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Merck

Disruption of IRE1α through its kinase domain attenuates multiple myeloma.

Proceedings of the National Academy of Sciences of the United States of America (2019-08-03)
Jonathan M Harnoss, Adrien Le Thomas, Anna Shemorry, Scot A Marsters, David A Lawrence, Min Lu, Yung-Chia Ariel Chen, Jing Qing, Klara Totpal, David Kan, Ehud Segal, Mark Merchant, Mike Reichelt, Heidi Ackerly Wallweber, Weiru Wang, Kevin Clark, Susan Kaufman, Maureen H Beresini, Steven T Laing, Wendy Sandoval, Maria Lorenzo, Jiansheng Wu, Justin Ly, Tom De Bruyn, Amy Heidersbach, Benjamin Haley, Alvin Gogineni, Robby M Weimer, Dong Lee, Marie-Gabrielle Braun, Joachim Rudolph, Michael J VanWyngarden, Daniel W Sherbenou, Patricia Gomez-Bougie, Martine Amiot, Diego Acosta-Alvear, Peter Walter, Avi Ashkenazi
RESUMEN

Multiple myeloma (MM) arises from malignant immunoglobulin (Ig)-secreting plasma cells and remains an incurable, often lethal disease despite therapeutic advances. The unfolded-protein response sensor IRE1α supports protein secretion by deploying a kinase-endoribonuclease module to activate the transcription factor XBP1s. MM cells may co-opt the IRE1α-XBP1s pathway; however, the validity of IRE1α as a potential MM therapeutic target is controversial. Genetic disruption of IRE1α or XBP1s, or pharmacologic IRE1α kinase inhibition, attenuated subcutaneous or orthometastatic growth of MM tumors in mice and augmented efficacy of two established frontline antimyeloma agents, bortezomib and lenalidomide. Mechanistically, IRE1α perturbation inhibited expression of key components of the endoplasmic reticulum-associated degradation machinery, as well as secretion of Ig light chains and of cytokines and chemokines known to promote MM growth. Selective IRE1α kinase inhibition reduced viability of CD138+ plasma cells while sparing CD138- cells derived from bone marrows of newly diagnosed or posttreatment-relapsed MM patients, in both US- and European Union-based cohorts. Effective IRE1α inhibition preserved glucose-induced insulin secretion by pancreatic microislets and viability of primary hepatocytes in vitro, as well as normal tissue homeostasis in mice. These results establish a strong rationale for developing kinase-directed inhibitors of IRE1α for MM therapy.