Abstract 7070: MEK-ERK signaling maintains epidermal proliferation through H2A.Z deposition

Abstract

Abstract Recent studies have connected dysregulation of H2A.Z deposition to glioblastoma as well as lung, pancreatic, and metastatic breast cancers. The H2AZ1 and H2AZ2 isoforms, collectively known as H2A.Z, are histone variants that regulate gene expression, stem cell identity, and differentiation during development and in homeostatic tissue. Most tumors originate from epithelial tissues. We utilize skin epidermis, an accessible model of epithelial tissue, to understand the regulatory mechanisms controlling proliferation and differentiation. Primary human epidermal keratinocytes retain their abilities to proliferate, differentiate, and stratify in vitro. First, we observed that progenitor keratinocytes express high levels of H2A.Z mRNA and protein, and that H2A.Z levels significantly and progressively decrease during four days of calcium-induced differentiation. Using ChIP-sequencing, we find a significant, genome-wide decrease in H2A.Z chromatin occupancy in differentiated keratinocytes. Therefore, we hypothesized that H2A.Z is critical for progenitor function. Knock down of either H2AZ1 or H2AZ2 significantly impaired keratinocyte proliferation in holoclone assays. Furthermore, H2AZ1 or H2AZ2 knockdown inhibited epidermal stratification in organotypic culture. Canonically, two chromatin remodeling complexes, SRCAP and EP400, deposit H2A.Z into nucleosomes. While both SRCAP and EP400 knockdown diminish keratinocyte proliferation, only SRCAP knockdown decreases H2A.Z deposition in epidermal keratinocytes. Finally, we find that MEK and ERK signaling is required to sustain expression of SRCAP, H2AZ1, and H2AZ2. MEK or ERK inhibition is sufficient to significantly decrease H2A.Z occupancy genome-wide in progenitor keratinocytes. Citation Format: Stephenie Droll, Benny Zhang, Celia Xue, Maxwell Levine, Xiaomin Bao. MEK-ERK signaling maintains epidermal proliferation through H2A.Z deposition [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 7070.