Splicing modulation sensitizes chronic lymphocytic leukemia cells to venetoclax by remodeling mitochondrial apoptotic dependencies
Elisa ten Hacken, Rebecca Valentin, Fara Faye D. Regis, Jing Sun, Shanye Yin, Lillian Werner, Jing Deng, Michaela Gruber, Jessica Wong, Mei Zheng, Amy L. Gill, Michael Seiler, Peter Smith, Michael Thomas, Silvia Buonamici, Emanuela M. Ghia, Ekaterina Kim, Laura Z. Rassenti, Jan A. Burger, Thomas J. Kipps, Matthew L. Meyerson, Pavan Bachireddy, Lili Wang, Robin Reed, Donna Neuberg, Ruben D. Carrasco, Angela N. Brooks, Anthony Letai, Matthew S. Davids, Catherine J. Wu
Elisa ten Hacken, Rebecca Valentin, Fara Faye D. Regis, Jing Sun, Shanye Yin, Lillian Werner, Jing Deng, Michaela Gruber, Jessica Wong, Mei Zheng, Amy L. Gill, Michael Seiler, Peter Smith, Michael Thomas, Silvia Buonamici, Emanuela M. Ghia, Ekaterina Kim, Laura Z. Rassenti, Jan A. Burger, Thomas J. Kipps, Matthew L. Meyerson, Pavan Bachireddy, Lili Wang, Robin Reed, Donna Neuberg, Ruben D. Carrasco, Angela N. Brooks, Anthony Letai, Matthew S. Davids, Catherine J. Wu
View: Text | PDF
Research Article Hematology Therapeutics

Splicing modulation sensitizes chronic lymphocytic leukemia cells to venetoclax by remodeling mitochondrial apoptotic dependencies

Abstract

The identification of targetable vulnerabilities in the context of therapeutic resistance is a key challenge in cancer treatment. We detected pervasive aberrant splicing as a characteristic feature of chronic lymphocytic leukemia (CLL), irrespective of splicing factor mutation status, which was associated with sensitivity to the spliceosome modulator, E7107. Splicing modulation affected CLL survival pathways, including members of the B cell lymphoma-2 (BCL2) family of proteins, remodeling antiapoptotic dependencies of human and murine CLL cells. E7107 treatment decreased myeloid cell leukemia-1 (MCL1) dependence and increased BCL2 dependence, sensitizing primary human CLL cells and venetoclax-resistant CLL-like cells from an Eμ-TCL1–based adoptive transfer murine model to treatment with the BCL2 inhibitor venetoclax. Our data provide preclinical rationale to support the combination of venetoclax with splicing modulators to reprogram apoptotic dependencies in CLL for treating venetoclax-resistant CLL cases.

Authors

Elisa ten Hacken, Rebecca Valentin, Fara Faye D. Regis, Jing Sun, Shanye Yin, Lillian Werner, Jing Deng, Michaela Gruber, Jessica Wong, Mei Zheng, Amy L. Gill, Michael Seiler, Peter Smith, Michael Thomas, Silvia Buonamici, Emanuela M. Ghia, Ekaterina Kim, Laura Z. Rassenti, Jan A. Burger, Thomas J. Kipps, Matthew L. Meyerson, Pavan Bachireddy, Lili Wang, Robin Reed, Donna Neuberg, Ruben D. Carrasco, Angela N. Brooks, Anthony Letai, Matthew S. Davids, Catherine J. Wu

×

Figure 7

Schematic representation of the “mitochondrial remodeling model.”

Options: View larger image (or click on image) Download as PowerPoint
Schematic representation of the “mitochondrial remodeling model.” The sp...
The splicing modulator E7107 redirects apoptotic dependencies in CLL. In the context of primary CLL, BCL2 dependence and venetoclax sensitivity can be increased following splicing modulation by E7107. In the context of a venetoclax-resistant model, such as the TCL1 mouse, MCL1 dependence contributes to venetoclax resistance and can be targeted by E7107 treatment, favoring venetoclax sensitivity. Mitochondrial antiapoptotic dependencies before and after E7107 treatment of CLL or TCL1 cells are highlighted (red, BCL2; blue, MCL1; yellow, BFL1; green, BCLxL).