Oncogene-independent BCR-like signaling adaptation confers drug resistance in Ph-like ALL
Christian Hurtz, … , Martin Carroll, Sarah K. Tasian
Christian Hurtz, … , Martin Carroll, Sarah K. Tasian
Published March 19, 2020
Citation Information: J Clin Invest. 2020;130(7):3637-3653. https://doi.org/10.1172/JCI134424.
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Research Article Hematology Oncology

Oncogene-independent BCR-like signaling adaptation confers drug resistance in Ph-like ALL

Abstract

Children and adults with Philadelphia chromosome–like B cell acute lymphoblastic leukemia (Ph-like B-ALL) experience high relapse rates despite best-available conventional chemotherapy. Ph-like ALL is driven by genetic alterations that activate constitutive cytokine receptor and kinase signaling, and early-phase trials are investigating the potential of the addition of tyrosine kinase inhibitors (TKIs) to chemotherapy to improve clinical outcomes. However, preclinical studies have shown that JAK or PI3K pathway inhibition is insufficient to eradicate the most common cytokine receptor–like factor 2–rearranged (CRLF2-rearranged) Ph-like ALL subset. We thus sought to define additional essential signaling pathways required in Ph-like leukemogenesis for improved therapeutic targeting. Herein, we describe an adaptive signaling plasticity of CRLF2-rearranged Ph-like ALL following selective TKI pressure, which occurs in the absence of genetic mutations. Interestingly, we observed that Ph-like ALL cells have activated SRC, ERK, and PI3K signaling consistent with activated B cell receptor (BCR) signaling, although they do not express cell surface μ-heavy chain (μHC). Combinatorial targeting of JAK/STAT, PI3K, and “BCR-like” signaling with multiple TKIs and/or dexamethasone prevented this signaling plasticity and induced complete cell death, demonstrating a more optimal and clinically pragmatic therapeutic strategy for CRLF2-rearranged Ph-like ALL.

Authors

Christian Hurtz, Gerald B. Wertheim, Joseph P. Loftus, Daniel Blumenthal, Anne Lehman, Yong Li, Asen Bagashev, Bryan Manning, Katherine D. Cummins, Janis K. Burkhardt, Alexander E. Perl, Martin Carroll, Sarah K. Tasian

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Figure 5

Expression of BCR signaling molecules in Ph-like ALL cells.

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Expression of BCR signaling molecules in Ph-like ALL cells. (A) Flow cyt...
(A) Flow cytometry analysis of immunoglobulin μ-heavy chain (μHC) expression in B-ALL cell lines (top) and Ph-like patient samples (bottom). The NALM-6 cell line and a primary pre-BCR+ B-ALL patient specimen (3958) were used as positive controls. (B) Western blot analysis of CD79A and CD79B expression in B-ALL cell lines and patient samples. (C) Western blot analysis of BCR signaling molecules in 8 Ph-like ALL PDX specimens and 1 TCF3-HLF ALL PDX case. (D) CD79A (green) and CD79B (red) expression was assessed via immunofluorescence microscopy in Ph-like ALL cell lines, pre-BCR+/BCR+ ALL positive controls, and a KMT2A-R B-ALL negative control. Original magnifications: ×63 for upper panel, ×158 for lower panel. (E) Western blot analysis of indicated proteins in control (+) and CD79B-deleted (–) MUTZ5 cells. (F) Sensitivity analysis of CD79B+ and CD79B MUTZ5 cells to increasing concentrations of ruxolitinib (n = 3 independent experiments per sample). (G) Western blot analysis of CD79B+ and CD79B MUTZ5 cells 3 weeks after electroporation treated with and without 1 μM ruxolitinib for 2 hours. (H) Ph+ ALL and Ph-like ALL cells were treated with 1 μM ruxolitinib for 1 hour or 1 μM idelalisib for 1 hour, and p-STAT5 and p-AKT levels were measured. (I) MUTZ5 and MHH-CALL-4 cells were treated with 1 μM ruxolitinib or 1 μM idelalisib for 72 hours alone or in combination, and protein expression of p-STAT5Y694 and p-AKTS473 was measured using the total proteins as controls. Data are represented as individual values with mean ± SEM bars.