In Vitro differentiation of hair-follicle bulge stem cells into synaptophysin-expressing neurons: a potential new approach for neuro-regeneration.

Stem cells, particularly bulge hair follicle stem cells (HFSCs), have recently attracted significant interest due to their potential for tissue repair and regeneration. These cells, marked by their expression of Nestin (a neural stem cell marker), suggest the possibility of neural differentiation into neurons. This study investigated the use of retinoic acid (RA) and epidermal growth factor (EGF) to induce HFSC transformation into mature neurons, identified by synaptophysin expression. Rat whisker follicles were cultured in a medium suitable for HFSC survival and proliferation. Immunostaining techniques were used to identify HFSCs and assess their differentiation into neural cells. The addition of RA and EGF to the culture medium aimed to induce this differentiation. Findings demonstrate that HFSCs expressed Nestin, indicating their pluripotent nature. Treatment with RA and EGF resulted in synaptophysin expression, a marker of mature neurons, which was absent in the control group. However, this treatment group also displayed a decrease in the expression of other neural markers (βIII tubulin and NeuN). This study suggests that a combination of RA and EGF can accelerate HFSC differentiation into synaptophysin-positive cells in vitro. This research paves the way for further exploration of its potential application in neuro-regeneration.