Publications by authors named "O N Bogacheva"
During anemia erythropoiesis is bolstered by several factors including KIT ligand, oncostatin-M, glucocorticoids, and erythropoietin. Less is understood concerning factors that limit this process. Experiments performed using dual-specificity tyrosine-regulated kinase-3 (DYRK3) knock-out and transgenic mice reveal that erythropoiesis is attenuated selectively during anemia.
View Article and Find Full Text PDFEPO functions primarily as an erythroblast survival factor, and its antiapoptotic actions have been proposed to involve predominantly PI3-kinase and BCL-X pathways. Presently, the nature of EPO-regulated survival genes has been investigated through transcriptome analyses of highly responsive, primary bone marrow erythroblasts. Two proapoptotic factors, Bim and FoxO3a, were rapidly repressed not only via the wild-type EPOR, but also by PY-deficient knocked-in EPOR alleles.
View Article and Find Full Text PDFErythropoietin (EPO's) actions on erythroblasts are ascribed largely to survival effects. Certain studies, however, point to EPO-regulated proliferation. To investigate this problem in a primary system, Kit(pos)CD71(high) erythroblasts were prepared from murine bone marrow, and were first used in the array-based discovery of EPO-modulated cell-cycle regulators.
View Article and Find Full Text PDFEpo's erythropoietic capacity is ascribed largely to its antiapoptotic actions. In part via gene profiling of bone marrow erythroblasts, Epo is now shown to selectively down-modulate the adhesion/migration factors chemokine receptor-4 (Cxcr4) and integrin alpha-4 (Itga4) and to up-modulate growth differentiation factor-3 (Gdf3), oncostatin-M (OncoM), and podocalyxin like-1 (PODXL). For PODXL, Epo dose-dependent expression of this CD34-related sialomucin was discovered in Kit(+)CD71(high) proerythroblasts and was sustained at subsequent Kit(-)CD71(high) and Ter119(+) stages.
View Article and Find Full Text PDFArticle Synopsis
- - Erythropoietin (Epo) is effective in treating anemia caused by chronic diseases or chemotherapy, particularly through a specific signaling pathway involving the Epo receptor and Stat5.
- - Mice with a mutated Epo receptor (EpoR-HM) developed severe anemia, and their bone marrow cells were less capable of producing new red blood cells; however, restoring the original signaling pathway improved this process.
- - The study emphasizes that successful stress erythropoiesis relies on precise signaling at different stages of erythroblast development, highlighting the roles of both EpoR-PY343 and supportive factors like SCF and oncostatin-M.