A B cell-IgA-epithelial axis enhances antitumor immunity and improves outcome in HPV-associated penile squamous cell carcinoma.
Tao Tao, Lianbang Zhu, Deyun Shen, Jiayang Zhang, Panrui Zhang, Zhixi Gu, Dan Cao, Jun Xiao, Wen Pan
Abstract
Open AccessPenile squamous cell carcinoma (PSCC) is a rare, aggressive malignancy, with HPV driving approximately 50% of cases and correlating with improved outcomes. In this study, we perform single-cell RNA sequencing on tumor microenvironment (TME) cells from 23 treatment-naive PSCC patients, including 11 cases reported previously, and validate our findings in a larger cohort of 85 patients. Our analysis reveals significant immune cell infiltration in PSCC, with HPV+ tumors exhibiting elevated levels of tumor-infiltrating B cells, plasma cells, tertiary lymphoid structures, and IgA secretion. A subset of malignant epithelial cells in HPV+ PSCC express the polymeric IgA receptor (PIGR), facilitating IgA transcytosis and inducing anti-tumor responses. Functional studies show that PIGR overexpression promotes tumor apoptosis and enhances immune responses, with these effects diminish in IgA-deficient mice. Elevated IgA and PIGR expression correlate with improved survival. These findings provide a single-cell atlas of the PSCC TME, highlighting the B cell-IgA-PIGR axis as a pivotal driver of antitumor immunity and clinical outcomes in HPV+ PSCC.