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Temporal evolution reveals bifurcated lineages in aggressive neuroendocrine small cell prostate cancer trans-differentiation

Chia-Chun Chen, Wendy Tran, Kai Song, Tyler Sugimoto, Matthew B. Obusan, Liang Wang, Katherine M. Sheu, Donghui Cheng, Lisa Ta, Grigor Varuzhanyan, Arthur Huang, Runzhe Xu, Yuanhong Zeng, Amirreza Borujerdpur, Nicholas Bayley, Miyako Noguchi, Zhiyuan Mao, Colm Morrissey, Eva Corey, Peter S. Nelson, Yue Zhao, Jiaoti Huang, Jung Wook Park, Owen N. Witte, Thomas G. Graeber

2023Cancer Cell72 citationsDOIOpen Access PDF

Abstract

Trans-differentiation from an adenocarcinoma to a small cell neuroendocrine state is associated with therapy resistance in multiple cancer types. To gain insight into the underlying molecular events of the trans-differentiation, we perform a multi-omics time course analysis of a pan-small cell neuroendocrine cancer model (termed PARCB), a forward genetic transformation using human prostate basal cells and identify a shared developmental, arc-like, and entropy-high trajectory among all transformation model replicates. Further mapping with single cell resolution reveals two distinct lineages defined by mutually exclusive expression of ASCL1 or ASCL2. Temporal regulation by groups of transcription factors across developmental stages reveals that cellular reprogramming precedes the induction of neuronal programs. TFAP4 and ASCL1/2 feedback are identified as potential regulators of ASCL1 and ASCL2 expression. Our study provides temporal transcriptional patterns and uncovers pan-tissue parallels between prostate and lung cancers, as well as connections to normal neuroendocrine cell states.

Topics & Concepts

Neuroendocrine differentiationBiologyProstate cancerReprogrammingCellular differentiationTranscriptomeTranscription factorDevelopmental biologyProstateCancer researchGeneticsCancerCellGene expressionGeneLung Cancer Research StudiesGenomics and Chromatin DynamicsImmunotherapy and Immune Responses