PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2008 | 55 | 2 |

Tytuł artykułu

Degenerate specificity of PDZ domains from RhoA-specific nucleotide exchange factors PDZRhoGEF and LARG

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
PDZ domains are ubiquitous protein–protein interaction modules which bind short, usually carboxyterminal fragments of receptors, other integral or membrane-associated proteins, and occasionally cytosolic proteins. Their role in organizing multiprotein complexes at the cellular membrane is crucial for many signaling pathways, but the rules defining their binding specificity are still poorly understood and do not readily explain the observed diversity of their known binding partners. Two homologous RhoA-specific, multidomain nucleotide exchange factors PDZRhoGEF and LARG contain PDZ domains which show a particularly broad recognition profile, as suggested by the identification of five diverse biological targets. To investigate the molecular roots of this phenomenon, we constructed a phage display library of random carboxyterminal hexapeptides. Peptide variants corresponding to the sequences identified in library selection were synthesized and their affinities for both PDZ domains were measured and compared with those of peptides derived from sequences of natural partners. Based on the analysis of the binding sequences identified for PDZRhoGEF, we propose a sequence for an ‘optimal’ binding partner. Our results support the hypothesis that PDZ–peptide interactions may be best understood when one considers the sum of entropic and dynamic effects for each peptide as a whole entity, rather than preferences for specific residues at a given position.

Wydawca

-

Rocznik

Tom

55

Numer

2

Opis fizyczny

p.269-280,fig.,ref.

Twórcy

autor
  • University of Wroclaw, Tamka 2, 50-137 Wroclaw, Poland
autor
autor
autor
autor

