Mutations in CSTA, encoding Cystatin A, underlie exfoliative ichthyosis and reveal a role for this protease inhibitor in cell-cell adhesion. (25/41)

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Serum cystatin C and microalbuminuria in the detection of vascular and renal damage in early stages. (26/41)

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Cystatin a, a potential common link for mutant myocilin causative glaucoma. (27/41)

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Imiquimod suppresses propagation of herpes simplex virus 1 by upregulation of cystatin A via the adenosine receptor A1 pathway. (28/41)

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Protein interaction and microRNA network analysis in osteoarthritis meniscal cells. (29/41)

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Comparative studies on the primary structure of human cystatin as from epidermis, liver, spleen, and leukocytes. (30/41)

We have studied the primary structure of human cystatin As from epidermis, liver, spleen, and leukocytes. These molecules were indistinguishable on PAGE in the presence and absence of SDS, by fast protein liquid chromatography (FPLC) chromatofocusing on a Mono P column, and in amino acid composition. The NH2- and COOH-terminal amino acid sequences of human cystatin As from epidermis, liver, and spleen were identical with those of human leukocyte cystatin A previously reported except for the lack of the NH2-terminal methionine residue in human epidermal cystatin A. The peptides obtained upon digestion of four human cystatin As with Achromobacter protease I (AP) showed identical peptide maps on HPLC except for different retention times of the NH2-terminal peptides. Furthermore, the amino acid compositions of corresponding separated peptide quartets were identical. We also determined the complete amino acid sequence of human epidermal cystatin A by sequencing peptides obtained from AP digestion and cyanogen bromide (CNBr) cleavage. It consisted of 97 amino acid residues, and was identical with those of human cystatin As from liver, spleen, and leukocytes except for the lack of the NH2-terminal methionine residue.  (+info)

Keratolinin: the soluble substrate of epidermal transglutaminase from human and bovine tissue. (31/41)

Substrates of human and bovine epidermal transglutaminase (glutaminyl-peptide gamma-glutamyltransferase, R-glutaminyl-peptide:amine-gamma-glutamyltransferase, EC 2.3.2.13) were isolated and purified by ion exchange chromatography and preparative zone electrophoresis. These substrates of Mr 36,000, which we propose to call keratolinin, incorporated dansylcadaverine and were precipitated by antibody. Keratolinin is ultimately polymerized on the inner leaflet of the keratinocyte membrane to form the cornified envelope. Each Mr 36,000 substrate was dissociated by chaotropic agents or detergents into noncovalent subunits; the Mr of these subunits was 6,000-6,200 on electrophoresis in 15% acrylamide/1% NaDodSO4/6 M urea gels. Isoelectric focusing of human or bovine keratolinin revealed two moieties separated by 0.3-0.4 pH unit (human, 5.4/5.0; bovine, 6.3/6.0). The two proteins were readily resolved by chromatofocusing and each isoelectric moiety of bovine keratolinin incorporated dansylcadaverine by epidermal transglutaminase and calcium and reacted with identity to antiserum to soluble Mr 36,000 keratolinin. Antiserum to human keratolinin failed to crossreact with its bovine counterpart. Antiserum to involucrin did not crossreact with either keratolinin or epidermis by immunodiffusion. Human and bovine epidermal keratolinins are biochemically similar but immunochemically distinct proteins from the epidermis. Involucrin appears only in significant quantities in cell culture.  (+info)

Cystatin S: a cysteine proteinase inhibitor of human saliva. (32/41)

An acidic protein of human saliva, which we named SAP-1 previously, is now shown to be an inhibitor of several cysteine proteinases. The protein inhibited papain and ficin strongly, and stem bromelain and bovine cathepsin C partially. However, it did not inhibit either porcine cathepsin B or clostripain. The mode of the inhibition of papain was found to be non-competitive. The name cystatin S has been proposed for this salivary protein in view of the similarities in activity and structure to other cysteine proteinase inhibitors such as chicken egg-white cystatin and human cystatins A, B, and C. The cystatin S antigen was detected immunohistochemically in the serous cells of human parotid and submaxillary glands.  (+info)