Autoantibodies against a novel epithelial cadherin in pemphigus vulgaris, a disease of cell adhesion
暂无分享,去创建一个
Masayuki Amagai | M. Amagai | J. Stanley | V. Klaus-Kovtun | John R. Stanley | Vera Klaus-Kovtun | V. Klaus-kovtun
[1] B. Hoffman,et al. A simple and very efficient method for generating cDNA libraries. , 1983, Gene.
[2] M. Takeichi,et al. Cadherin cell adhesion receptors as a morphogenetic regulator. , 1991, Science.
[3] M. Ringwald,et al. The structure of cell adhesion molecule uvomorulin. Insights into the molecular mechanism of Ca2+‐dependent cell adhesion. , 1987, The EMBO journal.
[4] P. Merlob,et al. Neonatal pemphigus vulgaris. , 1986, Pediatrics.
[5] M. Yaar,et al. Pemphigus antibodies identify a cell surface glycoprotein synthesized by human and mouse keratinocytes. , 1982, The Journal of clinical investigation.
[6] R. Goldman,et al. A cell surface desmosome-associated component: identification of tissue-specific cell adhesion molecule. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[7] L. Diaz,et al. Monovalent Fab' immunoglobulin fragments from endemic pemphigus foliaceus autoantibodies reproduce the human disease in neonatal Balb/c mice. , 1990, The Journal of clinical investigation.
[8] R. Hynes,et al. Plakoglobin: A protein common to different kinds of intercellular adhering junctions , 1986, Cell.
[9] M. Sabolinski,et al. Substrate specificity of anti-epithelial antibodies of pemphigus vulgaris and pemphigus foliaceus sera in immunofluorescence tests on monkey and guinea pig esophagus sections. , 1987, The Journal of investigative dermatology.
[10] N. Patel,et al. On the molecular organization, diversity and functions of desmosomal proteins. , 1987, Ciba Foundation symposium.
[11] J. Stanley,et al. A 230-kD basic protein is the major bullous pemphigoid antigen. , 1989, The Journal of investigative dermatology.
[12] S. Hirohashi,et al. Molecular cloning of a human Ca2+-dependent cell-cell adhesion molecule homologous to mouse placental cadherin: its low expression in human placental tissues , 1989, The Journal of cell biology.
[13] A. Nose,et al. Isolation of placental cadherin cDNA: identification of a novel gene family of cell‐cell adhesion molecules. , 1987, The EMBO journal.
[14] E. Fuchs,et al. Regulation of terminal differentiation of cultured human keratinocytes by vitamin A , 1981, Cell.
[15] J. Engel,et al. Single amino acid substitutions in one Ca2+ binding site of uvomorulin abolish the adhesive function , 1990, Cell.
[16] J. Devereux,et al. A comprehensive set of sequence analysis programs for the VAX , 1984, Nucleic Acids Res..
[17] H. Shimizu,et al. Production of rabbit antibodies against carboxy-terminal epitopes encoded by bullous pemphigoid cDNA. , 1990, The Journal of investigative dermatology.
[18] W. Gammon,et al. Mechanism of lesion production in pemphigus and pemphigoid. , 1982, Journal of the American Academy of Dermatology.
[19] R. Kemler,et al. Correct proteolytic cleavage is required for the cell adhesive function of uvomorulin , 1990, The Journal of cell biology.
[20] P. Goodfellow,et al. N‐Cadherin Gene Maps to Human Chromosome 18 and Is Not Linked to the E‐Cadherin Gene , 1990, Journal of neurochemistry.
[21] D. Parry,et al. Structural analysis and expression of human desmoglein: a cadherin-like component of the desmosome. , 1991, Journal of cell science.
[22] J. Sambrook,et al. Molecular Cloning: A Laboratory Manual , 2001 .
[23] P. Cowin,et al. Antibodies to epithelial desmosomes show wide tissue and species cross-reactivity , 1983, Nature.
[24] W. Eaglstein,et al. Detection of basement membrane zone antigens during epidermal wound healing in pigs. , 1981, The Journal of investigative dermatology.
[25] E. Beutner,et al. The Immunopathology of Pemphigus and Bullous Pemphigoid**From the Department of Microbiology, SUNY at Buffalo School of Medicine, Buffalo, New York, Mayo Graduate School of Medicine, Rochester, Minn., and the Department of Dermatology, Warsaw Medical School, Warsaw, Poland. , 1968 .
