Abstract
While the S-100 proteins have long been known as Ca2+-binding proteins containing typical EF-hand structures (Moore 1965; Isobe et al. 1977), a third member of the still growing S-100 protein family was discovered only a few years ago. Due to its association with the Ca2+-and phospholipid-binding protein p36 (annexin II), p11 was purified from mammalian tissues and shown by sequence analysis to share a high degree of homology with S-l00α and ß.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Ando Y, Imamura S, Owada MK, Kakanuga T, Kannigi R (1989) Cross-linking of lipocortin I and enhancement of its Ca2+-sensitivity by tissue transglutaminase. Biochem Biophys Res Commun 163:944–951.
Barraclough R, Savin J, Dube K, Rudland PS (1987) Molecular cloning and sequence of the gene for p9Ka, a cultured myoepithelial protein with strong homology to S-100, a calcium binding protein. J Mol Biol 198:13–20.
Baudier J, Gerard D (1983) Structural changes induced by calcium and zinc on S100a and S100b proteins. Biochemistry 22:3360–3369.
Brugge JS (1986) The p35/p36 substrates of protein-tyrosine kinases as inhibitors of phospholipase A2. Cell 46:149–150.
Burgoyne RD, Geisow MJ (1989) The annexin family of calcium-binding proteins. Cell Calcium 10:1–10.
Calabretta B, Battini R, Kaczmarek L, de Riel JK, Baserga R (1986) Molecular cloning of the cDNA for a growth factor-inducible gene with strong homology to S-100, a calcium-binding protein. J Biol Chem 261:12628–12632.
Callisano P, Mercanti D, Levi A (1976) Ca2+, K+-regulated intramolecular crosslinking of S-100 protein via disulfide bond formation. Eur J Biochem 71:45–52.
Crompton MR, Moss SE, Crumpton MJ (1988) Diversity in the lipocortin/calpactin family. Cell 55:1–3.
Crompton MR, Owens RJ, Totty NF, Moss SE, Waterfield MD, Crumpton MJ (1988) Primary structure of the human membrane-associated Ca2+-binding protein p68. EMBO J 7:21–27.
Davidson FF, Dennis EA, Powell M, Glenney JR Jr (1987) Inhibition of phospholipase A2 by ‘lipocortins’ and calpactins. J Biol Chem 262:1698–1705.
De BK, Misono KS, Lukas TJ, Mroczkowski B, Cohen S (1986) A calcium-dependent 35-kilodalton substrate for epidermal growth factor receptor/kinase isolated from normal tissue. J Biol Chem 261:13784–13792.
Dorin JR, Novak M, Hill RE, Brock DJH, Secher DS, van Heyningen (1987) A clue to the basic defect in cystic fibrosis from cloning the CF antigen gene. Nature 326:614–617.
Drust DS and Creutz CE (1988) Aggregation of chromaffin granules by calpactin at micromolar levels calcium. Nature 331:88–91.
Erikson E, Tomasiewicz HG, Erikson RL (1984) Biochemical characterization of a 34-kilodalton normal cellular substrate of pp60v-src and an associated 6-kilodalton protein. Mol Cell Biol 4:77–85.
Fava RA, Cohen S (1984) Isolation of a calcium-dependent 35-kilodalton substrate for the epidermal growth factor receptor/kinase from A-431 cells. J Biol Chem 259:2636–2645.
Flower RJ, Wood JN, Parente L (1984) Macrocortin and the mechanism of action of the glucocorticoids. Adv Inflam Res 7:61–69.
Funakoshi T, Hendrickson LE, McMullen BA, Fujikawa K (1987) Primary structure of human placental anticoagulant protein. Biochemistry 26:8087–8092.
Gabius H-J, Bardosi A, Gabius S, Hellmann KP, Karas M, Kratzin H (1989) Identification of a cell cycle-dependent gene product as a sialic acid-binding protein. Biochem Biophys Res Commun 163:506–512.
Geisow MJ, Fritsche U, Hexham JM, Dash B, Johnson T (1986) A consensus amino-acid sequence repeat in Torpedo and mammalian Ca2+-dependent membrane-binding protein. Nature 320:636–638.
Gerke V (1989) Tyrosine protein kinase substrate p36: a member of the annexin family of Ca2+ /phospholipid-binding proteins. Cell Motil Cytoskeleton 14:449–454.
