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- Title
Neural Differentiation of Human Umbilical Cord Mesenchymal Stem Cells by Cerebrospinal Fluid.
- Authors
FARIVAR, Shirin; MOHAMADZADE, Zahra; SHIARI, Reza; FAHIMZAD, Alireza
- Abstract
Objective Wharton's jelly (WJ) is the gelatinous connective tissue from the umbilical cord. It is composed of mesenchymal stem cells, collagen fibers, and proteoglycans. The stem cells in WJ have properties that are interesting for research. For example, they are simple to harvest by noninvasive methods, provide large numbers of cells without risk to the donor, the stem cell population may be expanded in vitro, cryogenically stored, thawed, genetically manipulated, and differentiated in vitro. In our study, we investigated the effect of human cerebrospinal fluid (CSF) on neural differentiation of human WJ stem cells. Material & Methods The cells in passage 2 were induced into neural differentiation with different concentrations of human cerebrospinal fluid. Differentiation along with neural lineage was documented by expression of three neural markers: Nestin, Microtubule-Associated Protein 2 (MAP2), and Glial Fibrillary Astrocytic Protein (GFAP) for 21 days. The expression of the identified genes was confirmed by Reverse Transcriptase PCR (RT-PCR). Results Treatment with 100 and 200μg/ml CSF resulted in the expression of GFAP and glial cells marker on days 14 and 21. The expression of neural-specific genes following CSF treatment was dose-dependent and time-dependent. Treatment of the cells with a twofold concentration of CSF, led to the expression of MAP2 on day 14 of induction. No expression of GFAP was detected before day 14 or MAP2 before day 21, which shows the importance of the treatment period. In the present study, expression analysis for the known neural markers: Nestin, GFAP, and MAP2 using RT-PCR were performed. The data demonstrated that CSF could play a role as a strong inducer. Conclusion RT-PCR showed that cerebrospinal fluid promotes the expression of Nestin, MAP2, and GFAP mRNA in a dose-dependent manner, especially at a concentration of 200 μl/ml. In summary, CSF induces neurogenesis of WJ stem cells that encourages tissue engineering applications with these cells for treatments of neurodegenerative defects and traumatic brain injury.
- Subjects
BRAIN injury treatment; TREATMENT of neurodegeneration; STEM cells; HEMATOPOIETIC stem cells; CELL differentiation; CEREBROSPINAL fluid; CELL culture; CELL division; CONNECTIVE tissue cells; CYTOSKELETAL proteins; GENE expression; GENETIC techniques; POLYMERASE chain reaction; UMBILICAL cord; STEM cell research; TISSUE engineering; REVERSE transcriptase polymerase chain reaction; PHYSIOLOGY
- Publication
Iranian Journal of Child Neurology, 2015, Vol 9, Issue 1, p87
- ISSN
1735-4668
- Publication type
Article