Neural stem/progenitor cells hold valuable potential for the treatment of neurodegenerative disorders. The modulation of intrinsic growth factor expression, such as neurotrophins and their receptors, is a necessary step in achieving neural stem cells (NSCs) therapy. The statins have recently been reported to provide both anti-inflammatory and neuroprotective effects. In the developing and mature nervous systems, neurotrophic factors are known to impact neuronal growth and survival. In this study, we investigated for a positive effect of lovastatin on the expression of neurotrophins in the neonatal rat hippocampus-derived NSCs. NSCs were isolated and cultured up to passage three. To confirm cellular identity, immunocytochemical evaluation and flow cytometry analysis were performed using specific antibodies. To determine the optimum concentration of lovastatin, the MTT assay was used. Neurotrophin expression was evaluated using quantitative real-time reverse transcription-polymerase chain reaction (RT-qPCR). Flow cytometry results demonstrated that NSCs were positive for nestin, a marker for neural progenitor cells. An increase in cellular viability was observed with a 24 h exposure of lovastatin. Moreover, results showed an increase in mRNA expression for all neurotrophins compared to the control group. Taken together, the results of this study add to the growing body of literature on the neuroprotective effects of statins in neurological disorders. Lovastatin is a promising therapeutic agent for the treatment of neurodegenerative disorders.
10.30699/jambs.27.125.1Neural stem cells are undifferentiated cells that are located in limited areas of central nervous system. These cells have proliferation and self-renew ability and can be differentiated into neurons and glial cells. Mature nerve cells do not have proliferative ability; and due to the limited number of nerve stem cells, injuries to the nervous system are not recoverable. The purpose of this review is to identify characteristics and factors that may influence proliferation and differentiation of neural stem cells. These cells provide useful tools for in vitro study of neural cells developmental stages. Besides, they have extensive therapeutic applications providing an unlimited source of cells for tissue transplantation and repair. Overall, the identification of factors contributing to neural stem cell's proliferation and differentiation can be effective for body's natural capacity to repair nerve damages. For cell therapy purposes, application of induced medium or an appropriate stimulants may have an effective role in increasing the rate of growth and proliferation of these cells in vitro.
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