Band 6 protein, a major constituent of desmosomes from stratified epithelia, is a novel member of the armadillo multigene family

M. Hatzfeld; G.I. Kristjansson; U. Plessmann; K. Weber

Summary

Desmosomes are intercellular adhering junctions characteristic of epithelial cells. Several constitutive proteins--desmoplakin, plakoglobin and the transmembrane glycoproteins desmoglein and desmocollin--have been identified as fundamental constituents of desmosomes in all tissues. A number of additional and cell type-specific constituents also contribute to desmosomal plaque formation. Among these proteins is the band 6 polypeptide (B6P). This positively charged, non-glycosylated protein is a major constituent of the plaque in stratified and complex glandular epithelia. Using an overlay assay we show that purified keratins bind in vitro to B6P. Thus B6P may play a role in ordering intermediate filament networks of adjacent epithelial cells. To characterize the structure of B6P in the desmosome we have isolated cDNA clones representing the entire coding sequence. The predicted amino acid sequence of human B6P shows strong sequence homology with a murine p120 protein, which is a substrate of protein tyrosine kinase receptors and of p60v-src. P120 and B6P show amino-terminal domains differing distinctly in length and sequence. These are followed in both proteins by 460 residues that display a series of imperfect repeats corresponding to the repeats in the cadherin binding proteins armadillo, plakoglobin and beta-catenin. Over this repeat region B6P and p120 share 33% sequence identity (54% similarity). These sequence characteristics define B6P as a novel member of the armadillo multigene family and raise the question of whether the structural proteins B6P, plakoglobin, beta-catenin and armadillo share some function. Since armadillo, plakoglobin, beta-catenin and p120 seem involved in signal transduction this may also hold for B6P. The amino-terminal region of B6P (residues 1 to 263) shows no significant homology to any known protein sequence. It may therefore be involved in unique functions of B6P.

