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Olfactory neuroblastoma mimics molecular heterogeneity and lineage trajectories of small-cell lung cancer

John B. Finlay, Abbie S. Ireland, Sarah B. Hawgood, Tony Reyes, Tiffany Ko, Rachelle R. Olsen, Ralph Abi Hachem, David W. Jang, Diana Bell, Joseph M. Chan, Bradley J. Goldstein, Trudy G. Oliver

2024Cancer Cell33 citationsDOIOpen Access PDF

Abstract

The olfactory epithelium undergoes neuronal regeneration from basal stem cells and is susceptible to olfactory neuroblastoma (ONB), a rare tumor of unclear origins. Employing alterations in Rb1/Trp53/Myc (RPM), we establish a genetically engineered mouse model of high-grade metastatic ONB exhibiting a NEUROD1+ immature neuronal phenotype. We demonstrate that globose basal cells (GBCs) are a permissive cell of origin for ONB and that ONBs exhibit cell fate heterogeneity that mimics normal GBC developmental trajectories. ASCL1 loss in RPM ONB leads to emergence of non-neuronal histopathologies, including a POU2F3+ microvillar-like state. Similar to small-cell lung cancer (SCLC), mouse and human ONBs exhibit mutually exclusive NEUROD1 and POU2F3-like states, an immune-cold tumor microenvironment, intratumoral cell fate heterogeneity comprising neuronal and non-neuronal lineages, and cell fate plasticity—evidenced by barcode-based lineage tracing and single-cell transcriptomics. Collectively, our findings highlight conserved similarities between ONB and neuroendocrine tumors with significant implications for ONB classification and treatment.

Topics & Concepts

NeuroblastomaLung cancerLineage (genetic)Cancer researchBiologyCell lineageCellComputational biologyCellular differentiationGeneticsGeneMedicineCell culturePathologyLung Cancer Research StudiesHead and Neck Surgical OncologyFibroblast Growth Factor Research