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Decreased expression of neuregulin1 in the lesional skin of vitiligo patients
Author(s) -
Rani Seema,
Kumari Uma,
Bhardwaj Supriya,
Parsad Davinder,
Sharma Vijay L.,
Kumar Ravinder
Publication year - 2019
Publication title -
international journal of dermatology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.677
H-Index - 93
eISSN - 1365-4632
pISSN - 0011-9059
DOI - 10.1111/ijd.14161
Subject(s) - vitiligo , dermis , melanocyte , microphthalmia associated transcription factor , medicine , melanin , immunohistochemistry , paracrine signalling , epidermis (zoology) , biology , pathology , tyrosinase , cancer research , melanoma , immunology , anatomy , receptor , genetics , biochemistry , enzyme
Background Paracrine cross‐talk exists between the fibroblasts of dermis and epidermal cells through secretions of various growth factors. Melanocytes present at the basement layer of the epidermis and respond to various factors secreted by underlying dermal fibroblasts in the dermis to regulate the function of the skin. Objective Therefore the study was planned to check the expression of fibroblast‐derived factor neuregulin1 (NRG1) in vitiligo skin and its effect on melanocytes. Methods For this study, relative gene expression at mRNA level of NRG1 in the vitiligo skin was analyzed by qRT‐PCR, and protein analysis was done by immunohistochemistry. Effect of different concentrations of NRG1 was checked on the cultured melanocytes by melanin content assay, proliferation assay, and tyrosinase (TYR) assay. The effect of NRG1 was also checked on the level of melanocyte regulatory genes (MITF, c‐KIT, TYR, DCT). Results Expression of NRG1 was significantly less in lesional dermis of vitiligo patients as compared to nonlesional and healthy control dermis both at mRNA as well as protein level. NRG1 treatment showed significant increase in proliferation, melanin content, TYR level, and gene expression level of melanocyte specific genes. Conclusion Treatment of NRG1 to the cultured melanocytes increases proliferation and pigmentation. Lower expression of NRG1 in the lesional dermis of vitiligo patients inhibits the melanocyte growth. Therefore this study hypothesized that low expression of NRG1 in lesional skin of vitiligo patients might have a possible role in the melanocyte loss and vitiligo pathogenesis.