REFERENCES

1. Auffrey C. and
2. Rougeon F.
(1980). Purification of mouse immunoglobulin heavy-chain messenger RNAs from total myeloma tumor RNA. Eur. J. Biochem 107, 303–314
OpenUrl PubMed Web of Science
1. Behrens J.,
2. Vakaet L.,
3. Friis R.,
4. Winterhager E.,
5. Van Roy F.,
6. Mareel M. M. and
7. Birchmeier W.
(1993). Loss of epithelial differentiation and gain of invasiveness correlates with tyrosine phosphorylation of the E-cadherin/-catenin complex in cells transformed with a temperature sensitive v-src gene. J. Cell Biol 120, 757–766
OpenUrl Abstract/FREE Full Text
1. Bradford M. M.
(1976). A rapid and sensitive method for the quantitation of microgramm quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem 72, 248–254
OpenUrl CrossRef PubMed Web of Science
1. Bradley R. S.,
2. Cowin P. and
3. Brown A. M. C.
(1993). Expression of Wnt -1 in PC12 cells results in modulation of plakoglobin and E-cadherin and increased cellular adhesion. J. Cell Biol 123, 1857–1865
OpenUrl Abstract/FREE Full Text
1. Cartaud A.,
2. Ludosky M. A.,
3. Courvalin J. C. and
4. Cartaud J.
(1990). A protein antigenically related to nuclear lamin B mediates the association of intermediate filaments with desmosomes. J. Cell Biol 111, 581–588
OpenUrl Abstract/FREE Full Text
1. Collins J. E.,
2. Legan P. K.,
3. Kenny T. P.,
4. MacGarvie J.,
5. Holton J. L. and
6. Garrod D. R.
(1991). Cloning and sequence analysis of desmosomal glycoproteins 2 and 3 (desmocollins): Cadherin-like desmosomal adhesion molecules with heterogeneous cytoplasmic domains. J. Cell Biol 113, 381–391
OpenUrl Abstract/FREE Full Text
1. Coulombe P. A. and
2. Fuchs E.
(1990). Elucidating the early stages of keratin filament assembly. J. Cell Biol 111, 153–169
OpenUrl Abstract/FREE Full Text
1. Cowin P. and
2. Garrod D. R.
(1983). Antibodies to epithelial desmosomes show wide tissue and species cross-reactivity. Nature 302, 148–150
OpenUrl CrossRef PubMed
1. Cowin P.,
2. Kapprell H.-P.,
3. Franke W. W.,
4. Tamkun J. and
5. Hynes R. O.
(1986). Plakoglobin: A protein common to different kinds of intercellular adhering junctions. Cell 46, 1063–1073
OpenUrl CrossRef PubMed Web of Science
1. Downing J. R. and
2. Reynolds A. B.
(1991). PDGF, CSF-1, and EGF induce tyrosine phosphorylation of p120, a pp60src transformation-associated substrate. Oncogene 6, 607–613
OpenUrl PubMed Web of Science
1. Franke W. W.,
2. Muller H.,
3. Mittnacht S.,
4. Kapprell H. P. and
5. Jorcano J. L.
(1983). Significance of two desmosome plaque-associated polypeptides of molecular weights 75000 and 83000. EMBO J 2, 2211–2215
OpenUrl PubMed Web of Science
1. Franke W. W.,
2. Goldschmidt M. D.,
3. Zimbelmann R.,
4. Mueller H. M.,
5. Schiller D. L. and
6. Cowin P.
(1989). Molecular cloning and amino acid sequence of human plakoglobin, the common junctional plaque protein. Proc. Nat. Acad. Sci. USA 86, 4027–4031
OpenUrl Abstract/FREE Full Text
1. Goodwin L.,
2. Hill J. E.,
3. Raynor K.,
4. Raszi L.,
5. Manabe M. and
6. Cowin P.
(1990). Desmoglein shows extensive homology to the cadherin family of cell adhesion molecules. Biochem. Biophys. Res. Commun 173, 1224–1230
OpenUrl CrossRef PubMed Web of Science
1. Gorbsky G. and
2. Steinberg M. S.
(1981). Isolation of the intercellular glycoproteins of desmosomes. J. Cell Biol 90, 243–248
OpenUrl Abstract/FREE Full Text
1. Green K. J.,
2. Virata M. L. A.,
3. Elgart G. W.,
4. Stanley J. R. and
5. Parry D. A. D.
(1992). Comparative structural analysis of desmoplakin, bullous pemphigoid antigen and plectin: members of a new gene family involved in organization of intermediate filaments. Int. J. Biol. Macromol 14, 145–153
OpenUrl CrossRef PubMed Web of Science
1. Gumbiner B.,
2. Stevenson B. and
3. Grimaldi A.
(1988). The role of the cell adhesion molecule uvomorulin in the formation and maintenance of the epithelial junctional complex. J. Cell Biol 107, 1575–1587
OpenUrl Abstract/FREE Full Text
1. Hatzfeld M.,
2. Meier G. and
3. Franke W. W.
(1987). Cytokeratin domains involved in heterotypic complex formation determined by in vitro binding assays. J. Mol. Biol 97, 237–255
OpenUrl
1. Hatzfeld M. and
2. Weber K.
(1990). The coiled coil of in vitro assembled keratin filaments is a heterodimer of type I and II keratins; use of site-specific mutagenesis and recombinant protein expression. J. Cell Biol 110, 1199–1210
OpenUrl Abstract/FREE Full Text
1. Hatzfeld M. and
2. Weber K.
(1990). Tailless keratins assemble into regular intermediate filaments in vitro. J. Cell Sci 97, 317–324
OpenUrl Abstract/FREE Full Text
1. Jones J. C. R. and
2. Green K. J.
(1991). Intermediate filament-plasma membrane interactions. Curr. Opin. Cell Biol 3, 127–132
OpenUrl CrossRef PubMed
1. Kanner S. B.,
2. Reynolds A. B. and
3. Parsons J. T.
(1991). Tyrosine phosphorylation of a 120-kilodalton pp60srcsubstrate upon epidermal growth factor and platelet-derived growth factor receptor stimulation and in polyomavirus middle-T-antigen-transformed cells. Mol. Cell. Biol 11, 713–720
OpenUrl Abstract/FREE Full Text
1. Kapprell H.-P.,
2. Cowin P.,
3. Franke W. W. and
4. Ponstingl H.
(1985). Biochemical characterization of desmosomal proteins isolated from bovinemuzzle epidermis: amino acid and carbohydrate composition. Eur. J. Cell Biol 36, 217–229
OpenUrl PubMed
1. Kapprell H.-P.,
2. Owaribe K. and
3. Franke W. W.
(1988). Identification of a basic protein of Mr75, 000 as an accessory desmosomal plaque protein in stratified and complex epithelia. J. Cell Biol 106, 1679–1691
OpenUrl Abstract/FREE Full Text
1. Kemler R.
(1993). From cadherins to catenins: cytoplasmic protein interactions and regulation of cell adhesion. Trends Genet 9, 317–321
OpenUrl CrossRef PubMed Web of Science
1. Khyse-Anderson J.
(1984). Electroblotting of multiple gels. A simple apparatus without buffer tank for rapid transfer of proteins from polyacrylamide to nitrocellulose. J. Biochem. Biophys. Meth 10, 203–209
OpenUrl CrossRef PubMed Web of Science
1. Koch P. J.,
2. Walsh M. J.,
3. Schmelz M.,
4. Goldschmidt M. D.,
5. Zimbelman R. and
6. Franke W. W.
(1990). Identification of desmoglein, a constitutive desmosomal glycoprotein, as a member of the cadherin family of cell adhesion molecules. Eur. J. Cell. Biol 53, 1–12
OpenUrl PubMed Web of Science
1. Koch P. J.,
2. Goldschmidt M. D.,
3. Walsh M. J.,
4. Zimbelmann R. and
5. Franke W. W.
(1991). Complete amino acid sequence of the epidermal desmoglein precursor polypeptide and identification of a second type of desmoglein gene. Eur. J. Cell. Biol 55, 200–208
OpenUrl PubMed Web of Science
1. Koch P. J.,
2. Goldschmidt M. D.,
3. Walsh M. J.,
4. Zimbelmann R.,
5. Schmelz M. and
6. Franke W. W.
(1991). Amino acid sequence of bovine muzzle epithelial desmocollin derived from cloned cDNA: A novel subtype of desmosomal cadherins. Differentiation 47, 29–36
OpenUrl CrossRef PubMed
1. Koch P. J.,
2. Goldschmidt M. D.,
3. Zimbelmann R.,
4. Troyanovsky R. and
5. Franke W. W.
(1992). Complexity and expression patterns of the desmosomal cadherins. Proc. Nat. Acad. Sci. USA 89, 353–357
OpenUrl Abstract/FREE Full Text
1. Kozak M.
(1989). The scanning model for translation: An update. J. Cell Biol 108, 229–241
OpenUrl Abstract/FREE Full Text
1. Linder M. E. and
2. Burr J. G.
(1988). Nonmyristoylated p60v-srcfails to phosphorylate proteins of 115–120 kDa in chicken embryo fibroblasts. Proc. Nat. Acad. Sci. USA 85, 2608–2612
OpenUrl Abstract/FREE Full Text
1. Magee A. I. and
2. Buxton R. S.
(1991). Transmembrane molecular assemblies regulated by the greater cadherin family. Curr. Opin. Cell Biol 3, 854–861
OpenUrl CrossRef PubMed
1. McCrea P. D.,
2. Turck C. W. and
3. Gumbiner B.
(1991). A homolog of the armadillo protein in Drosophila (Plakoglobin) associated with E-cadherin. Science 254, 1359–1361
OpenUrl Abstract/FREE Full Text
1. McCrea P. D.,
2. Brieher W. M. and
3. Gumbiner B. M.
(1993). Induction of a secondary body axis in Xenopus by antibodies to-catenin. J. Cell Biol 123, 477–484
OpenUrl Abstract/FREE Full Text
