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Showing 2 results for Hematopoietic Stem Cells
S.s. Mortazavi Farsani, M. Sadeghizadeh, H. Shirzad, F. Najafi,
Volume 10, Issue 4 (12-2019)
Abstract
Aims: Hematopoietic stem cells are responsible for the production of blood cells in the bone marrow. During the process of differentiation, these cells commitment to two precursor cell lines include myeloid and lymphoid cells. Various blood cells, excluded lymphocytes, generates from myeloid cells. Some patients with severe anemia or thrombocytopenia receive hematopoietic stem cell through transplantation. Finding a potential component for inducing differentiation of hematopoietic stem cells before transplantation, could be an appropriate strategy for the acceleration of blood cells production in recipient persons. Various studies indicate the ability of Curcumin for inducing of cell differentiation. This component can alter many of cellular mechanisms.
Material and methods: The aim of this project was to evaluate the effects of Nanocurcumin on mRNA expression levels of GATA1, GATA2, c-Myb and Hhex genes and alteration of cellular ROS in umbilical cord blood-derived hematopoietic stem cells. Nanocurcumin was synthesized from Curcumin, Oleic acid, and PEG400. The rate of Nanocurcumin delivery into the cells was also evaluated.
Findings: Our results show that intracellular ROS and expression levels of GATA1, c-Myb, and Hhex transcription factors were significantly increased after treatment with Nanocurcumin (p<0.05). These transcription factors involve in myeloid differentiation.
Conclusion: Enhancement of these transcription factors expression making Nanocurcumin a potential candidate for applying in myeloid differentiation media and basic and clinical studies.
Volume 13, Issue 3 (8-2010)
Abstract
Objective: Average Age of population in the industrial countries has increased. Because of aging the percent of the diseases related to the oldness such as multiple myeloma have also increased. It has both common and unique symptoms and effects. The unique effects include wide bone reabsorption. It seems necessary to understand the structure of Bone Marrow Niche and the effects of Myeloma cells on adjacent hematopoietic Stem cells with a new approach.
Materials and Methods: We have studied the differentiating effect induced by the Myeloma cells through co-culturing the Myeloma cells and hematopoietic stem cells, extracted out of cord blood. In this investigation we also cocultured myeloma cells with the monoblastic cell line (U937) in order to evaluate the effect of myeloma cells on monoblastic cells differentiation.
Results: Our findings show that increased expression of myeloid and monocytoid markers in coculturing of myeloma cells and HSCs. Moreover following monoblastic and myeloid cells coculturing, we observed probably TRAP positive osteoclastic like cells.
Conclusion: Our findings show that presence of myeloma cells in Bone Marrow play essential role in HSCs differentiation to monocytoid (osteoclastic) lineage.
