Abstract
Abstract Here we describe a small-molecule inhibitor (SMI) that disrupts the tissue transglutaminase 2 (TG2)-fibronectin (FN) interaction. TG2 is a multifunctional protein, with enzymatic (transglutaminase, isopeptidase, protein disulfide isomerase), GTPase, and extracellular matrix (ECM) scaffold activities. TG2 directly interacts with FN through its N-terminus domain, playing an important role in stabilizing ternary TG2/FN/integrin complexes, which regulate cell adhesion to the matrix. Our group has previously shown that TG2 overexpressed in ovarian cancer (OC) promotes epithelial-to-mesenchymal transition (EMT) contributing to OC cell invasiveness and metastatic behavior. We showed that the interaction with FN is critical to these functions. Proximity ligation assay was used to measure TG2/integrin beta 1 interaction in OC tumors and identified TG2/integrin beta 1 complex in >50% of ovarian tumors, irrespective of histologic type. Based on those findings, we conducted the high-throughput screening and identified TG53 as the lead TG2/FN inhibitory compound. Structure-activity relationship-based approach was used to optimize the physicochemical properties of TG53, leading to design and chemical synthesis of 6 analogues (MT1-6). All analogues blocked TG2/FN interaction, as measured by an ELISA assay, and OC cell adhesion to FN, as measured by a solid phase assay, MT4 being the most potent inhibitor. MT4 downregulates integrin-initiated signaling in OC cells, leading to downstream inhibition of FAK and ERK. Immunofluorescence staining demonstrated that the actin cytoskeleton adopts a cortical localization pattern in MT4-treated cells. MT4 caused membrane ruffling delaying the formation of stable focal contacts and mature adhesions points. Pretreatment with MT4 sensitized OC cells to paclitaxel, as measured by colony-forming assay. In an intraperitoneal OC mouse model, MT4 caused decreased OC cell adhesion to the peritoneum, inhibiting peritoneal dissemination. Hence, MT4 is a potential candidate to be developed and used in combination with current chemotherapeutics to target OC tumor progression. Further studies will continue to optimize this new class of TG2/FN SMIs for potential clinical use in OC. Citation Format: Livia Elena Sima, Bakhtiyor Yakubov, Salvatore Condello, Horacio Cardenas, Zhong Yin Zhang, Lan Chen, Daniela Elena Matei. The tissue transglutaminase 2–fibronectin protein complex: A new target in ovarian cancer. [abstract]. In: Proceedings of the AACR Conference: Addressing Critical Questions in Ovarian Cancer Research and Treatment; Oct 1-4, 2017; Pittsburgh, PA. Philadelphia (PA): AACR; Clin Cancer Res 2018;24(15_Suppl):Abstract nr A66.
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