Gerke V, Weber K (1984) Identity of p36K phosphorylated upon Rous sarcoma virus transformation with a protein purified from brush borders; calcium-dependent binding to nonerythroid spectrin and F-actin. EMBO J 3:227–233.
Gerke V, Weber K (1985a) Calcium-dependent conformational changes in the 36-kDa subunit of intestinal protein I related to the cellular 36-kDa target of Rous sarcoma virus tyrosine kinase. J Biol Chem 260:1688–1695.
Gerke V, Weber K (1985b) The regulatory chain in the p36-kd substrate complex of viral tyrosine-specific protein kinases is related in sequence to the S-100 protein of glial cells. EMBO J 4:2917–2920.
Glenney JR Jr (1986a) Phospholipid-dependent Ca2+-binding by the 36-kDa tyrosine kinase substrate (calpactin) and its 33-kDa core. J Biol Chem 261:7247–7252.
Glenney JR Jr (1986b) Two related but distinct forms of the Mr 36.000 tyrosine kinase substrate (calpactin) that interact with phospholipid and actin in a Ca2+-dependent manner. Proc Natl Acad Sci USA 83:4258–4262.
Glenney JR Jr, Tack BF (1985) Amino-terminal sequence of p36 and associated p10: identification of the site of tyrosine phosphorylation and homology with S-100. Proc Natl Acad Sci USA 82:7884–7888.
Glenney JR Jr, Boudreau M, Galyean R, Hunter T, Tack B (1986) Association of the S-100-related calpactin I light chain with the NH2-terminal tail of the 36-kDa heavy chain. J Biol Chem 261:10485–10488.
Glenney JR Jr, Kindy MS, Zokas L (1989) Isolation of a new member of the S-100 protein family: amino acid sequence, tissue and subcellular distribution. J Cell Biol 108:569–578.
Goto K, Endo H, Fujiyoshi T (1988) Cloning of the sequences expressed abundantly in established cell lines: identification of a cDNA clone highly homologous to S-100, a calcium-binding protein. J Biochem 103:48–53.
Gould KL, Woodgett JR, Isacke CM, Hunter T (1986) The protein-tyrosine kinase substrate, p36, is also a substrate for protein kinase C in vivo and in vitro. Mol Cell Biol 6:2738–2744.
Grundmann U, Abel K-J, Bohn H, Löbermann H, Lottspeich F, Küpper H (1988) Characterization of cDNA encoding human placental anticoagulant protein (PP4): homology with the lipocortin family. Proc Natl Acad Sci USA 85:3708–3712.
Haigler HT, Schlaepfer DD, Burgess WH (1987) Characterization of lipocortin I and an immunologically unrelated 33-kDa protein as epidermal growth factor receptor/kinase substrates and phospholipase A2 inhibitors. J Biol Chem 262:6921–6930.
Hexham JM, Totty NF, Waterfield MD, Crumpton MJ (1986) Homology between the subunits of S100 and a 10 kDa polypeptide associated with p36 of pig lymphocytes. Biochem Biophys Res Commun 134:248–254.
Hidaka H, Endo T, Kawamoto S, Yamada E, Umekawa H, Tanabe K, Hara K (1983) Purification and characterization of adipose tissue S-100b protein. J Biol Chem 258:2705–2709.
Hirata F (1984) Roles of lipomodulin: a pospholipase inhibitory protein in immunoregulation. Adv Inflam Res 7:71–78.
Huang K, Wallner B, Mattaliano RJ, Tizard R, Burne C, Frey A, Hession C, McGray P, Sinclair LK, Chow EP, Browning JL, Ramachandran KL, Tang J, Smart JE, Pepinsky RB (1986) Two human 35 kd inhibitors of phospholipase A2 are related to substrates of pp60v-src and the epidermal growth factor receptor/kinase. Cell 46:191–199.
Isobe T, Okuyama T (1981) The amino-acid sequence of the alpha subunit in bovine brain S-100a protein. Eur J Biochem 116:79–86.
Isobe T, Nakajima T, Okuyama T (1977) Reinvestigation of the extremely acidic proteins in bovine brain. Biochim Biophys Acta 494:222–232.
Isobe T, Okuyama T (1978) The amino-acid sequence of S-100 protein (PAP 1-b protein) and its relation to the calcium binding proteins. Eur J Biochem 89:379–388.
