Autophagy protects chronic myeloid leukemia stem cells from tyrosine kinase inhibitors hence supporting the disease persistence under therapy. However, the signals involved in autophagy regulation relative to BCR-ABL1 are still elusive. The autophagic flux proceeding from the inhibition of BCR-ABL1 tyrosine kinase represents a regulatory mechanism of β-catenin stability through events encompassing the activation of calpain, which targets β-catenin for proteasome-independent degradation. Accordingly, its inactivation may contribute to induce autophagy and autophagy induction may, in turn, promote β-catenin autolysosomal degradation to originate a regulatory loop where β-catenin plays a central role in cell decision between life and death. Here we proved that the cytoplasmic accumulation of β-catenin driven by up-regulation of its antagonist Chibby1 is a component of autophagy induction in response to imatinib in BCR-ABL1+ cells opposing the apoptotic death. It is contingent upon ER stress and elevation of free Ca(2+) cytosolic concentration and results in the calpain cleavage into a 28kDa fragment implicated in β-catenin proteasome-independent degradation. More important for BCR-ABL1+ cell survival and proliferation following IM treatment, might be the calpain-mediated cleavage of β-catenin accumulated within the cytoplasmic compartment into a 75kDa fragment, still owning TCF-dependent transcriptional activity. Such a β-catenin fragment might be crucial for BCR-ABL1+ cell survival following the fusion protein TK inhibition.
Keywords: Autophagy; Chibby1; Chronic myeloid leukemia; Imatinib; β-Catenin.
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