Abstract
We have previously studied mouse whisker follicles in Gelfoam® histoculture to determine the role of nestin-expressing plutipotent stem cells, located within the follicle, in the growth of the follicular sensory nerve. Long-term Gelfoam® whisker histoculture enabled hair follicle nestin-expressing stem cells to promote the extensive elongation of the whisker sensory nerve, which contained axon fibers. Transgenic mice in which the nestin promoter drives green fluorescent protein (ND-GFP) were used as the source of the whiskers allowing imaging of the nestin-expressing stem cells as they formed the follicular sensory nerve. In the present report, we show that Gelfoam®-histocultured whisker follicles produced growing pigmented and unpigmented hair shafts. Hair-shaft length increased rapidly by day-4 and continued growing until at least day-12 after which the hair-shaft length was constant. By day-63 in histoculture, the number of ND-GFP hair follicle stem cells increased significantly and the follicles were intact. The present study shows that Gelfoam® histoculture can support extensive hair-shaft growth as well as hair follicle sensory-nerve growth from isolated hair follicles which were maintained over very long periods of time. Gelfoam® histoculture of hair follicles can provide a very long-term period for evaluating novel agents to promote hair growth.
Highlights
We previously established the technique of long-term Gelfoam1 histoculture of isolated whisker follicles from nestin-driven green fluorescent protein (ND-GFP) transgenic mice [1]
We have previously demonstrated that the whisker hair follicle contains nestin-expressing stem cells in the dermal papilla (DP) as well as in the bulge area (BA), with their origin in the BA [7]
Our results demonstrate that extensive hair-shaft elongation occurred in Gelfoam1 histoculture of mouse whisker follicles from ND-GFP transgenic mice
Summary
We previously established the technique of long-term Gelfoam1 histoculture of isolated whisker follicles from nestin-driven green fluorescent protein (ND-GFP) transgenic mice [1]. We previously reported the long-term growth, shaft elongation, and spontaneous regression of human hair follicles in Gelfoam1 histoculture of intact scalp skin. When mouse skin was histocultured on Gelfoam1, hair shafts elongation was observed for up to 14 days [10].
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