SF3B1 mutation accelerates the development of CLL via activation of the mTOR pathway
Bo Zhang, Prajish Iyer, Meiling Jin, Elisa Ten Hacken, Zachary J. Cartun, Kevyn L. Hart, Mike Fernandez, Kristen Stevenson, Laura Rassenti, Emanuela M. Ghia, Thomas J. Kipps, Donna Neuberg, Ruben Carrasco, Wing C. Chan, Joo Y. Song, Yu Hu, Catherine J. Wu, Lili Wang
Bo Zhang, Prajish Iyer, Meiling Jin, Elisa Ten Hacken, Zachary J. Cartun, Kevyn L. Hart, Mike Fernandez, Kristen Stevenson, Laura Rassenti, Emanuela M. Ghia, Thomas J. Kipps, Donna Neuberg, Ruben Carrasco, Wing C. Chan, Joo Y. Song, Yu Hu, Catherine J. Wu, Lili Wang
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Research Article Hematology Oncology

SF3B1 mutation accelerates the development of CLL via activation of the mTOR pathway

Abstract

RNA splicing factor SF3B1 is one of the most recurrently mutated genes in chronic lymphocytic leukemia (CLL) and frequently co-occurs with chromosome 13q deletion [del(13q)]. This combination is associated with poor prognosis in CLL, suggesting these lesions increase CLL aggressiveness. While del(13q) in murine B cells (minimal deleted region of 13q14 includes DLEU1, DLEU2, and miR15a-16-1; Mdr mice), but not expression of Sf3b1-K700E, drives the initiation of CLL, we hypothesize that SF3B1 mutation accelerates CLL progression. In this study, we crossed mice with a B cell–specific Sf3b1-K700E allele with Mdr mice to determine the impact of Sf3b1 mutation on CLL progression. We found that the co-occurrence of these 2 lesions in murine B cells caused acceleration of CLL. We showed that Sf3b1-K700E impacted alternative RNA splicing of nuclear factor of activated T cells C1 (Nfatc1) and activated mTOR signaling and the MYC pathway, contributing to CLL acceleration. Moreover, concurrent inhibition of RNA splicing and the mTOR pathway led to cell death in vitro and in vivo in murine CLL cells with SF3B1 mutation and del(13q). Our results thus suggest that SF3B1 mutation contributes to the aggressiveness of CLL by activating the mTOR pathway through alternative splicing of Nfatc1, providing a rationale for targeting mTOR and RNA splicing in the subset of CLL patients with both SF3B1 mutations and del(13q).

Authors

Bo Zhang, Prajish Iyer, Meiling Jin, Elisa Ten Hacken, Zachary J. Cartun, Kevyn L. Hart, Mike Fernandez, Kristen Stevenson, Laura Rassenti, Emanuela M. Ghia, Thomas J. Kipps, Donna Neuberg, Ruben Carrasco, Wing C. Chan, Joo Y. Song, Yu Hu, Catherine J. Wu, Lili Wang

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Figure 3

Integrative transcriptome and proteomics analyses identify enrichment of the mTOR pathway and MYC targets in DM CLL cells.

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Integrative transcriptome and proteomics analyses identify enrichment of...
(A) Heatmap shows significantly differentially expressed genes between CLL cells with DM or Mdr deletion and normal B cells with different genetic lesions, including Sf3b1-K700E, Mdr deletion, and DM. (B) GSEA from differentially expressed genes from different comparisons, including Mdr MT B cells versus WT B cells, DM B cells versus Mdr MT B cells, Mdr MT CLL cells versus Mdr MT B cells, DM CLL cells versus DM B cells, DM CLL cells versus Mdr MT CLL cells. Significance cutoff is set as FDR < 0.1. (C) Correlative plot of differentially expressed genes and proteins between DM CLL cells and DM normal B cells derived from RNA-Seq and proteomics data. DM CLL versus DM normal B cell fold changes are log2-transformed with positive and negative values indicating upregulation and downregulation, respectively. Color-coded genes are significantly differentially expressed genes at both mRNA and protein levels. (D) GSEA based on differential RNA and protein analysis for genes enriched for upregulated and downregulated pathways at both mRNA and protein levels. The dashed line indicates significance according to the FDR < 0.1. (E) Western blot of mTORC1 pathway components and MYC expression in DM CLL cells, DM and WT normal B cells. (F) Validation of isoform 5 of nuclear factor of activated T cells C1 (NFATC1) using Mdr MT CLL cells and DM CLL cells by immunoblotting. Western blot of mTORC1 pathway components, downstream targets, AKT pathway, and MYC expression in Mdr MT CLL cells and DM CLL cells. (G) Correlation plot of pathways enriched at the protein levels between human and mouse CLL with DM versus normal B cells.