catenin is an ubiquitously distributed protein with multiple functions. It is crucially involved in a variety of biological processes, both during embryonic development and in the adult. This reporte summarized the important roles of beta-catenin in controlling the hair follicle morphogenesis and stem cell differentiation in the skin.

Objective To establish a rat skin organ culture model to study the initiation of hair follicle morphogenesis, and the dynamic expression of Wnt10b/β-catenin in the developing hair follicle. Methods The dorsal skins of SD rat at embryos 14-17 (E14-E17) were cultured on a gelatin sponge-supported tissue culture system at the air/liquid interface of DMEM with 10 % fetal bovine serum (FBS) for 3-6 days, some of which removed from El5 were cultured in DMEM with FBS of different concentrations. HE staining and fluoroimmunoassay were adopted. Results The model we established allowed skin tissues isolated from E14-E15 to develop in a manner that was histologically and temporarily similar to the process in vivo. However, the developing hair follicle ceased to continue when their morphogenetic process reached the forth stage, and the concentration of FBS did not show any significant effect on the development of hair follicle. Expression of Wnt10b/β-catenin was induced in culture, as it also occurred in vivo,but grew weak till it disappeared in culture for 6 days, which was accompanied by development halt of hair follicle. Conclusions A rat skin organ culture model is established in which the morphogenesis of hair follicle takes place in a manner similar to in vivo, and Wnt10b/β-catenin probably has a close connection with the early morphogenesis of hair follicle.

BACKGROUND:Autophagy has become a rapidly developing research hotspot in the biomedical fields.Many researchers are actively exploring the molecular regulatory mechanism of autophagy in a variety of diseases.However,the role of autophagy in hair growth is still unknown. OBJECTIVE:To review the current research progress and application value of autophagy in hair growth and regeneration,to understand the role of autophagy in hair growth,to explore the pathogenesis of autophagy in pathological hair loss,and to provide new ideas for the study of drugs for hair loss. METHODS:Using"hair follicle growth,hair growth,hair regeneration,autophagy associated proteins,autophagy activity,autophagy associated genes,autophagy"as Chinese search terms and"hair growth,hair follicle,hair regeneration,autophagy"as English search terms,PubMed and CNKI databases were searched.The research progress on autophagy,hair growth and the role of autophagy in hair growth in and outside China in recent years was reviewed and summarized.Articles incompatible with the subject content of the paper were excluded.Finally,78 articles were included for the result analysis. RESULTS AND CONCLUSION:(1)Autophagy is a normal metabolic process in eukaryotes with complex molecular mechanisms and functional properties,which is beneficial to cell survival and cell death.(2)Alopecia-related diseases are associated with changes in autophagy activity,which can regulate hair growth cycle.Knockout or overexpression of autophagy-related genes can change the state of hair growth.Multiple autophagy related signaling pathways have been found to be related to hair follicle growth.Activators or inhibitors of autophagy can be used to treat or prevent hair loss.

PURPOSETo explore the impact of subtropical maritime monsoon climate on the frequency of ambulance use for trauma patients in a coastal region in China.

METHODStatistical analysis of data on ambulance use from the 120 Emergency Command Center in Shantou City, Guangdong Province, from January to December 2012 as well as daily meteorological data from a Shantou observatory was performed to determine how climatic factors (seasons, time, and weather) affect the frequency of ambulance use for trauma patients.

RESULTSThe daily ambulance use for trauma patients differed between spring and summer or autumn (p<0.05), between sunny and rainy days (p<0.05), and between cloudy and lightly or moderately rainy days (p<0.05).We found a linear correlation between daily maximum temperature and daily ambulance use for trauma patients (R² =0.103, p<0.05). In addition, there was significant difference in ambulance use between good and bad weather (p<0.05).

CONCLUSIONFrequency of ambulance use for trauma patients is affected by the subtropical maritime monsoon climate in the coastal region. Better weather contributes to increased daily frequency of ambulance use, which is the highest in autumn and lowest in spring.

Ambulances ; China ; Climate ; Humans ; Retrospective Studies ; Wounds and Injuries ; therapy