Isobe T, Ishioka N, Okuyama T (1981) Structural relation of two S-100 proteins in bovine brain, subunit composition of S-100a protein. Eur J Biochem 115:469–474.
Iwasaki A, Suda M, Nakao H, Nagoya T, Saina Y, Arai K, Mizoguchi T, Sato F, Yoshizaki H, Hirata M, Miyata T, Shidara Y, Murata M, Maki M (1987) Structure and expression of cDNA for an inhibitor of blood coagulation isolated from human placenta: a new lipocortin-like protein. J Biochem 102:1261–1273.
Jackson-Grusby LL, Swiergiel, J, Linzer DIH (1987) A growth related mRNA in cultured mouse cells encodes a placental calcium binding protein. Nucl Acids Res 15:6677–6690.
Johnsson N, Vandekerckhove J, van Damme J, Weber K (1986a) Binding sites for calcium, lipid and p11 on p36, the substrate of retroviral tyrosine-specific protein kinases. FEBS Lett 198:361–364.
Johnsson N, van Nguyen P, Soeling H-D, Weber K (1986b) Functionally distinct serine phosphorylation sites of p36, the cellular substrate of retroviral protein kinase; differential inhibition of reassociation with p11. EMBO J 5:3455–3460.
Johnsson N, Marriott G, Weber K (1988) p36, the major cytoplasmic substrate of src tyrosine protein kinase, binds to its pll subunit via a short amino-terminal amphiphatic helix. EMBO J 7:2435–2442.
Kaplan R, Jaye M, Burgess WH, Schlaepfer DD, Haigler HT (1988) Cloning and expression of cDNA for human endonexin II, a Ca2+ and phospholipid binding protein. J Biol Chem 263:8037–8043.
Klee CB (1988) Ca2+-dependent phospholipid-(and membrane-) binding proteins. Biochemistry 27:6645–6653.
Kligman D, Marshak DR (1985) Purification and characterization of a neurite extension factor from bovine brain. Proc Natl Acad Sci USA 82:7136–7139.
Kligman D, Patel J (1985) A protein modulator stimulates C kinase-dependent phosphorylation of a 90 K substrate in synaptic membranes. J Neurochem 47:298–303.
Kligman D, Hilt DC (1988) The S-100 protein family. Trends Biochem Sci 13:437–443.
Kretsinger RH (1987) Calcium coordination and calmodulin fold: divergent versus convergent evolution. Cold Spring Harbor Symp Quant Biol 52:499–510.
Kristensen T, Saris CJM, Hunter T, Hicks LJ, Noonan DJ, Glenney JR Jr, Tack BF (1986) Primary structure of bovine calpactin I heavy chain (p36), a major cellular substrate for retroviral protein-tyrosine kinases: homology with the human phospholipase A2 inhibitor lipocortin. Biochemistry 25:4497–4503.
Kuznicki J, Filipek A, Hunziker PE, Huber S, Heizmann CW (1989) Calcium-binding protein from Ehrlich ascites-tumour cells is homologous to human calcyclin. Biochem J 263:951–956.
Mangeat PH, Burridge K (1984) Immunoprecipitation of nonerythroid spectrin within live cells following microinjection of specific antibodies: relation to cytoskeletal structures. J Cell Biol 98:1363–1377.
Masiakowski P, Shooter EM (1988) Nerve growth factor induces the genes for two proteins related to a family of calcium-binding proteins in PC12 cells. Proc Natl Acad Sci USA 85:1277–1281.
Maurer-Fogy I, Reutelingsperger CPM, Pieters J, Bodo G, Stratowa C, Hauptmann R (1988) Cloning and expression of cDNA for human vascular anticoagulant, a Ca2+-dependent phospholipid-binding protein. Eur J Biochem 174:585–592.
Mitsunobo F, Fukui M, Oda T, Yamamoto T, Toyoshima K (1989) A mechanism of c-raf-1 activation: fusion of the lipocortin II amino-terminal sequence with the c-raf-1 kinase domain. Oncogene 4:437–442.
Moore B (1965) A soluble protein characteristic of the nervous system. Biochem Biophys Res Commun 19:739–744.
Moss SE, Crumpton MJ (1990) The lipocortins and the EF-hand proteins: Ca2+-binding sites and evolution. Trends Biochem Sci 15:11–12.
