Abstract
BackgroundMammalian hair play an important role in mammals’ ability to adapt to changing climatic environments. The seasonal circulation of yak hair helps them adapt to high altitude but the regulation mechanisms of the proliferation and differentiation of hair follicles (HFs) cells during development are still unknown. Here, using time series data for transcriptome and hormone contents, we systematically analyzed the mechanism regulating the periodic expression of hair development in the yak and reviewed how different combinations of genetic pathways regulate HFs development and cycling.ResultsThis study used high-throughput RNA sequencing to provide a detailed description of global gene expression in 15 samples from five developmental time points during the yak hair cycle. According to clustering analysis, we found that these 15 samples could be significantly grouped into three phases, which represent different developmental periods in the hair cycle. A total of 2316 genes were identified in these three consecutive developmental periods and their expression patterns could be divided into 9 clusters. In the anagen, genes involved in activating hair follicle growth are highly expressed, such as the WNT pathway, FGF pathway, and some genes related to hair follicle differentiation. In the catagen, genes that inhibit differentiation and promote hair follicle cell apoptosis are highly expressed, such as BMP4, and Wise. In the telogen, genes that inhibit hair follicle activity are highly expressed, such as DKK1 and BMP1. Through co-expression analysis, we revealed a number of modular hub genes highly associated with hormones, such as SLF2, BOP1 and DPP8. They may play unique roles in hormonal regulation of events associated with the hair cycle.ConclusionsOur results revealed the expression pattern and molecular mechanisms of the seasonal hair cycle in the yak. The findings will be valuable in further understanding the alpine adaptation mechanism in the yak, which is important in order to make full use of yak hair resources and promote the economic development of pastoral plateau areas.
Highlights
Mammalian hair play an important role in mammals’ ability to adapt to changing climatic environments
After we thoroughly investigated the Differentially expressed genes (DEGs) at different developmental stages, we found some Gene Ontology (GO) and Kyto encyclopaedia of genes and genomes (KEGG) pathways that are highly related to the hair cycle, as well as transcription factors involved in regulating the hair cycle
We found that the yak hair cycle can be divided into three periods with their own specific DEGs
Summary
Mammalian hair play an important role in mammals’ ability to adapt to changing climatic environments. The diversity and periodic regulation of mammalian hair play an important role in mammals’ ability to adapt to varying climatic environments [1]. The HFs cycle maintains its normal periodicity in response to a large and complex network of signaling pathways, which are differentially expressed in time and space to regulate hair follicle growth. Over the past few decades, signals that control the proliferation and differentiation of HFs cells during development and homeostasis have been studied extensively Several transcription factors, such as Tcf3/4, Lhx, p63, Dlx, Lef, Msx2/Foxn, etc., play critical roles in hair follicle stem cell activation, self-renewal, differentiation, and cycling by modulating several key signaling pathways [4]
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