Abstract
Prognosis of childhood acute lymphoblastic leukemia (ALL) has been dramatically improved. However, prognosis of the cases refractory to primary therapy is still poor. Recent phase 2 study on the efficacy of combination chemotherapy with bortezomib (BTZ), a proteasome inhibitor, for refractory childhood ALL demonstrated favorable clinical outcomes. However, septic death was observed in over 10% of patients, indicating the necessity of biomarkers that could predict BTZ sensitivity. We investigated in vitro BTZ sensitivity in a large panel of ALL cell lines that acted as a model system for refractory ALL, and found that Philadelphia chromosome-positive (Ph+) ALL, IKZF1 deletion, and biallelic loss of CDKN2A were associated with favorable response. Even in Ph-negative ALL cell lines, IKZF1 deletion and bilallelic loss of CDKN2A were independently associated with higher BTZ sensitivity. BTZ showed only marginal cross-resistance to four representative chemotherapeutic agents (vincristine, dexamethasone, l-asparaginase, and daunorubicin) in B-cell precursor-ALL cell lines. To improve the efficacy and safety of proteasome inhibitor combination chemotherapy, we also analyzed the anti-leukemic activity of carfilzomib (CFZ), a second-generation proteasome inhibitor, as a substitute for BTZ. CFZ showed significantly higher activity than BTZ in the majority of ALL cell lines except for the P-glycoprotein-positive t(17;19) ALL cell lines, and IKZF1 deletion was also associated with a favorable response to CFZ treatment. P-glycoprotein inhibitors effectively restored the sensitivity to CFZ, but not BTZ, in P-glycoprotein-positive t(17;19) ALL cell lines. P-glycoprotein overexpressing ALL cell line showed a CFZ-specific resistance, while knockout of P-glycoprotein by genome editing with a CRISPR/Cas9 system sensitized P-glycoprotein-positive t(17;19) ALL cell line to CFZ. These observations suggested that IKZF1 deletion could be a useful biomarker to predict good sensitivity to CFZ and BTZ, and that CFZ combination chemotherapy may be a new therapeutic option with higher anti-leukemic activity for refractory ALL that contain P-glycoprotein-negative leukemia cells.
Highlights
Bortezomib (BTZ) is a proteasome inhibitor approved for the treatment of multiple myeloma (MM) [1]
To investigate cross-resistance of BTZ to the chemotherapeutic agents that were used in the BTZ combination therapy in the TACL study [8, 9], we examined the correlation between BTZ sensitivity and sensitivities to VCR, DNR, Dex, and L-Asp in 79 BCP-acute lymphoblastic leukemia (ALL) cell lines (S4 Table, and Fig 3A and 3B)
This is consistent with a previous report in a mouse model of Ph+leukemia showing that BTZ stimulated proteasome-dependent degradation of FoxO3a, which is involved in leukemogenesis of Ph+leukemia since it is one of the downstream effectors of BCR-ABL [44]
Summary
Bortezomib (BTZ) is a proteasome inhibitor approved for the treatment of multiple myeloma (MM) [1]. BTZ had synergistic or additive cytotoxic effects on ALL cell lines in vitro when combined with standard chemotherapeutic agents [7]. Based on these findings, combination therapy with BTZ and the standard chemotherapy platform of vincristine (VCR), dexamethasone (Dex), pegylated asparaginase (Asp), and doxorubicin was conducted by the TACL (Therapeutic Advances in Childhood Leukemia & Lymphoma) consortium. A phase 1 study in children with relapsed ALL demonstrated promising results [8], and a following phase 2 study revealed the effectiveness of BTZ combination chemotherapy in refractory childhood ALL [9]: 16 (73%) of 22 patients achieved complete remission (CR) or CR without platelet recovery. To develop more effective and safer combination therapy, it is important to clarify possible cross-resistance between BTZ and other chemotherapeutic agents
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