Seasonal hair follicle activity and fibre growth in some Cashmere-bearing goats (Caprus hircus) is a cyclic process that is well characterized morphologically but understood incompletely at the molecular level. As a...Seasonal hair follicle activity and fibre growth in some Cashmere-bearing goats (Caprus hircus) is a cyclic process that is well characterized morphologically but understood incompletely at the molecular level. As an initial step in discovering regulators in hair-follicle activity and cycling, we used qPCR to investigate 19 genes expression in Cashmere goat side skin from 12 mon. Many of these genes may be associated with the hair follicle development-relevant genes (HFDRGs) in the literature. Here we show that Hoxc13/β-catenin gene associated with the follicle activity. In addition, Hoxc13 was found to be expressed with an drastic increase between July and November for melatonin treatments. To further investigate the role of Hoxcl3 on HFDRGs, fibroblasts and keratinocytes from Cashmere goat skin were transfected with p-ECFP- Hoxc13. The result suggested that overexpression ofHoxcl3 gene decreased HFDRGs with negative role for hair follicle development and increase HFDRGs with positive role for hair follicle development in vitro. These findings provide data on the Hoxc13 expression profile of normal Cashmere goat skin and Cashmere goat skin with melatonin treatment, and demonstrate hair-follicle-activity dependent regulation of Hoxc13 expression.展开更多
基金the National Natural Science Foundation of China (30960246)the Key Project of National Science and Technology Pillar Program of China (2011BAD28B05)+3 种基金the National High Technology Research and Development Program of China (2007AA10Z151)the Specialized Research Fund for the Doctoral Program of Higher Education(20091515120010)the Inner Mongolia Natural Science Foundation, China (20080404ZD04)the China Agriculture Research System (CARS-40)
文摘Seasonal hair follicle activity and fibre growth in some Cashmere-bearing goats (Caprus hircus) is a cyclic process that is well characterized morphologically but understood incompletely at the molecular level. As an initial step in discovering regulators in hair-follicle activity and cycling, we used qPCR to investigate 19 genes expression in Cashmere goat side skin from 12 mon. Many of these genes may be associated with the hair follicle development-relevant genes (HFDRGs) in the literature. Here we show that Hoxc13/β-catenin gene associated with the follicle activity. In addition, Hoxc13 was found to be expressed with an drastic increase between July and November for melatonin treatments. To further investigate the role of Hoxcl3 on HFDRGs, fibroblasts and keratinocytes from Cashmere goat skin were transfected with p-ECFP- Hoxc13. The result suggested that overexpression ofHoxcl3 gene decreased HFDRGs with negative role for hair follicle development and increase HFDRGs with positive role for hair follicle development in vitro. These findings provide data on the Hoxc13 expression profile of normal Cashmere goat skin and Cashmere goat skin with melatonin treatment, and demonstrate hair-follicle-activity dependent regulation of Hoxc13 expression.
