RNA splicing dynamics in CD8 T cells uncovers isoforms that impact T cell-mediated cancer immunotherapy

Immune checkpoint blockade has transformed cancer therapy, yet many patients fail to respond, and few new targets have emerged beyond PD-1 and CTLA-4. Alternative splicing dramatically diversifies the T cell proteome, but the functional roles of most isoforms remain unknown. Here we constructed the first single-cell splicing atlas of human CD8⁺ T cells, capturing dynamic isoform programs across activation and subset differentiation. This revealed distinct splicing footprints that refine conventional transcriptomic states and highlight receptor families with isoform-level regulation. To functionally interrogate these candidates, we developed SpliceSeek, a CRISPR-based pooled screening platform that perturbs splice sites to redirect isoform usage. Using SpliceSeek, we uncovered isoform-specific immune checkpoints whose perturbation enhanced effector function and tumor control, including the LRRN3-203 isoform, which augmented cytokine secretion and antitumor immunity in mice models. Together, our results establish alternative splicing as a targetable layer of immune regulation and demonstrate the potential of isoform-focused screening to expand the landscape of cancer immunotherapy.