Bibliografia

  • Appleton BA, Zhang Y, Wu P, Yin JP, Hunziker W, Skelton NJ, Sidhu SS, Wiesmann C (2006) Comparative structural analysis of the Erbin PDZ domain and the first PDZ domain of zo-1: Insights into determinants of PDZ domain specificity. J Biol Chem 281:22312-22320.
  • Barbas III CF, Wagner J (1995) Synthetic human antibodies: Selecting and evolving functional proteins. Methods: A Companion to Methods in Enzymology 8:94-103.
  • Basdevant N, Weinstein H, Ceruso M (2006) Thermodynamic basis for promiscuity and selectivity in protein-protein interactions: PDZ domains, a case study. J Am Chem Soc 128:12766-12777.
  • Basile JR, Castilho RM, Williams VP, Gutkind JS (2006) Semaphorin 4d provides a link between axon guidance processes and tumor-induced angiogenesis. Proc Natl Acad Sci USA 103:9017-9022.
  • Berk LC, Landi E, Walma T, Vuister GW, Dente L, Hendriks WJ (2007) An allosteric intramolecular PDZ-PDZ interaction modulates ptp-bl pdz2 binding specificity. Biochemistry 46:13629-13637.
  • Bezprozvanny I, Maximov A (2001) Classification of PDZ domains. FEBS Lett 509:457-462.
  • Birrane G, Chung J, Ladias JA (2003) Novel mode of ligand recognition by the erbin PDZ domain. J Biol Chem 278:1399-1402.
  • Borrell-Pages M, Fernandez-Larrea J, Borroto A, Rojo F, Baselga J, Arribas J (2000) The carboxy-terminal cysteine of the tetraspanin L6 antigen is required for its interaction with sitac, a novel PDZ protein. Mol Biol Cell 11:4217-4225.
  • Bourguignon LY, Gilad E, Brightman A, Diedrich F, Singleton P (2006) Hyaluronan-cd44 interaction with leukemia-associated rhogef and epidermal growth factor receptor promotes rho/ras co-activation, phospholipase c ε-Ca2+ signaling, and cytoskeleton modification in head and neck squamous cell carcinoma cells. J Biol Chem 281:14026-14040.
  • Chikumi H, Barac A, Behbahani B, Gao Y, Teramoto H, Zheng Y, Gutkind JS (2004) Homo- and hetero-oligomerization of PDZ-rhogef, larg and p115rhogef by their c-terminal region regulates their in vivorho gef activity and transforming potential. Oncogene 23:233-240.
  • Clackson T, Wells JA (1994) In vitroselection from protein and peptide libraries. Trends Biotechnol 12:173-184.
  • Cuppen E, Gerrits H, Pepers B, Wieringa B, Hendriks W (1998) PDZ motifs in ptp-bl and ril bind to internal protein segments in the lim domain protein ril. Mol Biol Cell 9:671-683.
  • Doyle DA, Lee A, Lewis J, Kim E, Sheng M, MacKinnon R (1996) Crystal structures of a complexed and peptide-free membrane protein-binding domain: Molecular basis of peptide recognition by PDZ. Cell 85:1067-1076.
  • Fuh G, Sidhu SS (2000) Efficient phage display of polypeptides fused to the carboxy-terminus of the m13 gene-3 minor coat protein. FEBS Lett 480:231-234.
  • Fuh G, Pisabarro MT, Li Y, Quan C, Lasky LA, Sidhu SS (2000) Analysis of PDZ domain-ligand interactions using carboxyl-terminal phage display. J Biol Chem 275:21486-21491.
  • Gianni S , Walma T, Arcovito A, Calosci N, Bellelli A, Engstrom A, Travaglini-Allocatelli C, Brunori M, Jemth P, Vuister GW (2006) Demonstration of long-range interactions in a PDZ domain by nmr, kinetics, and protein engineering. Structure 14:1801-1809.
  • Grembecka J, Cierpicki T, Devedjiev Y, Derewenda U, Kang BS, Bushweller JH, Derewenda ZS (2006) The binding of the PDZ tandem of syntenin to target proteins. Biochemistry 45:3674-3683.
  • Harris BZ, Lim WA (2001) Mechanism and role of PDZ domains in signaling complex assembly. J Cell Sci 114:3219-3231.
  • Harris BZ, Hillier BJ, Lim WA (2001) Energetic determinants of internal motif recognition by PDZ domains. Biochemistry 40:5921-5930.
  • Harrison SC (1996) Peptide-surface association: The case of PDZ and ptb domains. Cell 86:341-343.
  • Henikoff S, Henikoff JG (1992) Amino acid substitution matrices from protein blocks. Proc Natl Acad Sci USA 89:10915-10919.
  • Hillier BJ, Christopherson KS, Prehoda KE, Bredt DS, Lim WA (1999) Unexpected modes of PDZ domain scaffolding revealed by structure of nnos-syntrophin complex. Science 284:812-815.
  • Hirotani M , Ohoka Y, Yamamoto T, Nirasawa H, Furuyama T, Kogo M, Matsuya T, Inagaki S (2002) Interaction of plexin-b1 with PDZ domain-containing rho guanine nucleotide exchange factors. Biochem Biophys Res Commun 297:32-37.
  • Jaulin-Bastard F, Saito H, Le Bivic A, Ollendorff V, Marchetto S, Birnbaum D, Borg JP (2001) The erbb2/her2 receptor differentially interacts with ERBIN and pick1 psd-95/dlg/zo-1 domain proteins. J Biol Chem 276:15256-15263.
  • Jaulin-Bastard F, Arsanto JP, Le Bivic A, Navarro C, Vely F, Saito H, Marchetto S, Hatzfeld M, Santoni MJ, Birnbaum D, Borg JP (2002) Interaction between Erbin and a catenin-related protein in epithelial cells. J Biol Chem 277:2869-2875.
  • Jelen F, Oleksy A, Smietana K, Otlewski J (2003) PDZ domains - common players in the cell signaling. Acta Biochim Polon 50:985-1017.
  • Jespers LS, Messens JH, De Keyser A, Eeckhout D, Van den Brande I, Gansemans YG, Lauwereys MJ, Vlasuk GP, Stanssens PE (1995) Surface expression and ligand-based selection of cdnas fused to filamentous phage gene vi. Biotechnology (N Y) 13:378-382.
  • Kang BS, Cooper DR, Devedjiev Y, Derewenda U, Derewenda ZS (2003) Molecular roots of degenerate specificity in syntenin's pdz2 domain: Reassessment of the PDZ recognition paradigm. Structure 11:845-853.
