Targeting SMYD3 to Sensitize Homologous Recombination-Proficient Tumors to PARP-Mediated Synthetic Lethality

Authors :: Silvia Corbetta
Cristiano Simone
Stefania Bertora
Vittoria Disciglio
Gianluigi Giannelli
Valeria Di Maio
Manuela Bartolini
Elisabetta Manoni
Katia De Marco
Laura Ottini
Candida Fasano
Giacomo Buscemi
Virginia Valentini
Natale Porta
Martina Lepore Signorile
Edoardo Fabini
Valentina Silvestri
Giovanna Forte
Paola Sanese
Cinzia Bottino
Valentina Grossi
Giuseppina Caretti
Alberto Del Rio
Source :: SSRN Electronic Journal.
Publication Year :: 2020
Publisher :: Elsevier BV, 2020.
Abstract: SMYD3 is frequently overexpressed in a wide variety of cancers. Indeed, its inactivation reduces tumor growth in preclinical in vivo animal models. However, extensive characterization in vitro failed to clarify SMYD3 function in cancer cells, although confirming its importance in carcinogenesis. Taking advantage of a SMYD3 mutant variant identified in a high-risk breast cancer family, here we show that SMYD3 phosphorylation by ATM enables the formation of a multiprotein complex including ATM, SMYD3, CHK2, and BRCA2, which is required for the final loading of RAD51 at DNA double-strand break sites and completion of homologous recombination (HR). Remarkably, SMYD3 pharmacological inhibition sensitizes HR-proficient cancer cells to PARP inhibitors, thereby extending the potential of the synthetic lethality approach in human tumors.

Subjects :: DNA repair
Chemistry
Cancer cell
Mutant
RAD51
medicine
Cancer research
Synthetic lethality
Ovarian cancer
medicine.disease
Homologous recombination
Carcinogenesis
medicine.disease_cause

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