Abstract Pancreatic ductal adenocarcinoma (PDAC) is characterized by profound intratumoral heterogeneity and cellular plasticity, which drive therapeutic resistance. While molecular subtyping into classical and basal-like states has provided a framework, the biology of cells transitioning between these phenotypes remains poorly understood. This study aimed to characterize and validate a transitional, co-expressor cell state at the single-cell, spatial, and proteomic levels to elucidate mechanisms of subtype plasticity. We employed an integrative, multi-platform approach combining single-cell RNA sequencing (scRNA-seq), multiplex immunohistochemistry (mIHC), and laser microdissection with mass spectrometry-based proteomics (LMD-MS) to investigate tumor cells co-expressing the classical marker GATA6 and the basal-like marker KRT17. scRNA-seq analysis revealed that a significant population of tumor cells co-expresses GATA6 and KRT17, existing along a transcriptional continuum between the classical and basal-like poles. Pseudotime trajectory analysis identified a path from the GATA6+ classical state towards the KRT17+/GATA6+ transitional state, governed by the upregulation of pathways including MYC signaling and epithelial-mesenchymal transition (EMT). To validate these findings spatially, mIHC confirmed the presence of KRT17+/GATA6+ double-positive cells, frequently located at the interface between well-differentiated, GATA6-rich glandular structures and poorly differentiated, KRT17-rich infiltrative fronts. Furthermore, LMD-MS was used to provide proteomic confirmation. By isolating pure populations of GATA6+ and double-positive cells, we confirmed that transitional cells are enriched in proteins associated with metabolic reprogramming and cellular motility. Our findings demonstrate that PDAC plasticity is not a simple switch but a dynamic continuum involving a tangible transitional cell state. These co-expressor cells, with their unique metabolic and signaling dependencies, represent a key driver of tumor progression and a potential reservoir for therapeutic resistance. Targeting the specific vulnerabilities of this transitional phenotype offers a promising strategy to overcome plasticity, prevent relapse, and improve therapeutic outcomes in PDAC. Citation Format: Lyanne A. Delgado Coka, Jorge Villar Samaniego, Thomas Beggs, Anastasia Terbaci, Tristan Kwai, Karen Bai, Natalia Marchenko, Scott Powers, Luisa Escobar Hoyos, Kenneth Shroyer. Multimodal Validation of a Plastic Transitional State in Pancreatic Ductal Adenocarcinoma abstract. In: Proceedings of the AACR Special Conference in Cancer Research: Advances in Pancreatic Cancer Research—Emerging Science Driving Transformative Solutions; Boston, MA; 2025 Sep 28-Oct 1; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2025;85 (18Suppl₃): Abstract nr B122.
Coka et al. (Sun,) studied this question.
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