Single-Cell RNA-Seq Identifies Immune Remodeling in Lungs of β-Carotene Oxygenase 2 Knockout Mice with Improved Antiviral Response
Yashu Tang, William Lin, Xiang Chi, Huimin Chen, Dingbo Lin, Winyoo Chowanadisai, Xufang Deng, Peiran Lu

TL;DR
This study finds that removing a carotenoid enzyme in mice changes lung immune cells and improves antiviral responses.
Contribution
The study reveals a new role for BCO2 in modulating pulmonary immunity and antiviral defense through immune remodeling.
Findings
BCO2 knockout mice showed increased conventional dendritic cells and NK cells with reduced macrophages and B cells.
BCO2 deficiency improved antiviral outcomes after SARS-CoV-2 exposure in mice.
KO lungs exhibited stress-adapted metabolic programs and altered immune cell signaling pathways.
Abstract
Background/Objectives: β-Carotene oxygenase-2 (BCO2) is a mitochondrial carotenoid-cleaving enzyme expressed in multiple tissues, including the lungs. While BCO2 regulates carotenoid handling, its role in shaping pulmonary immune architecture and antiviral responses is unknown. We hypothesized that BCO2 deficiency reprograms epithelial–innate circuits and alters antiviral outcomes. Methods: BCO2-knockout (KO) and C57BL/6J wild-type (WT) mice underwent lung single-cell RNA sequencing (scRNA-seq), immunoblotting, and intranasal SARS-CoV-2 challenge to assess cell-type heterogeneity, pathway programs (by gene set variation analysis, GSVA), and antiviral responses. Results: scRNA-seq resolved 14 major lung cell populations with cell-type-specific pathway shifts. Compared with WT, BCO2 KO lungs showed increased conventional dendritic cells and natural killer (NK) cells, with reductions in…
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Taxonomy
Topicsinterferon and immune responses · Neutrophil, Myeloperoxidase and Oxidative Mechanisms · Immune cells in cancer
