Abstract 2025: Characterization of cancer cell lines made senescent by exposure to ribociclib, doxorubicin, or TGFβ1, and identification of genes required for entry into senescence and senescent cell survival

Abstract

Abstract Cellular senescence is a stress-induced state of stable growth arrest characterized by high expression of cell cycle inhibitors; a dramatic change in cell morphology, including an increase in lysosomal content; and secretion of large numbers of proteins involved in immune signaling and extracellular matrix remodeling. The physiological importance of cellular senescence has been attributed to prevention of carcinogenesis, aging, development, and tissue repair, and tumor cells can undergo senescence in response to therapeutic agents. In this work, we sought to validate the senescence-inducing activity of two known inducers (doxorubicin and TGFβ1) and a CDK4/6 inhibitor (ribociclib) and to identify proteins that can kill senescent tumor cells (senolytic targets) if knocked out and to identify downstream components of the tumor cell senescence pathway. Huh7 hepatocellular carcinoma cells and SK-MEL-28 melanoma cells were induced to senescence by treatment with three different agents: ribociclib, low doses of doxorubicin, or TGFβ1. The induction of senescence was confirmed by observing growth arrest, an increase in SA-β-gal staining, dramatic cell morphology changes, loss of c-Myc protein, increased expression of p15, and increased expression of senescence-associated secretory phenotype (SASP) proteins. Induction of SASP components was measured by RNAseq and SOMAscan. All three agents induced a senescent state, with blockage at different stages of the cell cycle observed. Induction of known immune factors, including IL-8 and IL-11, were identified in senescent cells (Huh7). A whole-genome CRISPR screen identified proteins required to enter senescence and those that were incompatible with the senescent state if knocked out. Expected hits were observed (eg, TGFBR1/TGFBR2 for TGFβ1, RB for ribociclib, and TOP2A for doxorubicin) for guide DNAs (gDNAs) that blocked entry into the senescent state. No gDNA candidates for common downstream senescence pathway components were observed, suggesting that these components are essential genes or that they do not exist. gDNA-induced knockouts that were incompatible with the senescent state dropped out of the screen and represent potential senolytic targets. The screen identified BCL2L1 as the only common senolytic hit across multiple senescence-inducing reagents, confirming published reports suggesting it is a senolytic target. These data show that ribociclib, doxorubicin, and TGFβ1 induced senescence in cancer cell lines. Whole-genome CRISPR screens identified senescence pathway components for each of these agents, as well as a common senolytic target. Citation Format: Pasupuleti Rao, Jennifer Tullai, Peter Aspesi, Felipa Mapa, Nadire Cochran, Frederic Sigoillot, Guglielmo Roma, Scott Gleim, Jaison Jacob, Jason Marchese, Jonathan Solomon. Characterization of cancer cell lines made senescent by exposure to ribociclib, doxorubicin, or TGFβ1, and identification of genes required for entry into senescence and senescent cell survival [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2025.