ABSTRACT
In recent years transdifferentiation technology has enabled direct conversion of human fibroblasts to become a valuable, abundant and accessible cell source for patient-specific induced cell generation in biomedical research. The majority of transdifferentiation approaches rely upon viral gene delivery which due to random integration with the host genome can cause genome instability and tumorigenesis upon transplantation. Here, we provide a simple way to induce neural progenitor-like cells from human fibroblasts without genetic manipulation by changing physicochemical culture properties from monolayer culture into a suspension in the presence of a chemical DNA methyltransferase inhibitor agent, Azacytidine. We have demonstrated the expression of neural progenitor-like markers, morphology and the ability to spontaneously differentiate into neural-like cells. This approach is simple, inexpensive, lacks genetic manipulation and could be a foundation for future chemical neural transdifferentiation and a safe induction of neural progenitor cells from human fibroblasts for clinical applications
ABSTRACT
It has been shown that lithium chloride [LiCl], an effective drug for the treatment of bipolar disorder, has side effects on the female reproductive system. In this study, cellular and histological effects of lithium chloride on the development of ovarian follicles in immature female rats were investigated. To induce ovarian follicular development, twenty-three day old immature female rats were injected with 10 IU of pregnant mare serum gonadotropin [PMSG], followed by four doses of LiCl [250 mg/kg/dose] each injected every 12 hours, starting from the time of the PMSG injection. The rat ovaries were removed 48 hours after the PMSG injection and prepared for histological, immunohistochemical, and DNA laddering studies. Control immature female rats received only PMSG, while sham treated rats received PMSG and physiological serum [lithium vehicle]. Our results showed that in the ovaries of LiCl-treated rats there were neither large antral follicles [800-1000 micro m] nor fewer medium sized follicles [400-800 micro m] but a increased number of atretic follicles compared to those in the control rats. The induction of atresia in the ovaries of LiCl-treated rats was further confirmed by the presence of DNA fragmentation. Looking at the cellular levels, lithium extremely significant [p<0.0001] increased the number of TUNEL-positive cells in the granulosa layer of the antral follicles. Taken together, our results suggest that lithium may decrease folliculogenesis by inducing apoptosis in the antral follicles