[26] J. Stanley,et al. Human autoantibodies against a desmosomal protein complex with a calcium-sensitive epitope are characteristic of pemphigus foliaceus patients , 1987, The Journal of experimental medicine.
[27] J. Stanley,et al. Identification of pemphigus vulgaris antigen extracted from normal human epidermis and comparison with pemphigus foliaceus antigen. , 1988, The Journal of clinical investigation.
[28] J. Voorhees,et al. Induction of pemphigus in neonatal mice by passive transfer of IgG from patients with the disease. , 1982, The New England journal of medicine.
[29] K. Yasuda,et al. Transformation of cell adhesion properties by exogenously introduced E-cadherin cDNA , 1987, Nature.
[30] J. C. Jones,et al. Further analysis of pemphigus autoantibodies and their use in studies on the heterogeneity, structure, and function of desmosomes , 1986, The Journal of cell biology.
[31] O. Blaschuk,et al. Identification of a cadherin cell adhesion recognition sequence. , 1990, Developmental biology.
[32] M. Amagai,et al. Southern analysis of the 230-kD bullous pemphigoid antigen gene in normal humans, animals, and patients with junctional epidermolysis bullosa. , 1991, The Journal of investigative dermatology.
[33] E. Beutner,et al. The immunopathology of pemphigus and bullous pemphigoid. , 1989, The Journal of investigative dermatology.
[34] F. Watt,et al. Desmosomal glycoprotein DGI, a component of intercellular desmosome junctions, is related to the cadherin family of cell adhesion molecules. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[35] M. S. Steinberg,et al. Human autoantibodies against a desmosomal core protein in pemphigus foliaceus , 1984, The Journal of experimental medicine.
[36] P. Jensen,et al. Involvement of urokinase-type plasminogen activator in acantholysis induced by pemphigus IgG. , 1987, The Journal of investigative dermatology.
[37] J. Stanley. Pemphigus and pemphigoid as paradigms of organ-specific, autoantibody-mediated diseases. , 1989, The Journal of clinical investigation.
[38] D. Woodley,et al. Identification and partial characterization of pemphigoid antigen extracted from normal human skin. , 1984, The Journal of investigative dermatology.
[39] K. Hashimoto,et al. Anti-cell surface pemphigus autoantibody stimulates plasminogen activator activity of human epidermal cells. A mechanism for the loss of epidermal cohesion and blister formation , 1983, The Journal of experimental medicine.
[40] P. Cowin,et al. Identification of desmosomal surface components (desmocollins) and inhibition of desmosome formation by specific Fab'. , 1984, Journal of cell science.
[41] J. Hill,et al. Desmocollins form a distinct subset of the cadherin family of cell adhesion molecules. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[42] D. Roop,et al. Isolation of complementary DNA for bullous pemphigoid antigen by use of patients' autoantibodies. , 1988, The Journal of clinical investigation.
[43] Y. Takahashi,et al. Brazilian pemphigus foliaceus autoantibodies are pathogenic to BALB/c mice by passive transfer. , 1985, The Journal of investigative dermatology.
[44] J. Hill,et al. Desmoglein shows extensive homology to the cadherin family of cell adhesion molecules. , 1990, Biochemical and biophysical research communications.
[45] R. W. Davis,et al. Efficient isolation of genes by using antibody probes. , 1983, Proceedings of the National Academy of Sciences of the United States of America.
[46] G. Edelman,et al. Sequence analysis of a cDNA clone encoding the liver cell adhesion molecule, L-CAM. , 1987, Proceedings of the National Academy of Sciences of the United States of America.
[47] M. Schmelz,et al. A constitutive transmembrane glycoprotein of Mr 165,000 (desmoglein) in epidermal and non-epidermal desmosomes. I. Biochemical identification of the polypeptide. , 1986, European journal of cell biology.
[48] M. Ringwald,et al. Uvomorulin-catenin complex formation is regulated by a specific domain in the cytoplasmic region of the cell adhesion molecule. , 1990, Proceedings of the National Academy of Sciences of the United States of America.
