Combined protein and nucleic acid imaging reveals virus-dependent B cell and macrophage immunosuppression of tissue microenvironments

Sizun Jiang; Chi Ngai Chan; Xavier Rovira‐Clavé; Han Chen; Yunhao Bai; Bokai Zhu; Erin McCaffrey; Noah F. Greenwald; Candace Liu; Graham L. Barlow; Jason L. Weirather; John Paul Oliveria; Tsuguhisa Nakayama; Ivan T. Lee; Matthias S. Matter; Anne E. Carlisle; Darci Philips; Gustavo Vazquez; Nilanjan Mukherjee; Kathleen Busman‐Sahay; Michael Nekorchuk; Margaret Terry; Skyler Younger; Marc Bossé; János Demeter; Scott J. Rodig; Alexandar Tzankov; Yury Goltsev; David R. McIlwain; Michael Angelo; Jacob D. Estes; Garry P. Nolan

doi:10.1016/j.immuni.2022.03.020

Combined protein and nucleic acid imaging reveals virus-dependent B cell and macrophage immunosuppression of tissue microenvironments

Sizun Jiang(Beth Israel Deaconess Medical Center), Chi Ngai Chan(Oregon Health & Science University), Xavier Rovira‐Clavé(Stanford University), Han Chen(Stanford University), Yunhao Bai(Stanford University), Bokai Zhu(Stanford University), Erin McCaffrey(Stanford University), Noah F. Greenwald(Stanford University), Candace Liu(Stanford University), Graham L. Barlow(Stanford University), Jason L. Weirather(Dana-Farber Cancer Institute), John Paul Oliveria(Stanford University), Tsuguhisa Nakayama(Jikei University School of Medicine), Ivan T. Lee(Stanford University), Matthias S. Matter(University of Basel), Anne E. Carlisle(Dana-Farber Cancer Institute), Darci Philips(Stanford University), Gustavo Vazquez(Stanford University), Nilanjan Mukherjee(Stanford University), Kathleen Busman‐Sahay(Oregon Health & Science University), Michael Nekorchuk(Oregon Health & Science University), Margaret Terry(Oregon Health & Science University), Skyler Younger(Oregon Health & Science University), Marc Bossé(Stanford University), János Demeter(Stanford University), Scott J. Rodig(Brigham and Women's Hospital), Alexandar Tzankov(University of Basel), Yury Goltsev(Stanford University), David R. McIlwain(Stanford University), Michael Angelo(Stanford University), Jacob D. Estes(Oregon National Primate Research Center), Garry P. Nolan(Stanford University)

Immunity

April 20, 2022

10.1016/j.immuni.2022.03.020

Cited by 91Open Access

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Abstract

Understanding the mechanisms of HIV tissue persistence necessitates the ability to visualize tissue microenvironments where infected cells reside; however, technological barriers limit our ability to dissect the cellular components of these HIV reservoirs. Here, we developed protein and nucleic acid in situ imaging (PANINI) to simultaneously quantify DNA, RNA, and protein levels within these tissue compartments. By coupling PANINI with multiplexed ion beam imaging (MIBI), we measured over 30 parameters simultaneously across archival lymphoid tissues from healthy or simian immunodeficiency virus (SIV)-infected nonhuman primates. PANINI enabled the spatial dissection of cellular phenotypes, functional markers, and viral events resulting from infection. SIV infection induced IL-10 expression in lymphoid B cells, which correlated with local macrophage M2 polarization. This highlights a potential viral mechanism for conditioning an immunosuppressive tissue environment for virion production. The spatial multimodal framework here can be extended to decipher tissue responses in other infectious diseases and tumor biology.

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