Gallart-Ayala, Yi Ru Yu, Fabien Franco, Lea Zaffalon, Xin Xie, Xiaoyun Li, Zhengtao Xiao, Lydia N. Raines, Maryline Falquet, Antoine Jalil, Jason W. Locasale, Piergiorgio Percipalle, David Masson, Stanley Ching Cheng Huang, Fabio Martinon, Julijana Ivanisevic, Ping Chih Ho

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Abstract

Tumor-associated macrophages (TAMs) display pro-tumorigenic phenotypes for supporting tumor progression in response to microenvironmental cues imposed by tumor and stromal cells. However, the underlying mechanisms by which tumor cells instruct TAM behavior remain elusive. Here, we uncover that tumor-cell-derived glucosylceramide stimulated unconventional endoplasmic reticulum (ER) stress responses by inducing reshuffling of lipid composition and saturation on the ER membrane in macrophages, which induced IRE1-mediated spliced XBP1 production and STAT3 activation. The cooperation of spliced XBP1 and STAT3 reinforced the pro-tumorigenic phenotype and expression of immunosuppressive genes. Ablation of XBP1 expression with genetic manipulation or ameliorating ER stress responses by facilitating LPCAT3-mediated incorporation of unsaturated lipids to the phosphatidylcholine hampered pro-tumorigenic phenotype and survival in TAMs. Together, we uncover the unexpected roles of tumor-cell-produced lipids that simultaneously orchestrate macrophage polarization and survival in tumors via induction of ER stress responses and reveal therapeutic targets for sustaining host antitumor immunity.

Original language	English
Pages (from-to)	1403-1415
Number of pages	13
Journal	Nature Immunology
Volume	22
Issue number	11
DOIs	https://doi.org/10.1038/s41590-021-01047-4
Publication status	Published - Nov 2021
Externally published	Yes

ASJC Scopus subject areas

Immunology and Allergy
Immunology

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Di Conza, G., Tsai, C. H., Gallart-Ayala, H., Yu, Y. R., Franco, F., Zaffalon, L., Xie, X., Li, X., Xiao, Z., Raines, L. N., Falquet, M., Jalil, A., Locasale, J. W., Percipalle, P., Masson, D., Huang, S. C. C., Martinon, F., Ivanisevic, J., & Ho, P. C. (2021). Tumor-induced reshuffling of lipid composition on the endoplasmic reticulum membrane sustains macrophage survival and pro-tumorigenic activity. Nature Immunology, 22(11), 1403-1415. https://doi.org/10.1038/s41590-021-01047-4

Di Conza, G, Tsai, CH, Gallart-Ayala, H, Yu, YR, Franco, F, Zaffalon, L, Xie, X, Li, X, Xiao, Z, Raines, LN, Falquet, M, Jalil, A, Locasale, JW, Percipalle, P, Masson, D, Huang, SCC, Martinon, F, Ivanisevic, J & Ho, PC 2021, 'Tumor-induced reshuffling of lipid composition on the endoplasmic reticulum membrane sustains macrophage survival and pro-tumorigenic activity', Nature Immunology, vol. 22, no. 11, pp. 1403-1415. https://doi.org/10.1038/s41590-021-01047-4

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abstract = "Tumor-associated macrophages (TAMs) display pro-tumorigenic phenotypes for supporting tumor progression in response to microenvironmental cues imposed by tumor and stromal cells. However, the underlying mechanisms by which tumor cells instruct TAM behavior remain elusive. Here, we uncover that tumor-cell-derived glucosylceramide stimulated unconventional endoplasmic reticulum (ER) stress responses by inducing reshuffling of lipid composition and saturation on the ER membrane in macrophages, which induced IRE1-mediated spliced XBP1 production and STAT3 activation. The cooperation of spliced XBP1 and STAT3 reinforced the pro-tumorigenic phenotype and expression of immunosuppressive genes. Ablation of XBP1 expression with genetic manipulation or ameliorating ER stress responses by facilitating LPCAT3-mediated incorporation of unsaturated lipids to the phosphatidylcholine hampered pro-tumorigenic phenotype and survival in TAMs. Together, we uncover the unexpected roles of tumor-cell-produced lipids that simultaneously orchestrate macrophage polarization and survival in tumors via induction of ER stress responses and reveal therapeutic targets for sustaining host antitumor immunity.",

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doi = "10.1038/s41590-021-01047-4",

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AU - Yu, Yi Ru

AU - Franco, Fabien

AU - Zaffalon, Lea

AU - Xie, Xin

AU - Li, Xiaoyun

AU - Xiao, Zhengtao

AU - Raines, Lydia N.

AU - Falquet, Maryline

AU - Jalil, Antoine

AU - Locasale, Jason W.

AU - Percipalle, Piergiorgio

AU - Masson, David

AU - Huang, Stanley Ching Cheng

AU - Martinon, Fabio

AU - Ivanisevic, Julijana

AU - Ho, Ping Chih

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N2 - Tumor-associated macrophages (TAMs) display pro-tumorigenic phenotypes for supporting tumor progression in response to microenvironmental cues imposed by tumor and stromal cells. However, the underlying mechanisms by which tumor cells instruct TAM behavior remain elusive. Here, we uncover that tumor-cell-derived glucosylceramide stimulated unconventional endoplasmic reticulum (ER) stress responses by inducing reshuffling of lipid composition and saturation on the ER membrane in macrophages, which induced IRE1-mediated spliced XBP1 production and STAT3 activation. The cooperation of spliced XBP1 and STAT3 reinforced the pro-tumorigenic phenotype and expression of immunosuppressive genes. Ablation of XBP1 expression with genetic manipulation or ameliorating ER stress responses by facilitating LPCAT3-mediated incorporation of unsaturated lipids to the phosphatidylcholine hampered pro-tumorigenic phenotype and survival in TAMs. Together, we uncover the unexpected roles of tumor-cell-produced lipids that simultaneously orchestrate macrophage polarization and survival in tumors via induction of ER stress responses and reveal therapeutic targets for sustaining host antitumor immunity.

AB - Tumor-associated macrophages (TAMs) display pro-tumorigenic phenotypes for supporting tumor progression in response to microenvironmental cues imposed by tumor and stromal cells. However, the underlying mechanisms by which tumor cells instruct TAM behavior remain elusive. Here, we uncover that tumor-cell-derived glucosylceramide stimulated unconventional endoplasmic reticulum (ER) stress responses by inducing reshuffling of lipid composition and saturation on the ER membrane in macrophages, which induced IRE1-mediated spliced XBP1 production and STAT3 activation. The cooperation of spliced XBP1 and STAT3 reinforced the pro-tumorigenic phenotype and expression of immunosuppressive genes. Ablation of XBP1 expression with genetic manipulation or ameliorating ER stress responses by facilitating LPCAT3-mediated incorporation of unsaturated lipids to the phosphatidylcholine hampered pro-tumorigenic phenotype and survival in TAMs. Together, we uncover the unexpected roles of tumor-cell-produced lipids that simultaneously orchestrate macrophage polarization and survival in tumors via induction of ER stress responses and reveal therapeutic targets for sustaining host antitumor immunity.

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Tumor-induced reshuffling of lipid composition on the endoplasmic reticulum membrane sustains macrophage survival and pro-tumorigenic activity

Abstract

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