Transcription Factor DLX5 Promotes Hair Follicle Stem Cell Differentiation by Regulating the c-MYC/microRNA-29c-3p/NSD1 Axis.

INTRODUCTION: Adult stem cell function has been one of the most intensively explored areas of biological and biomedical research, with hair follicle stem cells serving as one of the best model systems. This study explored the role of the transcription factor DLX5 in regulating hair follicle stem cell (HFSC) differentiation. METHODS: HFSCs were isolated, characterized, and assessed for their expression of DLX5, c-MYC, NSD1, and miR-29c-3p using RT-qPCR, Western blot analysis, or immunofluorescence. Next, the ability of HFSCs to proliferate as well as differentiate into either sebaceous gland cells or epidermal cells was determined. The binding of DLX5 to the c-MYC promoter region, the binding of c-MYC to the miR-29c-3p promoter region, and the binding of miR-29c-3p to the 3'-UTR of NSD1 mRNA were verified by luciferase activity assay and ChIP experiments. RESULTS: DLX5 was highly expressed in differentiated HFSCs. DLX5 transcriptionally activated c-MYC expression to induce HFSC differentiation. c-MYC was able to bind the miR-29c-3p promoter and thus suppressed its expression. Without miR-29c-3p mediated suppression, NSD1 was then able to promote HFSC differentiation. These in vitro experiments suggested that DLX5 could promote HFSC differentiation via the regulation of the c-MYC/miR-29c-3p/NSD1 axis. DISCUSSION: This study demonstrates that DLX5 promotes HFSC differentiation by modulating the c-MYC/miR-29c-3p/NSD1 axis and identifies a new mechanism regulating HFSC differentiation.

[Research progress of autogenous cartilage scaffold carving method in rhinoplasty].

OBJECTIVE: To summarize the research progress of autogenous cartilage scaffold carving method in rhinoplasty. METHODS: The relevant literature about the autogenous cartilage scaffold carving methods in rhinoplasty in resent years at home and abroad was reviewed, and the carving skills, shape, and application scope of different parts of nasal scaffolds were summarized and analyzed. RESULTS: Willow-leaf shape is still the main method of cartilage scaffold in the back of the nose. However, in nasal reconstruction, it can be carved into an L-shaped scaffold with the nasal columella scaffold through mortise and tenon structure. And it can also crush the autologous cartilage and wrap it with the autologous fascia tissue to form a new nasal dorsal scaffold. The nasal tip scaffold is improved by changing the shape of traditional nasal tip cartilage cap and wrapping with fascia tissue; the nasal alar scaffold has M-shape, q-shape, carving methods; the nasal columella and nasal septum are mostly used "2+2" combined fixed scaffold. The cartilage scaffolds of lateral nose and nasal base are mainly carved in the shape of "" and crescent. CONCLUSION: As a rhinoplasty scaffold, there are various carving methods for autogenous cartilage. With the innovation of surgical technique and the improvement of sculpting technique, the effect of autologous cartilage graft in rhinoplasty is getting better and better; meanwhile, tissue engineered cartilage is being applied in rhinoplasty.

LncRNA-XIST promotes dermal papilla induced hair follicle regeneration by targeting miR-424 to activate hedgehog signaling.

BACKGROUND: Alopecia is a highly prevalent disease characterizing by the loss of hair. Dermal papilla (DP) cells are the inducer of hair follicle regeneration, and in vitro three-dimensional (3D) culturing DP cells have been proven to induce hair follicle regeneration. However, the molecular mechanisms behind the regulation of 3D culturing DP cells remain unclear. METHODS: 3D-cultivated DP cells were used as in vitro cell model. DP sphere xenograft to nude mice was performed for in vivo study of hair follicle regeneration. qRT-PCR, Western blotting, and immunofluorescence were used for detecting the level of XIST, miR-424 and Hedgehog pathway-related proteins, respectively. H&E staining was used to examine hair neogenesis. Cell viability, proliferation and ALP activity were measured by MTT, CCK-8 and ELISA assays, respectively. Luciferase assays were used for studying molecular regulation between XIST, miR-424 and Shh 3'UTR. RESULTS: XIST and Shh were up-regulated, and miR-424 was down-regulated in 3D DP cells. Molecular regulation studies suggested that XIST sponged miR-424 to promote Shh expression. Knockdown of XIST suppressed DP cell activity, cell proliferation, ALP activity and the expression of other DP markers by sponging miR-424. Knockdown of XIST suppressed Shh mediated hedgehog signaling by targeting miR-424. Moreover, the knockdown of XIST inhibited DP sphere induced in vivo hair follicle regeneration and hair development. CONCLUSION: XIST sponges miR-424 to promote Shh expression, thereby activating hedgehog signaling and facilitating DP mediated hair follicle regeneration.

[Expression of Egr-1, Nab2 and Cav-1 and its relationship with scar hyperplasia].

Objective To investigate the expression of early growth response protein 1 (Egr-1),NGFI-A binding protein 2 (Nab2) and caveolin 1 (Cav-1) in normal skin,flat-cicatrix and hypertrophic scar,and explore its role in the formation of hypertrophic scar.Methods The expression of Egr-1,Nab2 and Cav-1 protein in 9 normal skin tissues,8 flat-cicatrix tissues and 9 hypertrophic scar tissues were examined with immunohistochemistry SP method and were analyzed statistically.Results The expression of Egr-1 in epidermal cells of hypertrophic scar was significantly higher than that in normal skin and flat scar tissue.The expression of Egr-1 increased in the course of scar proliferation.The distribution patterns of Nab2 were different from Egr-1.The expression of Egr-1 was increased,while expression of Nab2 was decreased.The expression of Cav-1 in normal skin and flat-cicatrix was significantly higher than that in hypertrophic scar.Conclusions The expression of Egr-1,Nab2 and Cav-1 is closely related to the formation of hypertrophic scar,and the up-regulated expression of Egr-1 and the deficient expression of Nab2 and Cav-1 may be the indicators of the progress of formation of hypertrophic scar.