1. McMahon A. P.
(1992). The Wnt family of developmental regulators. Trends Genet 8, 236–242
OpenUrl CrossRef
1. Mechanic S.,
2. Raynor K.,
3. Hill J. E. and
4. Cowin P.
(1991). Desmocollins form a subset of the cadherin family of cell adhesion molecules. Proc. Nat. Acad. Sci. USA 88, 4476–4480
OpenUrl Abstract/FREE Full Text
1. Muller H. and
2. Franke W. W.
(1983). Biochemical and immunological characterization of desmoplakins I and II, the major polypeptides of the desmosomal plaque. J. Mol. Biol 163, 647–671
OpenUrl CrossRef PubMed Web of Science
1. Nilles L. A.,
2. Parry D. A. D.,
3. Powers E. E.,
4. Angst B. D.,
5. Wagner R. M. and
6. Green K. J.
(1991). Structural analysis and expression of human desmoglein: a cadherin-like component of the desmosome. J. Cell Sci 99, 809–821
OpenUrl Abstract/FREE Full Text
1. Noordermeer J.,
2. Klingensmith J.,
3. Perrimon N. and
4. Nusse R.
(1994). dishevelled and armadillo act in the Wingless signalling pathway in Drosophila. Nature 367, 80–83
OpenUrl CrossRef PubMed Web of Science
1. Oda H.,
2. Uemura T.,
3. Shiomi K.,
4. Nagafuchi A.,
5. Tsukita S. and
6. Takeichi M.
(1993). Identification of a Drosophila homologue of-catenin and its association with the armadillo protein. J. Cell Biol 121, 1133–1140
OpenUrl Abstract/FREE Full Text
1. Ouyang P. and
2. Sugrue S. P.
(1992). Identification of an epithelial protein related to the desmosome and intermediate filament network. J. Cell Biol 118, 1477–1488
OpenUrl Abstract/FREE Full Text
1. Parker A. E.,
2. Wheeler G. N.,
3. Arnemann J.,
4. Pidsley S. C.,
5. Ataliotis P.,
6. Thomas C. L.,
7. Rees D. A.,
8. Magee A. I. and
9. Buxton R. S.
(1991). Desmosomal glycoproteins II and III: Cadherin-like junctional molecules generated by alternative splicing. J. Biol. Chem 266, 10438–10445
OpenUrl Abstract/FREE Full Text
1. Peifer M. and
2. Wieschaus E.
(1990). The segment polarity gene armadillo encodes a functionally modular protein that is the Drosophila homolog of human plakoglobin. Cell 63, 1167–1178
OpenUrl CrossRef PubMed Web of Science
1. Peifer M.,
2. McCrea P. D.,
3. Green K. J.,
4. Wieschaus E. and
5. Gumbiner B. M.
(1992). The vertebrate adhesive junction proteins-catenin and plakoglobin and the Drosophila segment polarity gene armadillo form a multigene family with similar properties. J. Cell Biol 118, 681–691
OpenUrl Abstract/FREE Full Text
1. Peifer M.
(1993). The product of the Drosophila segment polarity gene armadillo is part of a multi-protein complex resembling the vertebrate adherens junction. J. Cell Sci 105, 993–1000
OpenUrl Abstract/FREE Full Text
1. Peifer M.,
2. Orsulic S.,
3. Sweeton D. and
4. Wieschaus E.
(1993). A role for the Drosophila segment polarity gene armadillo in cell adhesion and cytoskeletal integrity during oogenesis. Development 18, 1191–1207
OpenUrl
1. Peifer M.,
2. Berg S. and
3. Reynolds A. B.
(1994). A repeating amino acid motif shared by proteins with diverse cellular roles. Cell 76, 789–791
OpenUrl CrossRef PubMed Web of Science
1. Reynolds A. B.,
2. Herbert L.,
3. Cleveland J. L.,
4. Berg S. T. and
5. Gaut J. R.
(1992). p120, a novel substrate of protein tyrosine kinase receptors and of p60v-src, is related to cadherin-binding factors-catenin, plakoglobin and armadillo. Oncogene 7, 2439–2445
OpenUrl PubMed Web of Science
1. Riggleman B.,
2. Wieschaus E. and
3. Schedl P.
(1989). Molecular analysis of the armadillo locus: uniformly distributed transcripts and a protein with novel internal repeats are associated with a Drosophila segment polarity gene. Genes Dev 3, 96–113
OpenUrl Abstract/FREE Full Text
1. Rubinfeld B.,
2. Souza B.,
3. Albert I.,
4. Muller O.,
5. Chamberlain S. H.,
6. Masiarz F. R.,
7. Munemitsu S. and
8. Polakis P.
(1993). Association of the APC gene product with-catenin. Science 262, 1731–1734
OpenUrl Abstract/FREE Full Text
1. Schiller D. L.,
2. Franke W. W. and
3. Geiger B.
(1982). A subfamily of relatively large and basic cytokeratin polypeptides as defined by peptide mapping is represented by one of several polypeptides in epithelial cells. EMBO J 6, 761–769
OpenUrl
1. Schwarz M. A.,
2. Owaribe K.,
3. Kartenbeck J. and
4. Franke W. W.
(1990). Desmosomes and hemidesmosomes: Constitutive molecular components. Annu. Rev. Cell Biol 6, 461–491
OpenUrl CrossRef PubMed Web of Science
1. Siegfried E.,
2. Wilder E. L. and
3. Perrimon N.
(1994). Components of wingless signalling in Drosophila. Nature 367, 76–80
OpenUrl CrossRef PubMed Web of Science
1. Skerrow C. J. and
2. Matoltsy A. G.
(1974). Isolation of epidermal desmosomes. J. Cell Biol 63, 515–523
OpenUrl Abstract/FREE Full Text
1. Stappenbeck T. S. and
2. Green K. J.
(1992). The desmoplakin carboxyl terminus coaligns with and specifically disrupts intermediate filament networks when expressed in cultured cells. J. Cell Biol 116, 1197–1209
OpenUrl Abstract/FREE Full Text
1. Stappenbeck T. S.,
2. Bornslaeger E. A.,
3. Corcoran C. M.,
4. Luu H. H.,
5. Virata M. L. A. and
6. Green K. J.
(1993). Functional analysis of desmoplakin domains: Specification of the interaction with keratin versus vimentin intermediate filament networks. J. Cell Biol 123, 691–705
OpenUrl Abstract/FREE Full Text
1. Steinert P. M.
(1990). The two-chain coiled-coil molecule of native epidermal keratin intermediate filaments is a Type I-Type II heterodimer. J. Biol. Chem 265, 8766–8774
OpenUrl Abstract/FREE Full Text
1. Su L.-K.,
2. Vogelstein B. and
3. Kinzler K. W.
(1993). Association of the APC tumor suppressor protein with catenins. Science 262, 1734–1737
OpenUrl Abstract/FREE Full Text
1. Takeichi M.
(1991). Cadherin cell adhesion receptors as a morphogenetic regulator. Science 251, 1451–1455
OpenUrl Abstract/FREE Full Text
1. Tsukita S. and
2. Tsukita S.
(1985). Desmocalmin: A calmodulin-binding high molecular weight protein isolated from desmosomes. J. Cell Biol 101, 2070–2080
OpenUrl Abstract/FREE Full Text
1. Tsukita S.,
2. Oishi K.,
3. Akiyama T.,
4. Yamanashi Y.,
5. Yamamoto T. and
6. Tsukita S.
(1991). Specific proto-oncogenic tyrosine kinases of src family are enriched in cell-to-cell adherens junctions where the level of tyrosine phosphorylation is elevated. J. Cell Biol 113, 867–879
OpenUrl Abstract/FREE Full Text
1. van den Heuvel M.,
2. Nusse R.,
3. Johnston P. and
4. Lawrence P. A.
(1989). Distribution of the wingless gene product in Drosophila embryos: A protein involved in cell-cell communication. Cell 59, 739–749
OpenUrl CrossRef PubMed Web of Science
1. Volberg T.,
2. Zick Y.,
3. Dror R.,
4. Sabanay I.,
5. Gilon C.,
6. Levitzki A. and
7. Geiger B.
(1992). The effect of tyrosine-specific protein phosphorylation on the assembly of adherens-type junctions. EMBO J 11, 1733–1742
OpenUrl PubMed Web of Science
1. Wessel D. and
2. Flugge U. I.
(1984). A method for the quantitative recovery of protein in dilute solution in the presence of detergents and lipids. Anal. Biochem 138, 141–143
OpenUrl CrossRef PubMed Web of Science
1. Wheeler G. N.,
2. Parker A. E.,
3. Thomas C. L.,
4. Ataliotis P.,
5. Poynter D.,
6. Arnemann J.,
7. Rutman A. J.,
8. Pidsley S. C.,
9. Watt F. M.,
10. Rees D. A.,
11. Buxton R. S. and
12. Magee A. I.
(1991). Desmosomal glycoprotein DGI, a component of intercellular desmosome junctions, is related to the cadherin family of cell adhesion molecules. Proc. Nat. Acad. Sci. USA 88, 4796–4800
OpenUrl Abstract/FREE Full Text
1. Wiche G.,
2. Becker B.,
3. Luber K.,
4. Weitzer G.,
5. Castañon M. J.,
6. Hauptmann R.,
7. Stratowa C. and
8. Stewart M.
(1991). Cloning and sequencing of rat plectin indicates a 446-kDa polypeptide chain with a three-domain structure based on a central alpha-helical coiled coil. J. Cell Biol 114, 83–99
OpenUrl Abstract/FREE Full Text
1. Wiche G.,
2. Gromov D.,
3. Donovan A.,
4. Castañon M. J. and
5. Fuchs E.
(1993). Expression of plectin mutant cDNA in cultured cells indicates a role of COOH-terminal domain in intermediate filament association. J. Cell Biol 121, 607–619
OpenUrl Abstract/FREE Full Text