Nakata T, Sobue K, Hirokawa N (1990) Conformational change and localization of calpactin I complex involved in exocytosis as revealed by quick-freeze, deep-etch electron microscopy and immunocytochemistry. J Cell Biol 110:13–25.
Odink K, Cerletti N, Brüggen J, Clerc R, Tarcsay L, Zwadlo G, Gerhards G, Schlegel R, Sorg C (1987) Two calcium-binding proteins in infiltrate macrophages of rheumatoid arthritis. Nature 330:80–82.
Osborn M, Johnsson N, Wehland J, Weber K (1988) The submembranous location of p11 and its interaction with the p36 substrate of pp60 src kinase in situ. Exp Cell Res 175:81–96.
Pepinsky RB, Sinclair LK, Chow EP, O’Brine-Greco B (1989) A dimeric form of lipocortin I in human placenta. Biochem J 263:97–103.
Powell MA, Glenney JR Jr (1987) Regulation of calpactin I phospholipid binding by calpactin I light-chain binding and phosphorylation by pp60v-src. Biochem J 247:321–328.
Saris CJM, Tack BF, Kristensen T, Glenney JR Jr, Hunter T (1986) The cDNA sequence for the protein-tyrosine kinase substrate p36 (calpactin I heavy chain) reveals a multidomain protein with internal repeats. Cell 46:201–212.
Saris CJM, Kristensen T, D’Eustachio P, Hicks LJ, Noonan DJ, Hunter T, Tack BF (1987) cDNA sequence and tissue distribution of the mRNA for bovine and murine pll, the S100-related light chain of the protein-tyrosine kinase substrate p36 (calpactin I). J Biol Chem 262:10663–10671.
Semich R, Gerke V, Robenek H, Weber K (1989) The p36 substrate of pp60src kinase is located at the cytoplasmic surface of the plasma membrane of fibroblasts: an immunoelectron microscope analysis. Eur J Cell Biol 50:313–323.
Suedhof TC, Slaughter CA, Leznicki I, Barjon P, Reynolds GA (1988) Human 67-kDa calelectrin contains a duplication of four repeats found in 35-kDa lipocortins. Proc Natl Acad Sci USA 85:664–668.
van Eldik LJ, Staecker JL, Winningham-Major F (1988) Synthesis and expression of a gene coding for the calcium-modulated protein Sl00ß and designed for cassette-based, site-directed mutagenesis. J Biol Chem 263:7830–7837.
Wallner BP, Mattaliano RJ, Hession C, Cate RL, Tizard R, Sinclair LK, Foeller C, Chow EP, Browning JL, Ramachandran KL, Pepinsky RB (1986) Cloning and expression of human lipocortin, a phospholipase A2 inhibitor with potential anti-inflammatory activity. Nature 320:77–81.
Weber K, Johnsson N (1986) Repeating sequence homologies in the p36 target protein of retroviral protein kinases and lipocortin, the p37 inhibitor of phospholipase A2. FEBS Lett 203:95–98.
Weber K, Johnsson N, Plessmann U, van Nguyen P, Soeling H-D, Ampe C, Vandekerckhove J (1987) The amino acid sequence of protein II and its phosphorylation site for protein kinase C; the domain structure Ca2+-modulated lipid binding proteins. EMBO J 6:1599–1604.
Wilkinson MM, Busuttil A, Hayward C, Brock DJH, Dorin J, van Heyningen V (1988) Expression pattern of two related cystic fibrosis-associated calcium-binding proteins in normal and abnormal tissues. J Cell Sci 91:221–230.
Zimmer DB, van Eldik LJ (1986) Identification of a molecular target for the calcium-modulated protein S100. Fructose-l,6-biphosphate aldolase. J Biol Chem 261:11424–11428.
Zokas L, Glenney JR Jr (1987) The calpactin light chain is tightly linked to the cytoskeletal form of calpactin I: studies using monoclonal antibodies to calpactin subunits. J Cell Biol 105:2111–2121.
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1991 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Gerke, V. (1991). p11, A Member of the S-100 Protein Family, is Associated with the Tyrosine Kinase Substrate p36 (Annexin II). In: Heizmann, C.W. (eds) Novel Calcium-Binding Proteins. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-76150-8_9
Download citation
DOI: https://doi.org/10.1007/978-3-642-76150-8_9
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-76152-2
Online ISBN: 978-3-642-76150-8
eBook Packages: Springer Book Archive