Project description:Cancers with microsatellite instability (MSI) depend on the WRN helicase enzyme to manage issues during DNA replication caused by long stretches of (TA) repeats in the DNA. Targeting WRN is a promising strategy for treating MSI cancers, and drugs that inhibit WRN are being developed. Through a process called fragment-based screening, we developed powerful and specific drugs that block WRN's action. These drugs effectively slowed down the growth of MSI cancer models in lab and animal studies by acting like WRN is absent, leading to DNA breaks at the long TA repeats and causing DNA damage. The development of these potent and specific drugs targeting WRN in MSI cancers proves that this approach can work and also helps us understand more about WRN's role in biology.

Project description:TrAEL-seq for WRN inhibitors

Project description:Synthetic lethality is a powerful approach for targeting oncogenic drivers in cancer. Recent studies revealed that cancer cells with microsatellite instability (MSI) require Werner (WRN) helicase for survival; however, the underlying mechanism remains unclear. In this study, we found that WRN depletion strongly induced p53 and its downstream apoptotic target PUMA in MSI colorectal cancer (CRC) cells. p53 or PUMA deletion abolished apoptosis induced by WRN depletion in MSI CRC cells. Importantly, correction of MSI abrogated the activation of p53/PUMA and cell killing, while induction of MSI led to sensitivity in isogenic CRC cells. Rare p53-mutant MSI CRC cells are resistant to WRN depletion due to lack of PUMA induction, which could be restored by wildtype p53 knock-in or reconstitution. WRN depletion or treatment with the RecQ helicase inhibitor ML216 suppressed in vitro and in vivo growth of MSI CRCs in a p53/PUMA_x0002_dependent manner. ML216 treatment was efficacious in MSI CRC patient-derived xenografts (PDX). Interestingly, p53 gene remains wildtype in the majority of MSI CRCs. These results indicate a critical role of p53/PUMA-mediated apoptosis in the vulnerability of MSI CRCs to WRN loss, and support WRN as a promising therapeutic target in p53-wildtype MSI CRCs.

Project description:TrAEL-seq with WRN inhibitors in sensitive and resistant cells

Project description:Our study uncovers a distinct biomarker for MSI that underlies the synthetic lethal dependence on WRN, thereby supporting the development of WRN-based therapeutics

Project description:Our study uncovers a distinct biomarker for MSI that underlies the synthetic lethal dependence on WRN, thereby supporting the development of WRN-based therapeutics

Project description:Our study uncovers a distinct biomarker for MSI that underlies the synthetic lethal dependence on WRN, thereby supporting the development of WRN-based therapeutics

Project description:Our study uncovers a distinct biomarker for MSI that underlies the synthetic lethal dependence on WRN, thereby supporting the development of WRN-based therapeutics

Project description:Metabolic dysfunction is one of the main symptoms of Werner syndrome (WS); however, the underlying mechanisms remain unclear. Here, we report that loss of WRN accelerates adipogenesis at an early stage both in vitro (stem cells) and in vivo (zebrafish). Moreover, WRN depletion causes a transient upregulation of late-stage of adipocyte-specific genes at an early stage.

Project description:Discovery and characterization of a novel WRN inhibitor