Characterization of Bypassing Kinases Inferred By Phosphoproteomics in a Midostaurin Resistant Myeloid Cell Line Model
Mahmoud HallalSophie Braga-LagacheJovana JankovićRémy BruggmannRamanjaneyulu AllamMario P. TschanCédric SimillionManfred HellerNicolas Bonadies
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Midostaurin
Phosphoproteomics
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The therapeutic approach to Chronic Myeloid Leukemia (CML) has changed since the advent of the tyrosine kinase inhibitor (TKI) imatinib, which was then followed by the second generation TKIs dasatinib, nilotinib, and, finally, by ponatinib, a third-generation drug. At present, these therapeutic options represent the first-line treatment for adults. Based on clinical experience, imatinb, dasatinib, and nilotinib have been approved for children even though the studies that were concerned with efficacy and safety toward pediatric patients are still awaiting more specific and high-quality data. In this scenario, it is of utmost importance to prospectively validate data extrapolated from adult studies to set a standard therapeutic management for pediatric CML by employing appropriate formulations on the basis of pediatric clinical trials, which allow a careful monitoring of TKI-induced adverse effects especially in growing children exposed to long-term therapy.
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BCR/ABL (Breakpoint Cluster Region protein/Abelson tyrosine-protein kinase 1) kinase domain (KD) mutations represent the most frequently described mechanism of resistance to the treatment with tyrosine kinase inhibitors (TKI) in patients with chronic myeloid leukemia (CML). Mutations may impair TKI activity by directly or indirectly impairing the drug binding to the protein. We report the discovery of three new BCR/ABL mutations, L248R, T315V, and F317R identified in two patients with CML (L248R and T315V) and in one patient with Ph+ acute lymphoblastic leukemia (ALL) (F317R). Mutations were screened against second-generation (bosutinib, nilotinib, and dasatinib), as well as third-generation TKIs (ponatinib/AP-24534 and DCC-2036). Furthermore, the activity profile of ponatinib and DCC-2036 against a panel of 24 clinically relevant BCR/ABL mutants is presented and compared to the other TKIs. The IC50 values for each TKI against the mutants and the IC50 increase over wild type BCR/ABL (relative resistance, RR) were calculated to define four resistance levels: sensitive (RR ≤ 2), moderately resistant (2 < RR ≤ 4), resistant (4 < RR ≤ 10), or highly resistant (RR > 10). L248R and T315V showed high resistance to imatinib, bosutinib, dasatinib, and nilotinib, intermediate resistance to ponatinib, but were sensitive to DCC-2036. Interestingly, F317R showed a moderate resistance to imatinib and nilotinib, but is resistant/highly resistant to dasatinib, bosutinib, ponatinib, and DCC-2036. The availability of drugs activity profiles may become a useful tool for clinicians dealing with the treatment of drug-resistant CML patients.
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The tyrosine kinase inhibitors (TKIs), nilotinib, ponatinib, and dasatinib (but not bosutinib or imatinib), are associated with vascular adverse events (VAEs) in chronic myeloid leukemia (CML). Though the mechanism is inadequately understood, an effect on vascular cells has been suggested. We investigated the effect of imatinib, nilotinib, dasatinib, bosutinib, and ponatinib on tube formation, cell viability, and gene expression of human vascular endothelial cells (HUVECs). We found a distinct genetic profile in HUVECs treated with dasatinib, ponatinib, and nilotinib compared to bosutinib and imatinib, who resembled untreated samples. However, unique gene expression and molecular pathway alterations were detected between dasatinib, ponatinib, and nilotinib. Angiogenesis/blood vessel-related pathways and HUVEC function (tube formation/viability) were adversely affected by dasatinib, ponatinib, and nilotinib but not by imatinib or bosutinib. These results correspond to the differences in VAE profiles of these TKIs, support a direct effect on vascular cells, and provide direction for future research.
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