4.7 Article

The Remodeling of Dermal Collagen Fibrous Structures in Mice under Zero Gravity: The Role of Mast Cells

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MDPI
DOI: 10.3390/ijms24031939

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extracellular matrix; collagen fibers; mast cell; fibroblasts; zero gravity; skin

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This study analyzed the skin dermis of C57BL/6J mice after a long stay in space flight and found that weightlessness resulted in an increase in type III collagen-rich fibers and a decrease in co-localization of mast cells with fibroblasts and impregnated fibers. The potential molecular and cellular mechanisms for the changes in fibrillogenesis activity and the decrease in fibrous structures with a predominant content of type-I collagen under zero-gravity conditions are discussed.
Mechanisms of adaptive rearrangements of the fibrous extracellular matrix of connective tissues under microgravity practically remain unexplored, despite the most essential functions of the stroma existing to ensure the physiological activity of internal organs. Here we analyzed the biomaterial (the skin dermis) of C57BL/6J mice from the Rodent Research-4 experiment after a long stay in space flight. The biomaterial was fixed onboard the International Space Station. It was found that weightlessness resulted in a relative increase in type III collagen-rich fibers compared to other fibrous collagens in the skin. The number of mast cells in the skin did not change, but their secretory activity increased. At the same time, co-localization of mast cells with fibroblasts, as well as impregnated fibers, was reduced. Potential molecular-cellular causes of changes in the activity of fibrillogenesis under zero-gravity conditions and the slowdown of the polymerization of tropocollagen molecules into supramolecular fibrous structures, as well as a relative decrease in the number of fibrous structures with a predominant content of type-I collagen, are discussed. The data obtained evidence of the different sensitivity levels of the fibrous and cellular components of a specific tissue microenvironment of the skin to zero-gravity conditions. The obtained data should be taken into account in the systematic planning of long-term space missions in order to improve the prevention of undesirable effects of weightlessness.

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