Changes in the organisation and composition of extracellular matrix in human endometrium during the menstrual cycle and early pregnancy have been assessed by immunofluorescence. Amongst interstitial components, type-III and type V-collagens and fibronectin are present in endometrial stroma throughout the menstrual cycle as well as in first trimester decidua. Type V-collagen epitopes are masked early in the cycle, but become accessible in first trimester decidua. Type VI-collagen is abundant in endometrium in the proliferative phase, but is progressively lost in the secretory phase and decidua, in which it is retained only in blood vessel walls. Vitronectin is present in some blood vessels in decidua. Decidualising stromal cells also produce basement membrane components (type IV-collagen, laminin, heparan sulphate proteoglycan and a glycoprotein family recognised by monoclonal antibody G71) and these become organised into a pericellular aura.
We report for the first time that, after centrifugation of adult bovine vitreous, the hyaluronan-rich supernatant contains collagens which can be isolated in their intact forms by precipitation with 4.5 M NaCl. This precipitate constituted approx. 4% of the total vitreous collagen and comprised collagen types IX and II (in the approximate ratio of 4:1) with negligible amounts of type-V/XI collagen. Type-II collagen was present partly in a pro-alpha 1(II) form, suggesting that there is active synthesis of type-II collagen into the matrix of adult bovine vitreous. Type-IX collagen was purified (2-2.5 mg/l of vitreous) and its glycosaminoglycan chain composition was analysed. Bovine vitreous type-IX collagen always possessed a glycosaminoglycan chain of comparatively low M(r) that was predominantly 4-sulphated, with chondroitin 6-sulphate representing a more minor component. By contrast, chick vitreous has been shown to contain type-IX collagen which always possesses a high-M(r) chondroitin sulphate chain that is predominantly 6-sulphated. The functional significance of these different glycosaminoglycan chain lengths and sulphation patterns is discussed.
The peripheral high-affinity cyclic AMP phosphodiesterase from rat liver plasma membranes was purified to apparent homogeneity. The procedure used involved the initial purification of liver plasma membranes and the solubilization of the enzyme by using a high-ionic-strength medium. This was followed by chromatography of the enzyme on DEAE-cellulose, Affi-Gel Blue, a novel affinity column and Sephadex G-100. A 9500-fold purification of the enzyme with a 24% yield was achieved by this procedure. The purified enzyme was apparently monomeric (Mr 52000) as it exhibited identical molecular weights on analysis by gel filtration, sedimentation and sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. It is suggested that the non-Michaelis kinetics exhibited by the enzyme are due to it obeying a mnemonical mechanism, where it displays Km 0.7 micrometer, Vmax. 9.1 units/mg of protein and Hill coefficient (h) 0.62. Cyclic GMP acts as a poor substrate for the enzyme, with Km 120 micrometer and Vmax. 0.4 unit/mg of protein, and also as an inhibitor of the enzyme, with I50 (concentration giving 50% inhibition) 150 micrometer when assayed at 0.4 micrometer-cyclic AMP. Inhibition by 5'-AMP is unlikely to be of physiological importance, as it is only a weak inhibitor of the enzyme (I50 47 mM assayed at 0.4 micrometer-cyclic AMP).
The expression of collagen type VI in the extracellular matrix of rat uterine endometrial stroma after a decidual stimulus was examined by immunolocalization and immunoblotting. The intermediate filament protein, desmin, was used as a marker to identify decidual cells. Tissue was examined from pregnant animals and from ovariectomized, hormone-treated rats in which decidualization had been induced artificially. In undifferentiated tissue from both groups of animals, collagen type VI was abundant, and desmin was present only in vascular smooth muscle cells. By 72 h after a decidual stimulus, however, collagen type VI had essentially disappeared from the matrix of the antimesometrial stromal compartment, and desmin was highly expressed in the decidualizing cells. During regression of the decidual tissue, collagen type VI began to reappear in the stromal matrix, whereas desmin expression declined as decidual cells degenerated. These results indicate that remodeling of the uterine extracellular matrix in response to embryo implantation is a function of the differentiating decidual cell.
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