Single-cell transcriptomics redefines focal neuroendocrine differentiation as a distinct prostate cancer pathology.

Neuroendocrine prostate cancer (NEPC) tumours are classified by pathology into several distinct subtypes. Gene expression profiling has revealed transcriptional heterogeneity across NEPC, but this is rarely considered in the context of variation between pathologies. Diagnosis typically relies on immunohistochemical markers (CHGA, SYP, NCAM1) and genomic alterations in RB1, PTEN and TP53. We hypothesized that NEPC pathologies have unique transcriptional features. Single-cell RNA sequencing of 18 632 tumour cells from nine patient-derived xenograft models representing five pathologies (small-cell and large-cell neuroendocrine carcinomas, focal neuroendocrine differentiation (Focal NED), low-grade neuroendocrine and amphicrine) demonstrated pathway-specific enrichment. Focal NED and amphicrine tumours exhibited cellular subpopulations enriched for KRAS, IL2-STAT5 and TNF signalling pathways, absent in small- and large-cell carcinomas, which were instead enriched for Myc and E2F pathways. Furthermore, focal NED cells exhibited minimal clonal divergence from adjacent adenocarcinoma cells, while small cell carcinoma cells were clonally distinct. These data underscore significant transcriptional variation among NEPC pathologies, highlighting focal NED's unique biological context and its clinical implications.