D K Scott1, R Lord, H K Muller, R C Malley, G M Woods. 1. Cancer and Immunology Research Group, Menzies Research Institute, University of Tasmania, Private Bag 29, Hobart, Tasmania 7001, Australia. dkscott@postoffice.utas.edu.au
Abstract
BACKGROUND: Skin develops through a process of epidermal proliferation, maturation, and remodelling of the epidermis and dermis. This period also involves the maturation of the skin immune system, such that antigen applied though the skin of a neonatal mouse always results in immunosuppression, whereas in adults, immunity will occur. OBJECTIVES: Using proteomics, to identify proteins uniquely involved in the development of the skin and skin immune system. METHODS: Proteins were extracted from whole skin of mice aged 4 and 21 days, and separated using two-dimensional electrophoresis. RESULTS: Of the 25 proteins that were sequenced by peptide mass fingerprinting with matrix-assisted laser desorption/ionization-time of flight-mass spectrometry, three were known markers of keratinocyte differentiation and proliferation. These were cyclophilin A, epidermal fatty acid binding protein 5 and stefin A. Of interest were the two isoforms of stefin A, an intracellular protease inhibitor, found in neonatal skin. The strong expression of stefin A in neonates was confirmed by immunohistochemical analysis, suggesting an important role in the development of the epidermis. Additionally, Western blotting identified two larger isoforms in adult skin, revealing a change in the stefin A during development. CONCLUSIONS: We propose that stefin A is involved in development of the skin, that development of the skin and of immune function is linked, and that stefin A has an important function in neonatal skin and potentially the neonatal immune response.
BACKGROUND: Skin develops through a process of epidermal proliferation, maturation, and remodelling of the epidermis and dermis. This period also involves the maturation of the skin immune system, such that antigen applied though the skin of a neonatal mouse always results in immunosuppression, whereas in adults, immunity will occur. OBJECTIVES: Using proteomics, to identify proteins uniquely involved in the development of the skin and skin immune system. METHODS: Proteins were extracted from whole skin of mice aged 4 and 21 days, and separated using two-dimensional electrophoresis. RESULTS: Of the 25 proteins that were sequenced by peptide mass fingerprinting with matrix-assisted laser desorption/ionization-time of flight-mass spectrometry, three were known markers of keratinocyte differentiation and proliferation. These were cyclophilin A, epidermal fatty acid binding protein 5 and stefin A. Of interest were the two isoforms of stefin A, an intracellular protease inhibitor, found in neonatal skin. The strong expression of stefin A in neonates was confirmed by immunohistochemical analysis, suggesting an important role in the development of the epidermis. Additionally, Western blotting identified two larger isoforms in adult skin, revealing a change in the stefin A during development. CONCLUSIONS: We propose that stefin A is involved in development of the skin, that development of the skin and of immune function is linked, and that stefin A has an important function in neonatal skin and potentially the neonatal immune response.
Authors: Magdalena Rudzinska-Radecka; Anastasia S Frolova; Anastasia V Balakireva; Neonila V Gorokhovets; Vadim S Pokrovsky; Darina V Sokolova; Dmitry O Korolev; Natalia V Potoldykova; Andrey Z Vinarov; Alessandro Parodi; Andrey A Zamyatnin Journal: Cells Date: 2022-04-25 Impact factor: 7.666
Authors: Abhilasha Gupta; Daniela Nitoiu; Donna Brennan-Crispi; Sankar Addya; Natalia A Riobo; David P Kelsell; Mỹ G Mahoney Journal: PLoS One Date: 2015-03-18 Impact factor: 3.240