Project description:Primary outcome(s): Comparison of the gene expression profile in hair follicle between cancer patients and healthy volunteer

Project description:In this study, in order to explore the role of autophagy of human hair follicle stem cells in hair growth, we explored new ideas for hair regrowth. In this study, rapamycin was used to treat hair follicle stem cells to promote autophagy, and the different expression of genes was observed by comparing with the blank control group.

Project description:mRNA profiling of human plucked hair follicle from frontal and occipital scalp

Project description:miRNA profiling of human plucked hair follicle from frontal and occipital scalp

Project description:Mouse hair follicles undergo synchronized cycles. Cyclical regeneration and hair growth is fueled by hair follicle stem cells (HFSCs). We used ChIP-seq to unfold genome-wide chromatin landscapes of Nfatc1 and dissect the biological relevence of its upstream BMP signaling in HFSC aging. Telogen quiescent hair follicle stem cells (HFSCs) were FACS-purified for ChIP-sequcencing.

Project description:The homing of exogenous hair follicle mesenchymal stem cells into hair follicle niches

Project description:Mouse keratinocytes were isolated from K15-EGFP transgenic mice for FACS sorting. RNA samples from EGFP-high and alpha-6 integrin positive cells (hair follicle stem cells) and from EGFP negative and alpha-6 integrin positive cells were used for Microarray analysis. Keywords = stem cells Keywords = hair follicle Keywords = epidermis Keywords = alopecia Keywords: ordered

Project description:Bioactive sphingolipids serve as an essential building block of membranes, forming a selective barrier ensuring subcellular compartmentalization and facilitating cell type-specific intercellular communication through regulation of the plasma membrane receptor repertoire. How the cell type-specific lipid compositions are achieved and what is their functional significance in tissue morphogenesis and maintenance has remained unclear. Here, we identify a stem-cell specific role for ceramide synthase 4 (CerS4) in orchestrating fate decisions in the skin epidermis. Deletion of CerS4 in the epidermis prevents the effective establishment of the adult hair follicle bulge stem cell (HFSCs) niche due to altered differentiation trajectories of HFSC precursors towards upper hair follicle and inner bulge fates. Mechanistically, the HFSC differentiation defects arise from a stem cell intrinsic imbalance of key ceramides and sphingolipids, and associated hyperactivity of canonical Wnt signaling. The lack of HFSCs leads to disruption of hair follicle architecture and hair follicle barrier function, ultimately triggering a Th2-dominated immune infiltration closely resembling human atopic dermatitis. This work uncovers a fundamental role for a cell state-specific sphingolipid profile in epidermal stem cell homeostasis and the role of an intact stem cell niche in maintaining an intact skin barrier.

Project description:We sequenced mRNA from FACS purified hair follicle bulge stem cells from 21 d old control and ILK-deficient mice, 3 biological replicates each Examination of mRNA levels in control and ILK-deficient hair follicle bulge stem cells

Project description:RNA was isolated from fluorescence activated cell sorted (FACS) CD49f+/CD34+/GFP- hair follicle stem cells after hair follicle keratinocyte isolation from the skin of age matched saline or diphtheria toxin (DT) treated Lgr5-DTReGFP mice. The "SAMPLE_ID" sample characteristic is a sample identifier internal to Genentech. The ID of this project in Genentech's ExpressionPlot database is PRJ0009986