Neuronal differentiation of rat hair follicle stem cells: the involvement of the neuroprotective factor seladin-1 [DHCR24]

The seladin-1 [selective Alzheimer disease indicator-1], also known as DHCR24, is a gene found to be down-regulated in brain region affected by Alzheimer disease [AD]. Whereas, hair follicle stem cells [HFSC], which are affected in with neurogenic potential, it might to hypothesize that this multipotent cell compartment is the predominant source of seladin-1. Our aim was to evaluate seladin-1 gene expression in hair follicle stem cells. In this study, bulge area of male Wistar rat HFSC were cultured and then characterized with Seladin-1 immunocytochemistry and flow cytometry on days 8 to 14. Next, 9-11-day cells were evaluated for seladin-1 gene expression by real-time PCR. Our results indicated that expression of the seladin-1 gene [DHCR24] on days 9, 10, and 11 may contribute to the development of HFSC. However, the expression of this gene on day 11 was more than day 10 and on 10th day was more than day 9. Also, we assessed HFSC on day 14 and demonstrated these cells were positive for beta-? tubulin, and seladin-1 was not expressed in this day. HFSC express seladin-1 and this result demonstrates that these cells might be used to cell therapy for AD in future

Delivery of epidermal neural crest stem cells [EPI-NCSC] to hippocamp in Alzheimer's disease rat model

Alzheimer's disease [AD] is characterized by progressive neuronal loss in hippocamp. Epidermal neural crest stem cells [EPI-NCSC] can differentiate into neurons, astrocytes and oligodendrocytes. The purpose of this study was to evaluate the effects of transplanting EPI-NCSC into AD rat model. Two weeks after induction of AD by injection of Amyloid-beta 1-40 into CA1 area of rat hippocamp, Y-maze and single-trial passive avoidance tests were used to show deficit of learning and memory abilities. EPI-NCSC were obtained from the vibrissa hair follicle of rat, cultured and labeled with bromodeoxyuridine. When Alzheimer was proved by behavioral tests, EPI-NCSC was transplanted into CA3 area of hippocamp in AD rat model. The staining of EPI-NCSC markers [nestin and SOX10] was done in vitro. Double-labeling immunofluorescence was performed to study survival and differentiation of the grafted cells. We showed that transplanted EPI-NCSC survive and produce many neurons and a few glial cells, presenting glial fibrillary acidic protein. Total number of granule cells in hippocamp was estimated to be more in the AD rat model with transplanted cells as compared to AD control group. We observed that rats with hippocampal damage made more errors than control rats on the Y-maze, when reward locations were reversed. Transplanted cells were migrated to all areas of hippocamp and the total number of granule cell in treatment group was equal compared to control group. Transplantation of EPI-NCSC into hippocamp might differentiate into cholinergic neurons and could cure impairment of memory in AD rat model