Abstract
The expression of type VI collagen has been studied in mouse tissues. By Northern blotting, the mRNA for the alpha 1 (VI) chain was detectable in whole embryos at 10.5 days postcoitum and steeply increased afterward. The messenger levels were high at birth, but decreased rapidly in the following days, reaching low levels in adult animals. In 2-month-old mice, lung, skin, adrenal gland, heart, skeletal muscle and tail and fat were among the most active producers of alpha 1 (VI) mRNA. In situ hybridization first identified mRNA for alpha 1 (VI) collagen in mesenchymal cells of 10.5-day embryos in various locations, including serosae, branchial arches, large blood vessels and the cephalic mesenchyme. Staining increased at later stages of development and most connective tissues were positive at 16.5 days and later. Strongly staining tissues were joints, intervertebral disks, perichondrium, periostium, dermis, skeletal muscle and heart valves, whereas cartilage and bone were very poorly labelled. Epithelia and the central nervous system were completely negative. In several organs, notably lung, salivary glands and the digestive tract, staining was concentrated underneath epithelia. This staining pattern was different from that for collagen type I, which was evenly distributed in the subepithelial mesenchyme. The pattern of distribution of the protein, revealed by immunocytochemistry, was coincident with that of the alpha 1 (VI) mRNA. In addition, the results confirmed that type VI collagen is preferentially deposited in the pericellular environment. This was particularly evident in skeletal muscle. The data show that type VI collagen is mainly produced by mesenchymal cells and suggest a role for the protein in delineating the boundary of distinct domains in connective tissue.
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