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[1] Auffrey C. and
Rougeon F.
(1980). Purification of mouse immunoglobulin heavy-chain messenger RNAs from total myeloma tumor RNA. Eur. J. Biochem 107, 303–314
OpenUrl PubMed Web of Science

[2] Auffrey C. and

[3] Rougeon F.

[4] Behrens J.,
Vakaet L.,
Friis R.,
Winterhager E.,
Van Roy F.,
Mareel M. M. and
Birchmeier W.
(1993). Loss of epithelial differentiation and gain of invasiveness correlates with tyrosine phosphorylation of the E-cadherin/-catenin complex in cells transformed with a temperature sensitive v-src gene. J. Cell Biol 120, 757–766
OpenUrl Abstract/FREE Full Text

[5] Behrens J.,

[6] Vakaet L.,

[7] Friis R.,

[8] Winterhager E.,

[9] Van Roy F.,

[10] Mareel M. M. and

[11] Birchmeier W.

[12] Bradford M. M.
(1976). A rapid and sensitive method for the quantitation of microgramm quantities of protein utilizing the principle of protein-dye binding. Anal. Biochem 72, 248–254
OpenUrl CrossRef PubMed Web of Science

[13] Bradford M. M.

[14] Bradley R. S.,
Cowin P. and
Brown A. M. C.
(1993). Expression of Wnt -1 in PC12 cells results in modulation of plakoglobin and E-cadherin and increased cellular adhesion. J. Cell Biol 123, 1857–1865
OpenUrl Abstract/FREE Full Text

[15] Bradley R. S.,

[16] Cowin P. and

[17] Brown A. M. C.

[18] Cartaud A.,
Ludosky M. A.,
Courvalin J. C. and
Cartaud J.
(1990). A protein antigenically related to nuclear lamin B mediates the association of intermediate filaments with desmosomes. J. Cell Biol 111, 581–588
OpenUrl Abstract/FREE Full Text

[19] Cartaud A.,

[20] Ludosky M. A.,

[21] Courvalin J. C. and

[22] Cartaud J.

[23] Collins J. E.,
Legan P. K.,
Kenny T. P.,
MacGarvie J.,
Holton J. L. and
Garrod D. R.
(1991). Cloning and sequence analysis of desmosomal glycoproteins 2 and 3 (desmocollins): Cadherin-like desmosomal adhesion molecules with heterogeneous cytoplasmic domains. J. Cell Biol 113, 381–391
OpenUrl Abstract/FREE Full Text

[24] Collins J. E.,

[25] Legan P. K.,

[26] Kenny T. P.,

[27] MacGarvie J.,

[28] Holton J. L. and

[29] Garrod D. R.

