Abstract
Abstract Pancreatic ductal adenocarcinoma (PDAC) is a deadly and recalcitrant malignancy with a 5-year survival rate of 12%. Transcriptomic studies have classified PDAC into a classical or basal-like subtype. The classical subtype has a better prognosis, response to chemotherapy, and express higher levels of endodermal lineage specifiers compared to the basal-like subtype. However, the field lacks a comprehensive understanding of the key subtype-specific regulators. Functional analysis of transcription factors associated with each subtype are needed to elucidate their roles in regulation of PDAC subtypes and to identify therapeutically targetable vulnerabilities. Previous work in our lab demonstrated that HNF4α is a key regulator of the classical subtype. Using genetically engineered mouse models, our lab showed that loss of HNF4α leads to an increase in tumor burden, a shift from glandular to poorly differentiated histology, and a decrease in the classical subtype score. However, while murine PDAC only express one set of HNF4α isoforms, human PDAC express both sets of HNF4α isoforms, suggesting murine PDAC may not fully recapitulate human disease. There are 2 subsets of HNF4α isoforms driven by expression from 2 distinct promoters, P1 and P2. P1 and P2 isoforms are differentially expressed within the gastrointestinal (GI) tract and play dichotomous roles in GI malignancies. In HNF4α-positive human PDAC, P2 isoforms are always expressed but there is variable expression of P1 isoforms. Based on the differential role of HNF4α isoforms in both normal tissue and cancer, we hypothesize that P1 isoforms will restrain tumor growth and promote greater classical/GI differentiation compared to P2 isoforms. We utilized CRISPRi to selectively inhibit transcription at the P1 or P2 promoter in HNF4α-positive, human cell lines expressing both isoforms. To test for sufficiency, we exogenously expressed P1 or P2 isoforms in HNF4α-negative, human cell lines. We then performed Incucyte, CRISPRi competition, and anchorage-independent growth assays. We performed RNA-seq and ChIP-seq on both exogenous and endogenous HNF4α isoforms. Functional assays revealed that HNF4α isoforms regulated growth in a context dependent manner. Exogenous P1 isoforms significantly inhibited growth while loss of endogenous P1 isoforms was dispensable for growth. Exogenous P2 isoforms inhibited growth to a lesser degree while loss of endogenous P2 isoforms led to a significant reduction in growth. Despite ChIP-seq analysis revealing very similar binding profiles, RNAseq analysis revealed that P1 isoforms are significantly more transcriptionally active than P2 isoforms and are stronger inducers of GI differentiation. Taken together, our data demonstrates that P2 isoforms are more compatible with growth in PDAC compared to P1 isoforms, which promote a more differentiated cell state. Mechanistically, this may be due to the increased transcriptional activity of P1 isoforms. Citation Format: Pengshu Fang, Acramul Kabir, Gabriela Fort, Eric L. Snyder. Characterizing the role of HNF4α isoforms in human PDAC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 3055.
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