We previously demonstrated that a novel mutation, characterized by light-colored coats and ruby eyes, which occurred spontaneously in mice in our laboratory, exhibited deletion in the Hps5 gene (ru2d/Hps5ru2-d). To clarify the mechanism of this hypopigmentation, the characteristics of the neonatal development of ru2d/ru2d melanocytes were investigated in detail with special reference to those of / melanocytes. In ru2d/ru2d mice, there were fewer epidermal melanocytes than in / mice, whereas there was no difference in numbers of epidermal melanoblasts in / and ru2d/ru2dmice, both in dorsal and ventral skin. Epidermal melanocytes with increased dopa-melanin deposition and dendritogenesis were greatly increased by injecting L-Tyr subcutaneously into newborn ru2d/ru2dmice. The eumelanin content in the epidermis and dermis in postnatal ru2d/ru2d mice was much lower than in / mice, whereas similar pheomelanin content was observed 5.5 or 7.5 days after birth both in dorsal and ventral skins. Moreover, the eumelanin content in the dorsal and ventral hairs in 5-week-old ru2d/ru2d mice was much lower than in / mice, whereas pheomelanin content was two to four times greater than in / mice. These results suggest that the ru2d allele suppresses the differentiation of melanocytes through the inhibition of eumelanin synthesis, but stimulates pheomelanin synthesis in melanocytes.
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1 October 2012
A New Mutation of Mouse Ruby-eye 2, ru2d/Hps5ru2-d Inhibits Eumelanin Synthesis but Stimulates Pheomelanin Synthesis in Melanocytes
Tomohisa Hirobe,
Kazumasa Wakamatsu,
Shosuke Ito
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Zoological Science
Vol. 29 • No. 10
October 2012
Vol. 29 • No. 10
October 2012
Hermansky-Pudlak syndrome
melanoblasts
melanocyte
ruby-eye
tyrosinase