[30] Coulombe P. A. and
Fuchs E.
(1990). Elucidating the early stages of keratin filament assembly. J. Cell Biol 111, 153–169
OpenUrl Abstract/FREE Full Text

[31] Coulombe P. A. and

[32] Fuchs E.

[33] Cowin P. and
Garrod D. R.
(1983). Antibodies to epithelial desmosomes show wide tissue and species cross-reactivity. Nature 302, 148–150
OpenUrl CrossRef PubMed

[34] Cowin P. and

[35] Garrod D. R.

[36] Cowin P.,
Kapprell H.-P.,
Franke W. W.,
Tamkun J. and
Hynes R. O.
(1986). Plakoglobin: A protein common to different kinds of intercellular adhering junctions. Cell 46, 1063–1073
OpenUrl CrossRef PubMed Web of Science

[37] Cowin P.,

[38] Kapprell H.-P.,

[39] Franke W. W.,

[40] Tamkun J. and

[41] Hynes R. O.

[42] Downing J. R. and
Reynolds A. B.
(1991). PDGF, CSF-1, and EGF induce tyrosine phosphorylation of p120, a pp60src transformation-associated substrate. Oncogene 6, 607–613
OpenUrl PubMed Web of Science

[43] Downing J. R. and

[44] Reynolds A. B.

[45] Franke W. W.,
Muller H.,
Mittnacht S.,
Kapprell H. P. and
Jorcano J. L.
(1983). Significance of two desmosome plaque-associated polypeptides of molecular weights 75000 and 83000. EMBO J 2, 2211–2215
OpenUrl PubMed Web of Science

[46] Franke W. W.,

[47] Muller H.,

[48] Mittnacht S.,

[49] Kapprell H. P. and

[50] Jorcano J. L.

[51] Franke W. W.,
Goldschmidt M. D.,
Zimbelmann R.,
Mueller H. M.,
Schiller D. L. and
Cowin P.
(1989). Molecular cloning and amino acid sequence of human plakoglobin, the common junctional plaque protein. Proc. Nat. Acad. Sci. USA 86, 4027–4031
OpenUrl Abstract/FREE Full Text

[52] Franke W. W.,

[53] Goldschmidt M. D.,

[54] Zimbelmann R.,

[55] Mueller H. M.,

[56] Schiller D. L. and

[57] Cowin P.

[58] Goodwin L.,
Hill J. E.,
Raynor K.,
Raszi L.,
Manabe M. and
Cowin P.
(1990). Desmoglein shows extensive homology to the cadherin family of cell adhesion molecules. Biochem. Biophys. Res. Commun 173, 1224–1230
OpenUrl CrossRef PubMed Web of Science

[59] Goodwin L.,

[60] Hill J. E.,

[61] Raynor K.,

[62] Raszi L.,

[63] Manabe M. and

[64] Cowin P.

[65] Gorbsky G. and
Steinberg M. S.
(1981). Isolation of the intercellular glycoproteins of desmosomes. J. Cell Biol 90, 243–248
OpenUrl Abstract/FREE Full Text

[66] Gorbsky G. and

[67] Steinberg M. S.

[68] Green K. J.,
Virata M. L. A.,
Elgart G. W.,
Stanley J. R. and
Parry D. A. D.
(1992). Comparative structural analysis of desmoplakin, bullous pemphigoid antigen and plectin: members of a new gene family involved in organization of intermediate filaments. Int. J. Biol. Macromol 14, 145–153
OpenUrl CrossRef PubMed Web of Science

[69] Green K. J.,

[70] Virata M. L. A.,

[71] Elgart G. W.,

[72] Stanley J. R. and

[73] Parry D. A. D.

[74] Gumbiner B.,
Stevenson B. and
Grimaldi A.
(1988). The role of the cell adhesion molecule uvomorulin in the formation and maintenance of the epithelial junctional complex. J. Cell Biol 107, 1575–1587
OpenUrl Abstract/FREE Full Text

[75] Gumbiner B.,

[76] Stevenson B. and

[77] Grimaldi A.

[78] Hatzfeld M.,
Meier G. and
Franke W. W.
(1987). Cytokeratin domains involved in heterotypic complex formation determined by in vitro binding assays. J. Mol. Biol 97, 237–255
OpenUrl

[79] Hatzfeld M.,

[80] Meier G. and

[81] Franke W. W.

[82] Hatzfeld M. and
Weber K.
(1990). The coiled coil of in vitro assembled keratin filaments is a heterodimer of type I and II keratins; use of site-specific mutagenesis and recombinant protein expression. J. Cell Biol 110, 1199–1210
OpenUrl Abstract/FREE Full Text

[83] Hatzfeld M. and

[84] Weber K.

[85] Hatzfeld M. and
Weber K.
(1990). Tailless keratins assemble into regular intermediate filaments in vitro. J. Cell Sci 97, 317–324
OpenUrl Abstract/FREE Full Text

[86] Hatzfeld M. and

[87] Weber K.

[88] Jones J. C. R. and
Green K. J.
(1991). Intermediate filament-plasma membrane interactions. Curr. Opin. Cell Biol 3, 127–132
OpenUrl CrossRef PubMed

[89] Jones J. C. R. and

[90] Green K. J.

[91] Kanner S. B.,
Reynolds A. B. and
Parsons J. T.
(1991). Tyrosine phosphorylation of a 120-kilodalton pp60srcsubstrate upon epidermal growth factor and platelet-derived growth factor receptor stimulation and in polyomavirus middle-T-antigen-transformed cells. Mol. Cell. Biol 11, 713–720
OpenUrl Abstract/FREE Full Text

[92] Kanner S. B.,

[93] Reynolds A. B. and

[94] Parsons J. T.

[95] Kapprell H.-P.,
Cowin P.,
Franke W. W. and
Ponstingl H.
(1985). Biochemical characterization of desmosomal proteins isolated from bovinemuzzle epidermis: amino acid and carbohydrate composition. Eur. J. Cell Biol 36, 217–229
OpenUrl PubMed

[96] Kapprell H.-P.,

[97] Cowin P.,

[98] Franke W. W. and

[99] Ponstingl H.

