Disruption of IRE1α through its kinase domain attenuates multiple myeloma

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 tran...

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Autores principales: Harnoss, Jonathan M., Le Thomas, Adrien, Shemorry, Anna, Marsters, Scot A., Lawrence, David A., Lu, Min, Chen, Yung-Chia Ariel, Qing, Jing, Totpal, Klara, Kan, David, Segal, Ehud, Merchant, Mark, Reichelt, Mike, Ackerly Wallweber, Heidi, Wang, Weiru, Clark, Kevin, Kaufman, Susan, Beresini, Maureen H., Laing, Steven T., Sandoval, Wendy, Lorenzo, Maria, Wu, Jiansheng, Ly, Justin, De Bruyn, Tom, Heidersbach, Amy, Haley, Benjamin, Gogineni, Alvin, Weimer, Robby M., Lee, Dong, Braun, Marie-Gabrielle, Rudolph, Joachim, VanWyngarden, Michael J., Sherbenou, Daniel W., Gomez-Bougie, Patricia, Amiot, Martine, Acosta-Alvear, Diego, Walter, Peter, Ashkenazi, Avi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2019
Materias:
PNAS Plus
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6697881/
https://www.ncbi.nlm.nih.gov/pubmed/31371506
http://dx.doi.org/10.1073/pnas.1906999116
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author Harnoss, Jonathan M.
Le Thomas, Adrien
Shemorry, Anna
Marsters, Scot A.
Lawrence, David A.
Lu, Min
Chen, Yung-Chia Ariel
Qing, Jing
Totpal, Klara
Kan, David
Segal, Ehud
Merchant, Mark
Reichelt, Mike
Ackerly Wallweber, Heidi
Wang, Weiru
Clark, Kevin
Kaufman, Susan
Beresini, Maureen H.
Laing, Steven T.
Sandoval, Wendy
Lorenzo, Maria
Wu, Jiansheng
Ly, Justin
De Bruyn, Tom
Heidersbach, Amy
Haley, Benjamin
Gogineni, Alvin
Weimer, Robby M.
Lee, Dong
Braun, Marie-Gabrielle
Rudolph, Joachim
VanWyngarden, Michael J.
Sherbenou, Daniel W.
Gomez-Bougie, Patricia
Amiot, Martine
Acosta-Alvear, Diego
Walter, Peter
Ashkenazi, Avi
author_facet Harnoss, Jonathan M.
Le Thomas, Adrien
Shemorry, Anna
Marsters, Scot A.
Lawrence, David A.
Lu, Min
Chen, Yung-Chia Ariel
Qing, Jing
Totpal, Klara
Kan, David
Segal, Ehud
Merchant, Mark
Reichelt, Mike
Ackerly Wallweber, Heidi
Wang, Weiru
Clark, Kevin
Kaufman, Susan
Beresini, Maureen H.
Laing, Steven T.
Sandoval, Wendy
Lorenzo, Maria
Wu, Jiansheng
Ly, Justin
De Bruyn, Tom
Heidersbach, Amy
Haley, Benjamin
Gogineni, Alvin
Weimer, Robby M.
Lee, Dong
Braun, Marie-Gabrielle
Rudolph, Joachim
VanWyngarden, Michael J.
Sherbenou, Daniel W.
Gomez-Bougie, Patricia
Amiot, Martine
Acosta-Alvear, Diego
Walter, Peter
Ashkenazi, Avi
author_sort Harnoss, Jonathan M.
collection PubMed
description 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.
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spelling pubmed-66978812019-08-19 Disruption of IRE1α through its kinase domain attenuates multiple myeloma Harnoss, Jonathan M. Le Thomas, Adrien Shemorry, Anna Marsters, Scot A. Lawrence, David A. Lu, Min Chen, Yung-Chia Ariel Qing, Jing Totpal, Klara Kan, David Segal, Ehud Merchant, Mark Reichelt, Mike Ackerly Wallweber, Heidi Wang, Weiru Clark, Kevin Kaufman, Susan Beresini, Maureen H. Laing, Steven T. Sandoval, Wendy Lorenzo, Maria Wu, Jiansheng Ly, Justin De Bruyn, Tom Heidersbach, Amy Haley, Benjamin Gogineni, Alvin Weimer, Robby M. Lee, Dong Braun, Marie-Gabrielle Rudolph, Joachim VanWyngarden, Michael J. Sherbenou, Daniel W. Gomez-Bougie, Patricia Amiot, Martine Acosta-Alvear, Diego Walter, Peter Ashkenazi, Avi Proc Natl Acad Sci U S A PNAS Plus 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. National Academy of Sciences 2019-08-13 2019-08-01 /pmc/articles/PMC6697881/ /pubmed/31371506 http://dx.doi.org/10.1073/pnas.1906999116 Text en Copyright © 2019 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/ https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle PNAS Plus
Harnoss, Jonathan M.
Le Thomas, Adrien
Shemorry, Anna
Marsters, Scot A.
Lawrence, David A.
Lu, Min
Chen, Yung-Chia Ariel
Qing, Jing
Totpal, Klara
Kan, David
Segal, Ehud
Merchant, Mark
Reichelt, Mike
Ackerly Wallweber, Heidi
Wang, Weiru
Clark, Kevin
Kaufman, Susan
Beresini, Maureen H.
Laing, Steven T.
Sandoval, Wendy
Lorenzo, Maria
Wu, Jiansheng
Ly, Justin
De Bruyn, Tom
Heidersbach, Amy
Haley, Benjamin
Gogineni, Alvin
Weimer, Robby M.
Lee, Dong
Braun, Marie-Gabrielle
Rudolph, Joachim
VanWyngarden, Michael J.
Sherbenou, Daniel W.
Gomez-Bougie, Patricia
Amiot, Martine
Acosta-Alvear, Diego
Walter, Peter
Ashkenazi, Avi
Disruption of IRE1α through its kinase domain attenuates multiple myeloma
title Disruption of IRE1α through its kinase domain attenuates multiple myeloma
title_full Disruption of IRE1α through its kinase domain attenuates multiple myeloma
title_fullStr Disruption of IRE1α through its kinase domain attenuates multiple myeloma
title_full_unstemmed Disruption of IRE1α through its kinase domain attenuates multiple myeloma
title_short Disruption of IRE1α through its kinase domain attenuates multiple myeloma
title_sort disruption of ire1α through its kinase domain attenuates multiple myeloma
topic PNAS Plus
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6697881/
https://www.ncbi.nlm.nih.gov/pubmed/31371506
http://dx.doi.org/10.1073/pnas.1906999116
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