Development of combination therapies with BTK inhibitors and dasatinib to treat CNS-infiltrating E2A-PBX1+/preBCR+ ALL.
Gaia GentileTeresa PoggioAntonella CatalanoMinna VoutilainenMari LahnalampiMarta Andrade-MartinezTobias MaRoman SankowskiLina GoncharenkoStefan TholenKyuho HanDavid W MorgensMarco PrinzMichael LübbertSophia EngelTanja Nicole HartmannGunnar CarioMartin SchrappeLennart LenkMartin StanullaJustus DuysterPeter BronsertMichael C BassikMichael L ClearyOliver SchillingMerja HeinäniemiJesus Duque-AfonsoPublished in: Blood advances (2024)
The t(1;19) translocation, encoding the oncogenic fusion protein E2A (TCF3)-PBX1, is involved in acute lymphoblastic leukemia (ALL) and associated with a pre-B-cell receptor (preBCR+) phenotype. Relapse in patients with E2A-PBX1+ ALL frequently occurs in the central nervous system (CNS). Therefore, there is a medical need for the identification of CNS active regimens for the treatment of E2A-PBX1+/preBCR+ ALL. Using unbiased short hairpin RNA (shRNA) library screening approaches, we identified Bruton tyrosine kinase (BTK) as a key gene involved in both proliferation and dasatinib sensitivity of E2A-PBX1+/preBCR+ ALL. Depletion of BTK by shRNAs resulted in decreased proliferation of dasatinib-treated E2A-PBX1+/preBCR+ cells compared with control-transduced cells. Moreover, the combination of dasatinib with BTK inhibitors (BTKi; ibrutinib, acalabrutinib, or zanubrutinib) significantly decreased E2A-PBX1+/preBCR+ human and murine cell proliferation, reduced phospholipase C gamma 2 (PLCG2) and BTK phosphorylation and total protein levels and increased disease-free survival of mice in secondary transplantation assays, particularly reducing CNS-leukemic infiltration. Hence, dasatinib with ibrutinib reduced pPLCG2 and pBTK in primary ALL patient samples, including E2A-PBX1+ ALLs. In summary, genetic depletion and pharmacological inhibition of BTK increase dasatinib effects in human and mouse with E2A-PBX1+/preBCR+ ALL across most of performed assays, with the combination of dasatinib and BTKi proving effective in reducing CNS infiltration of E2A-PBX1+/preBCR+ ALL cells in vivo.
Keyphrases
- tyrosine kinase
- epidermal growth factor receptor
- induced apoptosis
- chronic myeloid leukemia
- acute lymphoblastic leukemia
- blood brain barrier
- cell cycle arrest
- free survival
- cell proliferation
- endothelial cells
- signaling pathway
- cell death
- high throughput
- endoplasmic reticulum stress
- stem cells
- metabolic syndrome
- gene expression
- case report
- mesenchymal stem cells
- cell therapy
- induced pluripotent stem cells
- insulin resistance
- newly diagnosed
- skeletal muscle
- bioinformatics analysis