Abstract 2717: Reintroduction of DAXX suppresses alternative lengthening of telomeres in osteosarcoma

Abstract

Abstract The unlimited proliferative capacity of cancer cells is closely linked to maintenance of their telomeres, which shorten with each cell division in normal cells. Cancer cells are able to maintain telomere length by multiple mechanisms, including activation of telomerase and the recombination based alternative lengthening of telomeres (ALT) pathway. ALT is prevalent in osteosarcoma, with approximately 50% of osteosarcoma cases using ALT for telomere maintenance. Mutations in the ATRX/DAXX chromatin remodeling complex and histone H3.3 correlate with activation of the ALT pathway in several tumor systems. While loss of ATRX is a frequent event in osteosarcoma tumors, alterations of DAXX have not been reported. We characterized the telomere maintenance mechanisms utilized by 11 osteosarcoma cell lines. Of these, 45% (5/11) were ALT positive and 45% (5/11) were telomerase positive. One cell line possessed features of both telomere maintenance mechanisms. Among ALT positive osteosarcoma cell lines, we observed frequent loss of ATRX expression (4/5) and a previously unreported translocation resulting in disruption of DAXX. The translocation abolishes recruitment of DAXX to nuclear PML bodies and prevents normal DAXX function. By reintroducing full length DAXX, we were able to suppress telomere maintenance by ALT as evidenced by multiple assays including loss of C-circles and ALT-associated PML bodies, thus demonstrating that continued DAXX deficiency is necessary for maintenance of the ALT mechanism. Suppression of ALT by DAXX reintroduction did not result in compensatory activation of telomerase. This first demonstration of ALT suppression by DAXX supports a mechanistic connection between loss of the ATRX/DAXX chromatin remodeling complex and telomere maintenance by ALT. Understanding this relationship may uncover vulnerabilities specific to ALT tumors that could potentially lead to the development of targeted therapies for diverse cancers that depend on the ALT pathway. Citation Format: Kathryn E. Driest, Joshua J. Waterfall, Robert L. Walker, Marbin A. Pineda, Ogan Abaan, Yuelin J. Zhu, Yonghong Wang, Corbin D. Ester, Sean R. Davis, Sven Bilke, Paul S. Meltzer. Reintroduction of DAXX suppresses alternative lengthening of telomeres in osteosarcoma. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2717.