Abstract
To investigate the optimal androgen concentration for culturing Hetian sheep wool follicle and to detect effects of androgen concentration on wool follicle cell proliferation and apoptosis using immunofluorescence labeling and real-time quantitative fluorescence determinations of wool keratin-associated protein gene expression levels. Wool follicles were isolated by microdissection and wool follicles and skin pieces were cultured in various concentrations of dihydrotestosterone (DHT) in culture medium. Next, daily lengthwise growth measurements of wool follicles were obtained using a microscopic micrometer. Cultured Hetian wool follicles were stained using the SACPIC method to reveal wool follicle structure, while sheep skin slices were used to observe cell proliferation by immunostaining and cell apoptosis using the TUNEL method. At the molecular biological level, keratin-associated protein (Kap) gene expression was studied using wool follicles cultured for various numbers of days in vitro. Effects of androgen concentrations on Hetian wool follicle growth and development were experimentally studied. EdU proliferation assays revealed that androgen promoted cell proliferation within wool follicle dermal papillae. TUNEL apoptosis detection demonstrated that androgen treatment could delay cell apoptosis. Quantitative reverse transcription polymerase chain reaction (qPCR) results demonstrated that gene expression level patterns of Hetian mountain sheep super-high sulfur protein. Kap1.1, KIF1.2, Kap2.12 and Kap4.2 gene expression level of the mountainous experimental group was significantly higher than plains Hetian sheep. An androgen concentration of 100 nM can promote the growth of Hetian wool follicle cells in vitro, resulting in overexpression of some genes of the Kap family.
Highlights
Hetian sheep are a breed of sheep that have been cultivated by farmers and herdsman in Hetian, Xinjiang, China for centuries
Recent studies have indicated that administration of androgen to the skin of rats can both significantly accelerate development of hair follicles and prompt them to enter the growth phase, functioning as an endogenous secretory regulator of the hair cycle (Scher and Sawyers, 2005). and the AR -ligand complexes bind to DNA to activate hormone-responsive components that regulate gene expression and affect protein synthesis such as Keratin association protein (Kap)and Keratin Intermediate filament(IF)
As the effects of androgens on hair follicles are still unknown, the purpose of this study is to explore androgen effects on follicle growth of keratin-associated protein gene expression levels and the hair follicle cell development (Lee et al, 2006)
Summary
Hetian sheep are a breed of sheep that have been cultivated by farmers and herdsman in Hetian, Xinjiang, China for centuries. The breed is famous for its ability to adapt to geographically unique desert and semi-desert environments and for its ability produce high-quality wool for production of semi-coarse wool carpets in China. Studies have shown that growth and development of wool follicles are regulated by many factors, including regulation at the hormone level. Recent studies have indicated that administration of androgen to the skin of rats can both significantly accelerate development of hair follicles and prompt them to enter the growth phase, functioning as an endogenous secretory regulator of the hair cycle (Scher and Sawyers, 2005). As the effects of androgens on hair follicles are still unknown, the purpose of this study is to explore androgen effects on follicle growth of keratin-associated protein gene expression levels and the hair follicle cell development (Lee et al, 2006). This study should provide a theoretical foundation on which to base future efforts toward improving Hetian wool quality and regulate hair follicle development
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