Overexpression of COMP-Angiopoietin-1 in K14-Expressing Cells Impairs Hematopoiesis and Disturbs Erythrocyte Maturation.
Hyun-Jaung SimMin-Hye KimGovinda BhattaraiJae-Won HwangHan-Sol SoSher Bahadur PoudelEui-Sic ChoSung-Ho KookJeong-Chae LeePublished in: Molecules and cells (2021)
Numerous studies highlight the potential benefits potentials of supplemental cartilage oligomeric matrix protein-angiopoietin-1 (COMP-Ang1) through improved angiogenic effects. However, our recent findings show that excessive overexpression of COMP-Ang1 induces an impaired bone marrow (BM) microenvironment and senescence of hematopoietic stem cells (HSCs). Here, we investigated the underlying mechanisms of how excessive COMP-Ang1 affects the function of BM-conserved stem cells and hematopoiesis using K14-Cre;inducible-COMP-Ang1-transgenic mice. Excessive COMP-Ang1 induced peripheral egression and senescence of BM HSCs and mesenchymal stem cells (MSCs). Excessive COMP-Ang1 also caused abnormal hematopoiesis along with skewed differentiation of HSCs toward myeloid lineage rather than lymphoid lineage. Especially, excessive COMP-Ang1 disturbed late-stage erythroblast maturation, followed by decreased expression of stromal cell-derived factor 1 (SDF-1) and globin transcription factor 1 (GATA-1) and increased levels of superoxide anion and p-p38 kinase. However, transplantation with the mutant-derived BM cells or treatment with rhCOMP-Ang1 protein did not alter the frequency or GATA-1 expression of erythroblasts in recipient mice or in cultured BM cells. Together, our findings suggest that excessive COMP-Ang1 impairs the functions of BM HSCs and MSCs and hematopoietic processes, eventually leading to abnormal erythropoiesis via imbalanced SDF-1/CXCR4 axis and GATA-1 expression rather than Ang1/Tie2 signaling axis alterations.
Keyphrases
- angiotensin ii
- transcription factor
- bone marrow
- mesenchymal stem cells
- stem cells
- weight gain
- induced apoptosis
- poor prognosis
- cell cycle arrest
- umbilical cord
- cell proliferation
- endothelial cells
- dna damage
- binding protein
- cell therapy
- oxidative stress
- cell death
- dendritic cells
- dna binding
- signaling pathway
- insulin resistance
- tyrosine kinase
- high resolution
- physical activity
- type diabetes
- single cell
- combination therapy
- human health
- amino acid
- genome wide identification