FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2905171557> ?p ?o ?g. }

• W2905171557 endingPage "105" @default.
• W2905171557 startingPage "93" @default.
• W2905171557 abstract "HFs strongly interact with adipocytes within dWAT, suggesting a strong physiological dependence on the content of immature and mature adipocytes in this layer. This content is regulated by the proliferation and differentiation of adipose precursors and preadipocytes, as well as by dedifferentiation of mature existing adipocytes leading to the production of adipocyte-derived preadipocytes. Long-range spatial interactions between HFs and dermal adipocytes involve the exchange of extracellular vesicles which are differentially released by precursors, preadipocytes, and mature adipocytes, and are likely to carry various proteomic fingerprints during different phases of the HF cycle, effectively modulating the transcriptome profile of the recipient HFs. Different exogenous factors, including light irradiation and some chemical agents, can affect immature and immature adipocytes, and are likely to modify the release of adipocyte-derived exosomes in dWAT, which can lead to aberrations of the HF cycle. Dermal adipocytes should be considered as a potential target both for the modulation of hair growth and for the removal of unwanted hair. Hair follicles (HFs) strongly interact with adipocytes within the dermal white adipose tissue (dWAT), suggesting a strong physiological dependence on the content of immature and mature adipocytes in this layer. This content is regulated by the proliferation and differentiation of adipocyte precursors, as well as by dedifferentiation of mature existing adipocytes. Spatially, long-range interactions between HFs and dWAT involve the exchange of extracellular vesicles which are differentially released by precursors, preadipocytes, and mature adipocytes. Different exogenous factors, including light irradiation, are likely to modify the release of adipocyte-derived exosomes in dWAT, which can lead to aberrations of the HF cycle. Consequently, dWAT should be considered as a potential target for the modulation of hair growth. Hair follicles (HFs) strongly interact with adipocytes within the dermal white adipose tissue (dWAT), suggesting a strong physiological dependence on the content of immature and mature adipocytes in this layer. This content is regulated by the proliferation and differentiation of adipocyte precursors, as well as by dedifferentiation of mature existing adipocytes. Spatially, long-range interactions between HFs and dWAT involve the exchange of extracellular vesicles which are differentially released by precursors, preadipocytes, and mature adipocytes. Different exogenous factors, including light irradiation, are likely to modify the release of adipocyte-derived exosomes in dWAT, which can lead to aberrations of the HF cycle. Consequently, dWAT should be considered as a potential target for the modulation of hair growth." @default.
• W2905171557 created "2018-12-22" @default.
• W2905171557 creator A5011654690 @default.
• W2905171557 creator A5014680330 @default.
• W2905171557 creator A5077747436 @default.
• W2905171557 date "2019-02-01" @default.
• W2905171557 modified "2023-10-16" @default.
• W2905171557 title "The Role of Immature and Mature Adipocytes in Hair Cycling" @default.
• W2905171557 cites W1558442378 @default.
• W2905171557 cites W1921971607 @default.
• W2905171557 cites W1964847767 @default.
• W2905171557 cites W1964872204 @default.
• W2905171557 cites W1969938783 @default.
• W2905171557 cites W1978250223 @default.
• W2905171557 cites W1985842109 @default.
• W2905171557 cites W1986056508 @default.
• W2905171557 cites W1988349464 @default.
• W2905171557 cites W1990005278 @default.
• W2905171557 cites W1990829173 @default.
• W2905171557 cites W1996333941 @default.
• W2905171557 cites W1999310024 @default.
• W2905171557 cites W2005237823 @default.
• W2905171557 cites W2007853610 @default.
• W2905171557 cites W2009724225 @default.
• W2905171557 cites W2014751507 @default.
• W2905171557 cites W2019551443 @default.
• W2905171557 cites W2034186518 @default.
• W2905171557 cites W2039000256 @default.
• W2905171557 cites W2045305474 @default.
• W2905171557 cites W2048135890 @default.
• W2905171557 cites W2049598608 @default.
• W2905171557 cites W2051841192 @default.
• W2905171557 cites W2055412943 @default.
• W2905171557 cites W2059895279 @default.
• W2905171557 cites W2061488647 @default.
• W2905171557 cites W2069417165 @default.
• W2905171557 cites W2080551843 @default.
• W2905171557 cites W2100595174 @default.
• W2905171557 cites W2100771939 @default.
• W2905171557 cites W2102348094 @default.
• W2905171557 cites W2104085328 @default.
• W2905171557 cites W2111048777 @default.
• W2905171557 cites W2113216132 @default.
• W2905171557 cites W2116725553 @default.
• W2905171557 cites W2119036906 @default.
• W2905171557 cites W2123477094 @default.
• W2905171557 cites W2130147528 @default.
• W2905171557 cites W2137246327 @default.
• W2905171557 cites W2140869049 @default.
• W2905171557 cites W2143150256 @default.
• W2905171557 cites W2148293218 @default.
• W2905171557 cites W2154993767 @default.
• W2905171557 cites W2158831156 @default.
• W2905171557 cites W2162822590 @default.
• W2905171557 cites W2163974722 @default.
• W2905171557 cites W2164644435 @default.
• W2905171557 cites W2168092468 @default.
• W2905171557 cites W2168581752 @default.
• W2905171557 cites W2175635925 @default.
• W2905171557 cites W2183121784 @default.
• W2905171557 cites W2192823111 @default.
• W2905171557 cites W2231696951 @default.
• W2905171557 cites W2274320155 @default.
• W2905171557 cites W2324407365 @default.
• W2905171557 cites W2345880211 @default.
• W2905171557 cites W2500443942 @default.
• W2905171557 cites W2531600570 @default.
• W2905171557 cites W2535755983 @default.
• W2905171557 cites W2548467890 @default.
• W2905171557 cites W2561525464 @default.
• W2905171557 cites W2567017168 @default.
• W2905171557 cites W2568092366 @default.
• W2905171557 cites W2587242485 @default.
• W2905171557 cites W2591421254 @default.
• W2905171557 cites W2602842493 @default.
• W2905171557 cites W2608143851 @default.
• W2905171557 cites W2613931985 @default.
• W2905171557 cites W2618931365 @default.
• W2905171557 cites W2740162378 @default.
• W2905171557 cites W2740585606 @default.
• W2905171557 cites W2748547763 @default.
• W2905171557 cites W2783391114 @default.
• W2905171557 cites W2789520265 @default.
• W2905171557 cites W2796180602 @default.
• W2905171557 cites W2800077700 @default.
• W2905171557 cites W2800829571 @default.
• W2905171557 cites W2894994712 @default.
• W2905171557 cites W2119329640 @default.
• W2905171557 doi "https://doi.org/10.1016/j.tem.2018.11.004" @default.
• W2905171557 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6348020" @default.
• W2905171557 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30558832" @default.
• W2905171557 hasPublicationYear "2019" @default.
• W2905171557 type Work @default.
• W2905171557 sameAs 2905171557 @default.
• W2905171557 citedByCount "27" @default.
• W2905171557 countsByYear W29051715572019 @default.
• W2905171557 countsByYear W29051715572020 @default.
• W2905171557 countsByYear W29051715572021 @default.

• next