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Abstract
Recent studies underscore the role of the microenvironment in therapy resistance of chronic myeloid leukemia (CML) cells and leukemia progression. We previously showed that sustained mild activation of endoplasmic reticulum (ER) stress in CML cells supports their survival and resistance to chemotherapy. We now demonstrate, using dominant negative non-phosphorylable mutant of eukaryotic initiation factor 2 α subunit (eIF2α), that phosphorylation of eIF2α (eIF2α-P), which is a hallmark of ER stress in CML cells, substantially enhances their invasive potential and modifies their ability to secrete extracellular components, including the matrix-modifying enzymes cathepsins and matrix metalloproteinases. These changes are dependent on the induction of activating transcription factor-4 (ATF4) and facilitate extracellular matrix degradation by CML cells. Conditioned media from CML cells with constitutive activation of the eIF2α-P/ATF4 pathway induces invasiveness of bone marrow stromal fibroblasts, suggesting that eIF2α-P may be important for extracellular matrix remodeling and thus leukemia cells-stroma interactions. Our data show that activation of stress response in CML cells may contribute to the disruption of bone marrow niche components by cancer cells and in this way support CML progression.
Highlights
The bone marrow microenvironment creates a unique niche, which is essential for hematopoiesis, and supports the development of leukemia
In order to study the effect of eukaryotic initiation factor 2 α subunit (eIF2α)-P on the composition of chronic myeloid leukemia (CML) secretome, we performed quantitative proteomics on media conditioned by K562 CML cells expressing GFP (K562wt) or a nonphosphorylable mutant of eIF2α (K562mut), which acts as a dominant negative protein and prevents the phosphorylation of endogenous eIF2α [22]
Gene Ontology analysis revealed that 52% of proteins, whose concentration was reduced upon decline of eIF2α phosphorylation, possessed catalytic activity (Figure 1C, Table S1) The most abundant enzymes in this group were those involved in the degradation of components of the extracellular matrix (ECM)
Summary
The bone marrow microenvironment creates a unique niche, which is essential for hematopoiesis, and supports the development of leukemia. Bone marrow stromal fibroblasts support the proliferation of leukemia cells [1] and their resistance to therapy [2]. Leukemia cells secrete matrix metalloproteinases (MMPs), which degrade extracellular matrix (ECM) and by this destroy non-cellular components of the niche [13,14,15,16,17,18] and modify composition of signaling molecules. It leads to transformation of the bone marrow niche that supports leukemia progression
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