Spatially resolved T cell receptor tracking reveals γδT cell localization to tumor-rich regions in high-risk neuroblastoma: A Report from the Children's Oncology Group

High-risk neuroblastoma (HRNB) is a leading cause of pediatric cancer death. Current therapies center on intensive multimodal treatment including anti-GD2 therapy, with growing interest in harnessing T cell-mediated immunity. How T cells and their receptors (T-cell receptors, TCRs) are spatially organized and function within tumors remains poorly defined. To assess whether intratumoral location influences clonotype-specific T cell states, we profiled TCR repertoires across blood and tumor samples from 37 patients with HRNB using longitudinal bulk TCR sequencing. In a nested subset of 5 patients with paired pre- and post-therapy tumors, we integrated spatial transcriptomics with in situ TCR profiling. Across all tumors, T and B cells preferentially co-localized in immune-rich regions and showed reduced proximity to neuroblast cells. Despite this compartmentalized architecture, {gamma}{delta}T cells were more evenly distributed across tumor sections and showed greater proximity to neuroblast-rich regions than other T cell subsets. Within TCR clonotypes, spatial location was associated with distinct transcriptional states, with immune-rich regions supporting more progenitor-like programs. These findings identify spatial context as a key determinant of phenotype clonotype-specific T cell phenotype and highlight {gamma}{delta}T cells cells as a spatially distinct population with potential roles in neuroblastoma tumor-immune interactions.