Bovine corneal Descemet's membrane (DM) was subjected to limited pepsin digestion. Soluble native collagens were fractionated by differential salt precipitation, and a mixture of type V collagen and collagenous fragments with a chain Mr of 50,000 (50K) was obtained at a concentration of 1.5 M NaCl. Further purification of the 50K collagen by molecular sieve and high-performance liquid chromatography resulted in the isolation of two-non-disulfide-bonded polypeptides, 50K-A and 50K-B, which were susceptible to several neutral proteases, including bacterial collagenase. By the criteria of peptide mapping, amino acid composition, and N-terminal sequence analysis, 50K-A and 50K-B were structurally dissimilar, although both chains contained Gly-X-Y repeats. 50K-A and 50K-B were immunologically and structurally distinct from collagen type I, III, IV, V, and VI. Immunohistochemical studies of bovine ocular tissue showed preferential distribution of the collagen containing the 50K fragment in the DM, with a more disperse arrangement of apparently interconnecting fibrils in the corneal stroma. Type VIII collagen isolated from the culture medium of metabolically radiolabeled bovine corneal endothelial (BCE) cells and its pepsin-resistant Mr 50 000 domain(s) both cross-reacted with antisera to 50K polypeptides from the corneal DM. Additionally, the CNBr peptide maps of pepsin-resistant Mr 50 000 polypeptides of type VIII collagen isolated from BCE cells and bovine corneal DM were highly similar.(ABSTRACT TRUNCATED AT 250 WORDS)
Platelet adhesion to fibrillar collagens (types I, II, III, and V) and nonfibrillar collagens (types IV, VI, VII, and VIII) was investigated in the presence of physiologic concentrations of divalent cations under conditions of stasis and flow. Under static conditions, platelet adhesion was observed to collagen types I through VII but not to type VIII. Under flow conditions, platelet adhesion to collagen types I, II, III, and IV was almost independent of shear rates above 300/s. Collagen type V was nonadhesive. Platelet adhesion to collagen type VI was shear rate-dependent and optimal at a rate of 300/s. Collagen types VII and VIII showed minor reactivity and supported platelet adhesion only between shear rates 100 to 1,000/s. Monoclonal antibody (MoAb) 176D7, directed against platelet membrane glycoprotein Ia (GPIa; very late antigen [VLA]-alpha 2 subunit), completely inhibited platelet adhesion to all collagens tested, under conditions of both stasis and flow. Platelet adhesion to collagen type III at shear rate 1,600/s was only inhibited for 85%. The concentration of antibody required for complete inhibition of platelet adhesion was dependent on the shear rate and the reactivity of the collagen. An MoAb directed against GPIIa (VLA-beta subunit) partially inhibited platelet adhesion to collagen. These results show that GPIa-IIa is a major and universal platelet receptor for eight unique types of collagen.
Secreted protein acidic and rich in cysteine (SPARC) is a matricellular protein that inhibits cellular adhesion and proliferation. In this study, we report the detection of SPARC in the interphase nuclei of embryonic chicken cells in vivo. Differential partitioning of SPARC was also noted in the cytoplasm of these cells during discrete stages of M-phase: cells in metaphase and anaphase exhibited strong cytoplasmic immunoreactivity, whereas cells in telophase were devoid of labeling. Immunocytochemical analysis of embryonic chicken cells in vitro likewise showed the presence of SPARC in the nucleus. Furthermore, elution of soluble proteins and DNA from these cells indicated that SPARC might be a component of the nuclear matrix. We subsequently examined cultured bovine aortic endothelial cells, which initially appeared to express SPARC only in the cytoplasm. However, after elution of soluble proteins and chromatin, we also detected SPARC in the nuclear matrix of these cells. Embryonic chicken cells incubated with recombinant SPARC were seen to take up the protein and to translocate it to the nucleus progressively over a period of 17 h. These observations provide new information about SPARC, generally recognized as a secreted glycoprotein that mediates interactions between cells and components of the extracellular matrix. The evidence presented in this study indicates that SPARC might subserve analogous functions in the nuclear matrix.
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