[100] Kapprell H.-P.,
Owaribe K. and
Franke W. W.
(1988). Identification of a basic protein of Mr75, 000 as an accessory desmosomal plaque protein in stratified and complex epithelia. J. Cell Biol 106, 1679–1691
OpenUrl Abstract/FREE Full Text

[101] Kapprell H.-P.,

[102] Owaribe K. and

[103] Franke W. W.

[104] Kemler R.
(1993). From cadherins to catenins: cytoplasmic protein interactions and regulation of cell adhesion. Trends Genet 9, 317–321
OpenUrl CrossRef PubMed Web of Science

[105] Kemler R.

[106] Khyse-Anderson J.
(1984). Electroblotting of multiple gels. A simple apparatus without buffer tank for rapid transfer of proteins from polyacrylamide to nitrocellulose. J. Biochem. Biophys. Meth 10, 203–209
OpenUrl CrossRef PubMed Web of Science

[107] Khyse-Anderson J.

[108] Koch P. J.,
Walsh M. J.,
Schmelz M.,
Goldschmidt M. D.,
Zimbelman R. and
Franke W. W.
(1990). Identification of desmoglein, a constitutive desmosomal glycoprotein, as a member of the cadherin family of cell adhesion molecules. Eur. J. Cell. Biol 53, 1–12
OpenUrl PubMed Web of Science

[109] Koch P. J.,

[110] Walsh M. J.,

[111] Schmelz M.,

[112] Goldschmidt M. D.,

[113] Zimbelman R. and

[114] Franke W. W.

[115] Koch P. J.,
Goldschmidt M. D.,
Walsh M. J.,
Zimbelmann R. and
Franke W. W.
(1991). Complete amino acid sequence of the epidermal desmoglein precursor polypeptide and identification of a second type of desmoglein gene. Eur. J. Cell. Biol 55, 200–208
OpenUrl PubMed Web of Science

[116] Koch P. J.,

[117] Goldschmidt M. D.,

[118] Walsh M. J.,

[119] Zimbelmann R. and

[120] Franke W. W.

[121] Koch P. J.,
Goldschmidt M. D.,
Walsh M. J.,
Zimbelmann R.,
Schmelz M. and
Franke W. W.
(1991). Amino acid sequence of bovine muzzle epithelial desmocollin derived from cloned cDNA: A novel subtype of desmosomal cadherins. Differentiation 47, 29–36
OpenUrl CrossRef PubMed

[122] Koch P. J.,

[123] Goldschmidt M. D.,

[124] Walsh M. J.,

[125] Zimbelmann R.,

[126] Schmelz M. and

[127] Franke W. W.

[128] Koch P. J.,
Goldschmidt M. D.,
Zimbelmann R.,
Troyanovsky R. and
Franke W. W.
(1992). Complexity and expression patterns of the desmosomal cadherins. Proc. Nat. Acad. Sci. USA 89, 353–357
OpenUrl Abstract/FREE Full Text

[129] Koch P. J.,

[130] Goldschmidt M. D.,

[131] Zimbelmann R.,

[132] Troyanovsky R. and

[133] Franke W. W.

[134] Kozak M.
(1989). The scanning model for translation: An update. J. Cell Biol 108, 229–241
OpenUrl Abstract/FREE Full Text

[135] Kozak M.

[136] Linder M. E. and
Burr J. G.
(1988). Nonmyristoylated p60v-srcfails to phosphorylate proteins of 115–120 kDa in chicken embryo fibroblasts. Proc. Nat. Acad. Sci. USA 85, 2608–2612
OpenUrl Abstract/FREE Full Text

[137] Linder M. E. and

[138] Burr J. G.

[139] Magee A. I. and
Buxton R. S.
(1991). Transmembrane molecular assemblies regulated by the greater cadherin family. Curr. Opin. Cell Biol 3, 854–861
OpenUrl CrossRef PubMed

[140] Magee A. I. and

[141] Buxton R. S.

[142] McCrea P. D.,
Turck C. W. and
Gumbiner B.
(1991). A homolog of the armadillo protein in Drosophila (Plakoglobin) associated with E-cadherin. Science 254, 1359–1361
OpenUrl Abstract/FREE Full Text

[143] McCrea P. D.,

[144] Turck C. W. and

[145] Gumbiner B.

[146] McCrea P. D.,
Brieher W. M. and
Gumbiner B. M.
(1993). Induction of a secondary body axis in Xenopus by antibodies to-catenin. J. Cell Biol 123, 477–484
OpenUrl Abstract/FREE Full Text

[147] McCrea P. D.,

[148] Brieher W. M. and

[149] Gumbiner B. M.

[150] McMahon A. P.
(1992). The Wnt family of developmental regulators. Trends Genet 8, 236–242
OpenUrl CrossRef

[151] McMahon A. P.

[152] Mechanic S.,
Raynor K.,
Hill J. E. and
Cowin P.
(1991). Desmocollins form a subset of the cadherin family of cell adhesion molecules. Proc. Nat. Acad. Sci. USA 88, 4476–4480
OpenUrl Abstract/FREE Full Text

[153] Mechanic S.,

[154] Raynor K.,

[155] Hill J. E. and

[156] Cowin P.

[157] Muller H. and
Franke W. W.
(1983). Biochemical and immunological characterization of desmoplakins I and II, the major polypeptides of the desmosomal plaque. J. Mol. Biol 163, 647–671
OpenUrl CrossRef PubMed Web of Science

[158] Muller H. and

[159] Franke W. W.

[160] Nilles L. A.,
Parry D. A. D.,
Powers E. E.,
Angst B. D.,
Wagner R. M. and
Green K. J.
(1991). Structural analysis and expression of human desmoglein: a cadherin-like component of the desmosome. J. Cell Sci 99, 809–821
OpenUrl Abstract/FREE Full Text

[161] Nilles L. A.,

[162] Parry D. A. D.,

[163] Powers E. E.,

[164] Angst B. D.,

[165] Wagner R. M. and

[166] Green K. J.

