Abstract 6686: Direct-Seq™ enables spatially resolved in situ sequencing of IgH and TCRβ transcripts in FFPE tissue at subcellular resolution

Abstract Spatial multi-omics is transforming our understanding of the tumor microenvironment, immune responses, and disease mechanisms. A critical gap remains in the ability to sequence highly variable transcript regions in situ at single-cell and subcellular resolution, essential for mapping B- and T-cell clonotypes in their native tissue context. Here, we present Direct-Seq™, a novel in situ sequencing approach built on the G4X™ in situ multiomic platform, enabling high-resolution profiling of RNA variable regions. Direct-Seq employs probes targeting the V and J regions flanking the diverse CDR3 domain of IgH and TCRβ transcripts, allowing sequencing of both the J and CDR3 regions. The workflow integrates in situ reverse transcription, amplification, and sequencing-by-synthesis chemistry. We applied Direct-Seq to 5-µm FFPE tonsil and renal cell carcinoma (RCC) sections and 10-µm fresh frozen tonsil sections. Up to 9% of B cells were profiled in FFPE tonsil, and ∼20% of B and T cells in fresh frozen tissue. Extensive CDR3 diversity was detected, with clonally expanded B cells carrying highly similar CDR3 sequences localized within germinal centers, demonstrating the high-resolution clonotyping capacity of Direct-Seq. In Renal Cell Carcinoma (RCC), nine serial FFPE kidney sections revealed clonally expanded B-cell populations enriched around tumor regions and T-cell clones with persistent expansion. One dominant T-cell clone was consistently detected across serial sections, highlighting the method’s robustness and ability to track clonal populations spatially. Direct-Seq was combined with multiplexed protein detection on the same sections, confirming spatial concordance between transcript identity and protein phenotype. Together, these results establish Direct-Seq as a high-resolution, scalable approach for spatial immune repertoire mapping in both FFPE and fresh frozen tissue, enabling detailed studies of clonality, immune architecture, and translational immunology. Citation Format: Michael Lawson, Tung T. Le, Ryan Shultzaberger, Ashley Tsue, Zane Hiatt, Nathan Ing, Kenneth Gouin, Eli Glezer, Daan Witters. Direct-Seq™ enables spatially resolved in situ sequencing of IgH and TCRβ transcripts in FFPE tissue at subcellular resolution abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2026; Part 1 (Regular Abstracts); 2026 Apr 17-22; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2026;86(7 Suppl):Abstract nr 6686.