[49] H. Towbin,et al. Electrophoretic transfer of proteins from polyacrylamide gels to nitrocellulose sheets: procedure and some applications. , 1979, Proceedings of the National Academy of Sciences of the United States of America.
[50] A. Nose,et al. Cloning and expression of cDNA encoding a neural calcium-dependent cell adhesion molecule: its identity in the cadherin gene family , 1988, The Journal of cell biology.
[51] G. Gorbsky,et al. Isolation of the intercellular glycoproteins of desmosomes , 1981, The Journal of cell biology.
[52] R. Kemler,et al. The cytoplasmic domain of the cell adhesion molecule uvomorulin associates with three independent proteins structurally related in different species. , 1989, The EMBO journal.
[53] M. Takeichi,et al. Cell binding function of E‐cadherin is regulated by the cytoplasmic domain. , 1988, The EMBO journal.
[54] W. Franke,et al. Biochemical and immunological characterization of desmoplakins I and II, the major polypeptides of the desmosomal plaque. , 1983, Journal of molecular biology.
[55] M. Takeichi,et al. Cadherins: a molecular family important in selective cell-cell adhesion. , 1990, Annual review of biochemistry.
[56] N. Korman,et al. Demonstration of an adhering-junction molecule (plakoglobin) in the autoantigens of pemphigus foliaceus and pemphigus vulgaris. , 1989, The New England journal of medicine.
[57] J. Holton,et al. Cloning and sequence analysis of desmosomal glycoproteins 2 and 3 (desmocollins): cadherin-like desmosomal adhesion molecules with heterogeneous cytoplasmic domains , 1991, The Journal of cell biology.
[58] A. Nose,et al. Neural cadherin: role in selective cell-cell adhesion. , 1989, Science.
[59] M. Takeichi,et al. Cadherin cell adhesion molecules with distinct binding specificities share a common structure. , 1986, The EMBO journal.
[60] Akinao Nose,et al. Localization of specificity determining sites in cadherin cell adhesion molecules , 1990, Cell.
[61] M. S. Steinberg,et al. A monoclonal antibody to the desmosomal glycoprotein desmoglein I binds the same polypeptide as human autoantibodies in pemphigus foliaceus. , 1986, Journal of immunology.
[62] J. Schiltz,et al. Production of epidermal acantholysis in normal human skin in vitro by the IgG fraction from pemphigus serum. , 1976, The Journal of investigative dermatology.
[63] C. Thivolet,et al. Distinction between epidermal antigens binding pemphigus vulgaris and pemphigus foliaceus autoantibodies. , 1984, The Journal of clinical investigation.
[64] M. Schmelz,et al. Identification of desmoglein, a constitutive desmosomal glycoprotein, as a member of the cadherin family of cell adhesion molecules. , 1990, European journal of cell biology.
[65] T. Nishikawa,et al. Detection of pemphigus vulgaris and pemphigus foliaceus antigens by immunoblot analysis using different antigen sources. , 1990, The Journal of investigative dermatology.
[66] T. Nishikawa,et al. Partial cDNA cloning of the 230-kD mouse bullous pemphigoid antigen by use of a human monoclonal anti-basement membrane zone antibody. , 1990, The Journal of investigative dermatology.
[67] K. Wolff,et al. Ultrastructural Localization of Pemphigus Autoantibodies within the Epidermis , 1971, Nature.
[68] M. Takeichi,et al. The 102 kd cadherin-associated protein: Similarity to vinculin and posttranscriptional regulation of expression , 1991, Cell.
[69] R. Jordon,et al. CORRELATION OF PEMPHIGOID AND PEMPHIGU S ANTIBODY TITRES WITH ACTIVITY OF DISEASE , 1971, The British journal of dermatology.
[70] S. Yuspa,et al. Specific epidermal protein markers are modulated during calcium-induced terminal differentiation , 1983, Journal of Cell Biology.
[71] H. Green,et al. Seria cultivation of strains of human epidemal keratinocytes: the formation keratinizin colonies from single cell is , 1975, Cell.
[72] C. Hopkins,et al. Localisation of the protein and glycoprotein components of bovine nasal epithelial desmosomes by immunoelectron microscopy. , 1987, The EMBO journal.
[73] M. Kozak. An analysis of 5'-noncoding sequences from 699 vertebrate messenger RNAs. , 1987, Nucleic acids research.