Abstract 799: HLTF and SHPRH in Mismatch Repair and Cancer

Abstract Colorectal cancer (CRC) is one of the leading causes of cancer deaths, with an increasing rate of CRC diagnosis in younger individuals. MMR is the DNA repair mechanism that repairs DNA mispairs and small insertions or deletions remaining after replication. MMR is also required for apoptosis after certain types of exogenous DNA damage that result in damage-associated mispairs. MMR defects are the underlying cause of Lynch syndrome, a familial cancer predisposition syndrome that increases susceptibility to multiple cancers, specifically colorectal cancer. MMR defects are also commonly found in sporadic colorectal cancers. Model systems such as Saccharomyces cerevisiae, Escherichia coli, and human cell lines have been used to study the MMR proteins and pathways. The basics of the MMR mechanism are fairly well understood; however, proteins associated with MMR are still being identified, and the roles of these proteins are largely unknown. We have identified the yeast protein Rad5 as an interactor with the yeast MMR proteins Msh2 and Mlh1. Rad5 is a helicase and an E3 ubiquitin ligase which is involved in post-replicative repair and damage tolerance. However, to date, Rad5 has no known role in MMR. We have determined that these interactions are conserved through evolution to human Rad5 homologs, HLTF and SHPRH. The Rad5 interactions with Mlh1 and Msh2 appear to be split between the human homologs with human Msh2 interacting with HLTF and human Mlh1 interacting with SHPRH. We have found that loss of SHPRH induces resistance to MMR-mediated apoptosis. Current experiments are in progress to determine the binding sites between these proteins. We are also investigating what functional impact the Rad5 homologs have on mutation rate and MMR-induced apoptosis and how the interactions affect the roles of MMR. Together this will allow for a deeper understanding of how accessory proteins may influence canonical and non-canonical MMR. Since MMR status is currently used to determine patient treatment, understanding how commonly mutated accessory factors interact is critical. Citation Format: Anna Kristin Miller, Guogen Mao, Christine Rahal, Christopher Putnam, Eva Goellner. HLTF and SHPRH in mismatch repair and cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 799.