Hyperphosphorylation of BCL-2 family proteins underlies functional resistance to venetoclax in lymphoid malignancies
Stephen Jun Fei Chong, … , Constantine S. Mitsiades, Matthew S. Davids
Stephen Jun Fei Chong, … , Constantine S. Mitsiades, Matthew S. Davids
Published September 26, 2023
Citation Information: J Clin Invest. 2023;133(22):e170169. https://doi.org/10.1172/JCI170169.
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Research Article Hematology Oncology

Hyperphosphorylation of BCL-2 family proteins underlies functional resistance to venetoclax in lymphoid malignancies

Abstract

The B cell leukemia/lymphoma 2 (BCL-2) inhibitor venetoclax is effective in chronic lymphocytic leukemia (CLL); however, resistance may develop over time. Other lymphoid malignancies such as diffuse large B cell lymphoma (DLBCL) are frequently intrinsically resistant to venetoclax. Although genomic resistance mechanisms such as BCL2 mutations have been described, this probably only explains a subset of resistant cases. Using 2 complementary functional precision medicine techniques — BH3 profiling and high-throughput kinase activity mapping — we found that hyperphosphorylation of BCL-2 family proteins, including antiapoptotic myeloid leukemia 1 (MCL-1) and BCL-2 and proapoptotic BCL-2 agonist of cell death (BAD) and BCL-2 associated X, apoptosis regulator (BAX), underlies functional mechanisms of both intrinsic and acquired resistance to venetoclax in CLL and DLBCL. Additionally, we provide evidence that antiapoptotic BCL-2 family protein phosphorylation altered the apoptotic protein interactome, thereby changing the profile of functional dependence on these prosurvival proteins. Targeting BCL-2 family protein phosphorylation with phosphatase-activating drugs rewired these dependencies, thus restoring sensitivity to venetoclax in a panel of venetoclax-resistant lymphoid cell lines, a resistant mouse model, and in paired patient samples before venetoclax treatment and at the time of progression.

Authors

Stephen Jun Fei Chong, Fen Zhu, Olga Dashevsky, Rin Mizuno, Jolin X.H. Lai, Liam Hackett, Christine E. Ryan, Mary C. Collins, J. Bryan Iorgulescu, Romain Guièze, Johany Penailillo, Ruben Carrasco, Yeonjoo C. Hwang, Denise P. Muñoz, Mehdi Bouhaddou, Yaw Chyn Lim, Catherine J. Wu, John N. Allan, Richard R. Furman, Boon Cher Goh, Shazib Pervaiz, Jean-Philippe Coppé, Constantine S. Mitsiades, Matthew S. Davids

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Figure 3

Changes in antiapoptotic protein dependencies are required for venetoclax resistance.

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Changes in antiapoptotic protein dependencies are required for venetocla...
(A) Viability of OCI-Ly1-R, Su-DHL4-R, Su-DHL4, TOLEDO, TMD8, and OCI-Ly1-S cells following treatment with increasing concentrations of S63845 (MCL-1 inhibitor), measured by CTG assay. Tukey’s multiple-comparison test was used. (B) Pearson’s correlation between survival percentage against ABT199/venetoclax treatment and MCL-1/BCL-2 dependence ratio. Cells with high MCL-1 but low BCL-2 dependence survived better against venetoclax. (C) Pearson’s correlation between percentage survival against S63845 treatment and MCL-1/BCL-2 dependence ratio. Cells with low MCL-1 but high BCL-2 dependence survived better against S63845. (D) ABT199/venetoclax-induced Cytc percentage loss following transient transfection with empty vector (pcDNA3.1), WT BCL-2, p.S70A, or p.S70E mutants in OCI-Ly1-S cells (n = 3). Tukey’s multiple-comparison test was used. (E) Cell viability of pcDNA3.1 (pcDNA), WT BCL-2, p.S70A (S70A), or p.S70E (S70E) transiently transfected OCI-Ly1-S cells following treatment with 10 nM ABT199/venetoclax for 48 hours (n = 3). Šidák’s multiple-comparison test was used. (F) MS1-induced Cytc percentage loss following transient transfection with pcDNA3.1, WT MCL-1, or the p.T163 mutant in Su-DHL4 cells (n = 3). Dunnett’s multiple-comparison test was used. (G) Cell viability of pcDNA3.1, WT MCL-1 or p.T163A transient transfected Su-DHL4 cells following treatment with 100 nM ABT199/venetoclax for 48 hours (n = 3). Šidák’s multiple-comparison test was used. (H) Diagram showing that increased S70pBCL-2, T163pMCL-1, and S112pBAD induced a dependence switch from BCL-2 to MCL-1 for venetoclax resistance. The diagram was generated using Microsoft Powerpoint software. **P < 0.01, ***P < 0.001, and ****P < 0.0001.