Abstract
We recently reported that L-ascorbic acid 2-phosphate (AP) stimulates the growth of human dermal papilla (DP) cells, induces secretion of IGF-1 from the DP cells to promote hair shafts elongation in cultured human hair follicles, and triggers early progression from the telogen to anagen phase in mice. Since the magnesium salt of AP (APMg) is a highly hydrophilic ionic molecule, it is not easy to deliver this reagent to the skin or hair follicles by topical application alone. In order to enhance skin penetration of APMg without changing any molecular properties, a non-invasive iontophoretic delivery method was introduced. Iontophoresis of the negatively charged APMg under the electrode bearing same charge (cathode) significantly enhanced the in vitro penetration of APMg into a Franz cell equipped with mouse dorsal skin. In contrast, iontophoretic movement with the anode inhibited APMg penetration achieved with passive diffusion alone. The effect of iontophoresis on enhancing the penetration of APMg was also found to be much higher in the skin of hairy mice (3 - 8 times) compared to hairless mice (1.5 - 2.5 times). These findings indicated that iontophoretic movement induced the transfollicular pathway more strongly and effectively than the transdermal pathway. This phenomena was also demonstrated by the in vivo iontophoretic delivery of sodium fluorescein using hairy and hairless mice. The degree of iontophoretic enhancement during APMg penetration was also dependent on various conditions such as current density and application duration.
Highlights
The mammalian hair follicle is a finely organized, multilayered, and dynamic organ
We recently reported that L-ascorbic acid 2-phosphate (AP) stimulates the growth of human dermal papilla (DP) cells, induces secretion of IGF-1 from the DP cells to promote hair shafts elongation in cultured human hair follicles, and triggers early progression from the telogen to anagen phase in mice
Iontophoresis with the cathode against the negative charge of the acid phosphate magnesium salt n-hydrate (APMg) molecule significantly enhanced the in vitro penetration over time while application with the anode resulted in penetration less than that achieved with passive diffusion
Summary
Hair follicles contain epithelial and dermal components. L-ascorbic acid (vitamin C) modulates collagen synthesis and acts as an effective antioxidant. This compound is unstable in aqueous solutions; the half-life of ascorbate in culture medium is 1 - 2 h. These properties limit the universal use of L-ascorbic acid. APMg is known to stimulate the growth of human dermal fibroblasts and osteoblasts [2]. It promotes hair growth in in vitro and in vivo experiments [3,4,5]. Lipidrich stratum corneum is a highly resistant barrier that prevents APMg penetration into the hair follicle and skin
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