[167] Noordermeer J.,
Klingensmith J.,
Perrimon N. and
Nusse R.
(1994). dishevelled and armadillo act in the Wingless signalling pathway in Drosophila. Nature 367, 80–83
OpenUrl CrossRef PubMed Web of Science

[168] Noordermeer J.,

[169] Klingensmith J.,

[170] Perrimon N. and

[171] Nusse R.

[172] Oda H.,
Uemura T.,
Shiomi K.,
Nagafuchi A.,
Tsukita S. and
Takeichi M.
(1993). Identification of a Drosophila homologue of-catenin and its association with the armadillo protein. J. Cell Biol 121, 1133–1140
OpenUrl Abstract/FREE Full Text

[173] Oda H.,

[174] Uemura T.,

[175] Shiomi K.,

[176] Nagafuchi A.,

[177] Tsukita S. and

[178] Takeichi M.

[179] Ouyang P. and
Sugrue S. P.
(1992). Identification of an epithelial protein related to the desmosome and intermediate filament network. J. Cell Biol 118, 1477–1488
OpenUrl Abstract/FREE Full Text

[180] Ouyang P. and

[181] Sugrue S. P.

[182] Parker A. E.,
Wheeler G. N.,
Arnemann J.,
Pidsley S. C.,
Ataliotis P.,
Thomas C. L.,
Rees D. A.,
Magee A. I. and
Buxton R. S.
(1991). Desmosomal glycoproteins II and III: Cadherin-like junctional molecules generated by alternative splicing. J. Biol. Chem 266, 10438–10445
OpenUrl Abstract/FREE Full Text

[183] Parker A. E.,

[184] Wheeler G. N.,

[185] Arnemann J.,

[186] Pidsley S. C.,

[187] Ataliotis P.,

[188] Thomas C. L.,

[189] Rees D. A.,

[190] Magee A. I. and

[191] Buxton R. S.

[192] Peifer M. and
Wieschaus E.
(1990). The segment polarity gene armadillo encodes a functionally modular protein that is the Drosophila homolog of human plakoglobin. Cell 63, 1167–1178
OpenUrl CrossRef PubMed Web of Science

[193] Peifer M. and

[194] Wieschaus E.

[195] Peifer M.,
McCrea P. D.,
Green K. J.,
Wieschaus E. and
Gumbiner B. M.
(1992). The vertebrate adhesive junction proteins-catenin and plakoglobin and the Drosophila segment polarity gene armadillo form a multigene family with similar properties. J. Cell Biol 118, 681–691
OpenUrl Abstract/FREE Full Text

[196] Peifer M.,

[197] McCrea P. D.,

[198] Green K. J.,

[199] Wieschaus E. and

[200] Gumbiner B. M.

[201] Peifer M.
(1993). The product of the Drosophila segment polarity gene armadillo is part of a multi-protein complex resembling the vertebrate adherens junction. J. Cell Sci 105, 993–1000
OpenUrl Abstract/FREE Full Text

[202] Peifer M.

[203] Peifer M.,
Orsulic S.,
Sweeton D. and
Wieschaus E.
(1993). A role for the Drosophila segment polarity gene armadillo in cell adhesion and cytoskeletal integrity during oogenesis. Development 18, 1191–1207
OpenUrl

[204] Peifer M.,

[205] Orsulic S.,

[206] Sweeton D. and

[207] Wieschaus E.

[208] Peifer M.,
Berg S. and
Reynolds A. B.
(1994). A repeating amino acid motif shared by proteins with diverse cellular roles. Cell 76, 789–791
OpenUrl CrossRef PubMed Web of Science

[209] Peifer M.,

[210] Berg S. and

[211] Reynolds A. B.

[212] Reynolds A. B.,
Herbert L.,
Cleveland J. L.,
Berg S. T. and
Gaut J. R.
(1992). p120, a novel substrate of protein tyrosine kinase receptors and of p60v-src, is related to cadherin-binding factors-catenin, plakoglobin and armadillo. Oncogene 7, 2439–2445
OpenUrl PubMed Web of Science

[213] Reynolds A. B.,

[214] Herbert L.,

[215] Cleveland J. L.,

[216] Berg S. T. and

[217] Gaut J. R.

[218] Riggleman B.,
Wieschaus E. and
Schedl P.
(1989). Molecular analysis of the armadillo locus: uniformly distributed transcripts and a protein with novel internal repeats are associated with a Drosophila segment polarity gene. Genes Dev 3, 96–113
OpenUrl Abstract/FREE Full Text

[219] Riggleman B.,

[220] Wieschaus E. and

[221] Schedl P.

[222] Rubinfeld B.,
Souza B.,
Albert I.,
Muller O.,
Chamberlain S. H.,
Masiarz F. R.,
Munemitsu S. and
Polakis P.
(1993). Association of the APC gene product with-catenin. Science 262, 1731–1734
OpenUrl Abstract/FREE Full Text

[223] Rubinfeld B.,

[224] Souza B.,

[225] Albert I.,

[226] Muller O.,

[227] Chamberlain S. H.,

[228] Masiarz F. R.,

[229] Munemitsu S. and

[230] Polakis P.

[231] Schiller D. L.,
Franke W. W. and
Geiger B.
(1982). A subfamily of relatively large and basic cytokeratin polypeptides as defined by peptide mapping is represented by one of several polypeptides in epithelial cells. EMBO J 6, 761–769
OpenUrl

[232] Schiller D. L.,

[233] Franke W. W. and

[234] Geiger B.

[235] Schwarz M. A.,
Owaribe K.,
Kartenbeck J. and
Franke W. W.
(1990). Desmosomes and hemidesmosomes: Constitutive molecular components. Annu. Rev. Cell Biol 6, 461–491
OpenUrl CrossRef PubMed Web of Science

[236] Schwarz M. A.,

[237] Owaribe K.,

[238] Kartenbeck J. and

[239] Franke W. W.

[240] Siegfried E.,
Wilder E. L. and
Perrimon N.
(1994). Components of wingless signalling in Drosophila. Nature 367, 76–80
OpenUrl CrossRef PubMed Web of Science

[241] Siegfried E.,

[242] Wilder E. L. and

[243] Perrimon N.

