Abstract
Not all chronic myeloid leukemia (CML) patients are cured with tyrosine kinase inhibitors (TKIs), and a proportion of them develop resistance. Recently, continuous BCR-ABL gene expression has been found in resistant cells with undetectable BCR-ABL protein expression, indicating that resistance may occur through kinase independent mechanisms, mainly due to the persistence of leukemia stem cells (LSCs). LSCs reside in the bone marrow niche in a quiescent state, and are characterized by a high heterogeneity in genetic, epigenetic, and transcriptional mechanisms. New approaches based on single cell genomics have offered the opportunity to identify distinct subpopulations of LSCs at diagnosis and during treatment. In the one hand, TKIs are not able to efficiently kill CML-LSCs, but they may be responsible for the modification of some LSCs characteristics, thus contributing to heterogeneity within the tumor. In the other hand, the bone marrow niche is responsible for the interactions between surrounding stromal cells and LSCs, resulting in the generation of specific signals which could favor LSCs cell cycle arrest and allow them to persist during treatment with TKIs. Additionally, LSCs may themselves alter the niche by expressing various costimulatory molecules and secreting suppressive cytokines, able to target metabolic pathways, create an anti-apoptotic environment, and alter immune system functions. Accordingly, the production of an immunosuppressant milieu may facilitate tumor escape from immune surveillance and induce chemo-resistance. In this review we will focus on BCR-ABL-independent mechanisms, analyzing especially those with a potential clinical impact in the management of CML patients.
Highlights
Chronic myeloid leukemia (CML) is a clonal myeloproliferative disorder of pluripotent hematopoietic stem cells (HSCs)
breakpoint cluster region (BCR)-Abelson leukemia virus (ABL) independent mechanisms of resistance to tyrosine kinase inhibitors (TKIs) are likely different from those involving resistance or failure after allogeneictransplant, which are mainly related to dysregulation of the immune system
This paper reported three interesting findings: [1] basal autophagy is higher in chronic myeloid leukemia (CML)-leukemia stem cells (LSCs) with respect to normal HSCs; [2] autophagy inhibition with Lys05 significantly reduce LSCs quiescence and promotes myeloid cell expansion; [3] Lys05 and PIK-III combined treatment significantly decrease the number of primary CML-LSCs, and is able to kill xenografted LSCs when used together with TKIs [18]
Summary
Chronic myeloid leukemia (CML) is a clonal myeloproliferative disorder of pluripotent hematopoietic stem cells (HSCs). The BCR-ABL1 protein is a constitutively activated tyrosine kinase, which causes anomalous activation of intracellular signal transduction pathways, leading to an unstable genome, abnormal cellular proliferation, and amplification of CML clones [1] This translates in a differentiation arrest, with an accumulation of immature HSCs into the bone marrow (BM) and the peripheral blood (PB) [1]. (5), suggesting a possible involvement of ABC-transporters in the development of resistance It is becoming clear, from novel biological evidences, that curative approaches in CML patients resistant to TKIs, have to consider BCR-ABL-dependent, and BCR-ABL-independent mechanisms of resistance [2], with a special focus on leukemia stem cells (LSCs). BCR-ABL independent mechanisms of resistance to TKI are likely different from those involving resistance or failure after allogeneictransplant, which are mainly related to dysregulation of the immune system. LSCs and HSCs have different biological properties influencing their relationship with all the actors involved in self-renewal, providing potential therapeutic opportunities [7]
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