[244] Skerrow C. J. and
Matoltsy A. G.
(1974). Isolation of epidermal desmosomes. J. Cell Biol 63, 515–523
OpenUrl Abstract/FREE Full Text

[245] Skerrow C. J. and

[246] Matoltsy A. G.

[247] Stappenbeck T. S. and
Green K. J.
(1992). The desmoplakin carboxyl terminus coaligns with and specifically disrupts intermediate filament networks when expressed in cultured cells. J. Cell Biol 116, 1197–1209
OpenUrl Abstract/FREE Full Text

[248] Stappenbeck T. S. and

[249] Green K. J.

[250] Stappenbeck T. S.,
Bornslaeger E. A.,
Corcoran C. M.,
Luu H. H.,
Virata M. L. A. and
Green K. J.
(1993). Functional analysis of desmoplakin domains: Specification of the interaction with keratin versus vimentin intermediate filament networks. J. Cell Biol 123, 691–705
OpenUrl Abstract/FREE Full Text

[251] Stappenbeck T. S.,

[252] Bornslaeger E. A.,

[253] Corcoran C. M.,

[254] Luu H. H.,

[255] Virata M. L. A. and

[256] Green K. J.

[257] Steinert P. M.
(1990). The two-chain coiled-coil molecule of native epidermal keratin intermediate filaments is a Type I-Type II heterodimer. J. Biol. Chem 265, 8766–8774
OpenUrl Abstract/FREE Full Text

[258] Steinert P. M.

[259] Su L.-K.,
Vogelstein B. and
Kinzler K. W.
(1993). Association of the APC tumor suppressor protein with catenins. Science 262, 1734–1737
OpenUrl Abstract/FREE Full Text

[260] Su L.-K.,

[261] Vogelstein B. and

[262] Kinzler K. W.

[263] Takeichi M.
(1991). Cadherin cell adhesion receptors as a morphogenetic regulator. Science 251, 1451–1455
OpenUrl Abstract/FREE Full Text

[264] Takeichi M.

[265] Tsukita S. and
Tsukita S.
(1985). Desmocalmin: A calmodulin-binding high molecular weight protein isolated from desmosomes. J. Cell Biol 101, 2070–2080
OpenUrl Abstract/FREE Full Text

[266] Tsukita S. and

[267] Tsukita S.

[268] Tsukita S.,
Oishi K.,
Akiyama T.,
Yamanashi Y.,
Yamamoto T. and
Tsukita S.
(1991). Specific proto-oncogenic tyrosine kinases of src family are enriched in cell-to-cell adherens junctions where the level of tyrosine phosphorylation is elevated. J. Cell Biol 113, 867–879
OpenUrl Abstract/FREE Full Text

[269] Tsukita S.,

[270] Oishi K.,

[271] Akiyama T.,

[272] Yamanashi Y.,

[273] Yamamoto T. and

[274] Tsukita S.

[275] van den Heuvel M.,
Nusse R.,
Johnston P. and
Lawrence P. A.
(1989). Distribution of the wingless gene product in Drosophila embryos: A protein involved in cell-cell communication. Cell 59, 739–749
OpenUrl CrossRef PubMed Web of Science

[276] van den Heuvel M.,

[277] Nusse R.,

[278] Johnston P. and

[279] Lawrence P. A.

[280] Volberg T.,
Zick Y.,
Dror R.,
Sabanay I.,
Gilon C.,
Levitzki A. and
Geiger B.
(1992). The effect of tyrosine-specific protein phosphorylation on the assembly of adherens-type junctions. EMBO J 11, 1733–1742
OpenUrl PubMed Web of Science

[281] Volberg T.,

[282] Zick Y.,

[283] Dror R.,

[284] Sabanay I.,

[285] Gilon C.,

[286] Levitzki A. and

[287] Geiger B.

[288] Wessel D. and
Flugge U. I.
(1984). A method for the quantitative recovery of protein in dilute solution in the presence of detergents and lipids. Anal. Biochem 138, 141–143
OpenUrl CrossRef PubMed Web of Science

[289] Wessel D. and

[290] Flugge U. I.

[291] Wheeler G. N.,
Parker A. E.,
Thomas C. L.,
Ataliotis P.,
Poynter D.,
Arnemann J.,
Rutman A. J.,
Pidsley S. C.,
Watt F. M.,
Rees D. A.,
Buxton R. S. and
Magee A. I.
(1991). Desmosomal glycoprotein DGI, a component of intercellular desmosome junctions, is related to the cadherin family of cell adhesion molecules. Proc. Nat. Acad. Sci. USA 88, 4796–4800
OpenUrl Abstract/FREE Full Text

[292] Wheeler G. N.,

[293] Parker A. E.,

[294] Thomas C. L.,

[295] Ataliotis P.,

[296] Poynter D.,

[297] Arnemann J.,

[298] Rutman A. J.,

[299] Pidsley S. C.,

[300] Watt F. M.,

[301] Rees D. A.,

[302] Buxton R. S. and

[303] Magee A. I.

[304] Wiche G.,
Becker B.,
Luber K.,
Weitzer G.,
Castañon M. J.,
Hauptmann R.,
Stratowa C. and
Stewart M.
(1991). Cloning and sequencing of rat plectin indicates a 446-kDa polypeptide chain with a three-domain structure based on a central alpha-helical coiled coil. J. Cell Biol 114, 83–99
OpenUrl Abstract/FREE Full Text

[305] Wiche G.,

[306] Becker B.,

[307] Luber K.,

[308] Weitzer G.,

[309] Castañon M. J.,

[310] Hauptmann R.,

[311] Stratowa C. and

[312] Stewart M.

[313] Wiche G.,
Gromov D.,
Donovan A.,
Castañon M. J. and
Fuchs E.
(1993). Expression of plectin mutant cDNA in cultured cells indicates a role of COOH-terminal domain in intermediate filament association. J. Cell Biol 121, 607–619
OpenUrl Abstract/FREE Full Text

[314] Wiche G.,

[315] Gromov D.,

[316] Donovan A.,

[317] Castañon M. J. and

[318] Fuchs E.

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