  • Kiczak L, Kasztura M, Koscielska-Kasprzak K, Dadlez M, Otlewski J (2001) Selection of potent chymotrypsin and elastase inhibitors from m13 phage library of basic pancreatic trypsin inhibitor (bpti). Biochim Biophys Acta 1550:153-163.
  • Kimple ME, Siderovski DP, Sondek J (2001) Functional relevance of the disulfide-linked complex of the n-terminal PDZ domain of inad with norpa. Embo J 20:4414-4422.
  • Kourlas PJ, Strout MP, Becknell B, Veronese ML, Croce CM, Theil KS, Krahe R, Ruutu T, Knuutila S, Bloomfield CD, Caligiuri MA (2000) Identification of a gene at 11q23 encoding a guanine nucleotide exchange factor: Evidence for its fusion with mll in acute myeloid leukemia. Proc Natl Acad Sci USA 97:2145-2150.
  • Laura RP, Witt AS, Held HA, Gerstner R, Deshayes K, Koehler MF, Kosik KS, Sidhu SS, Lasky LA (2002) The Erbin PDZ domain binds with high affinity and specificity to the carboxyl termini of δ-catenin and arvcf. J Biol Chem 277:12906-12914.
  • Longhurst DM, Watanabe M, Rothstein JD, Jackson M (2006) Interaction of pdzrhogef with microtubule-associated protein 1 light chains: Link between microtubules, actin cytoskeleton, and neuronal polarity. J Biol Chem 281:12030-12040.
  • Lucast LJ, Batey RT, Doudna JA (2001) Large-scale purification of a stable form of recombinant tobacco etch virus protease. Biotechniques 30:544-546, 548, 550 passim.
  • Maximov A, Sudhof TC, Bezprozvanny I (1999) Association of neuronal calcium channels with modular adaptor proteins. J Biol Chem 274:24453-24456.
  • Nallamsetty S, Waugh DS (2007) A generic protocol for the expression and purification of recombinant proteins in escherichia coliusing a combinatorial his6-maltose binding protein fusion tag. Nat Protoc 2:383-391.
  • Nguyen JT, Turck CW, Cohen FE, Zuckermann RN, Lim WA (1998) Exploiting the basis of proline recognition by sh3 and ww domains: design of n-substituted inhibitors. Science 282:2088-2092.
  • Okuhira K, Fitzgerald ML, Sarracino DA, Manning JJ, Bell SA, Goss JL, Freeman MW (2005) Purification of atp-binding cassette transporter a1 and associated binding proteins reveals the importance of β1-syntrophin in cholesterol efflux. J Biol Chem 280:39653-39664.
  • Paduch M, Biernat M, Stefanowicz P, Derewenda ZS, Szewczuk Z, Otlewski J (2007) Bivalent peptides as models for multimeric targets of PDZ domains. Chembiochem 8:443-452.
  • Penkert RR, DiVittorio HM, Prehoda KE (2004) Internal recognition through PDZ domain plasticity in the par-6-pals1 complex. Nat Struct Mol Biol 11:1122-1127.
  • Ponting CP (1997) Evidence for PDZ domains in bacteria, yeast, and plants. Protein Sci 6:464-468.
  • Rossman KL, Sondek J (2005) Larger than dbl: New structural insights into rhoa activation. Trends Biochem Sci 30:163-165.
  • Runyon ST, Zhang Y, Appleton BA, Sazinsky SL, Wu P, Pan B, Wiesmann C, Skelton NJ, Sidhu SS (2007) Structural and functional analysis of the PDZ domains of human htra1 and htra3. Protein Sci 16:2454-2471.
  • Schepens J, Cuppen E, Wieringa B, Hendriks W (1997) The neuronal nitric oxide synthase PDZ motif binds to -g(d,e)xv* carboxyterminal sequences. FEBS Lett 409:53-56.
  • Smith GP, Scott JK (1993) Libraries of peptides and proteins displayed on filamentous phage. Methods Enzymol2 17: 228-257.
  • Songyang Z, Fanning AS, Fu C, Xu J, Marfatia SM, Chishti AH, Crompton A, Chan AC, Anderson JM, Cantley LC (1997) Recognition of unique carboxyl-terminal motifs by distinct PDZ domains. Science 275:73-77.
  • Stricker NL, Christopherson KS, Yi BA, Schatz PJ, Raab RW, Dawes G, Bassett DE, Jr, Bredt DS, Li M (1997) PDZ domain of neuronal nitric oxide synthase recognizes novel c-terminal peptide sequences. Nat Biotechnol 15:336-342.
  • Swiercz JM, Kuner R, Behrens J, Offermanns S (2002) Plexin-b1 directly interacts with PDZ-rhogef/larg to regulate rhoa and growth cone morphology. Neuron 35:51-63.
  • Taya S, Inagaki N, Sengiku H, Makino H, Iwamatsu A, Urakawa I, Nagao K, Kataoka S, Kaibuchi K (2001) Direct interaction of insulin-like growth factor-1 receptor with leukemia-associated rhogef. J Cell Biol 155:809-820.
  • Togashi H, Nagata K, Takagishi M, Saitoh N, Inagaki M (2000) Functions of a rho-specific guanine nucleotide exchange factor in neurite retraction. Possible role of a proline-rich motif of kiaa0380 in localization. J Biol Chem 275:29570-29578.
  • Tonikian R, Zhang Y, Boone C, Sidhu SS (2007) Identifying specificity profiles for peptide recognition modules from phage-displayed peptide libraries. Nat Protoc 2:1368-1386.
  • Vaccaro P, Brannetti B, Montecchi-Palazzi L, Philipp S, Helmer Citterich M, Cesareni G, Dente L (2001) Distinct binding specificity of the multiple PDZ domains of inadl, a human protein with homology to inad from drosophila melanogaster. J Biol Chem 276:42122-42130.
  • van den Berk LC, Landi E, Harmsen E, Dente L, Hendriks WJ (2005) Redox-regulated affinity of the third PDZ domain in the phosphotyrosine phosphatase ptp-bl for cysteine-containing target peptides. Febs J 272:3306-3316.
  • Wong HC, Bourdelas A, Krauss A, Lee HJ, Shao Y, Wu D, Mlodzik M, Shi DL, Zheng J (2003) Direct binding of the PDZ domain of Dishevelled to a conserved internal sequence in the c-terminal region of Frizzled. Mol Cell 12:1251-1260.
  • Yamada T, Ohoka Y, Kogo M, Inagaki S (2005) Physical and functional interactions of the lysophosphatidic acid receptors with PDZ domain-containing rho guanine nucleotide exchange factors (rhogefs). J Biol Chem 280:19358-19363.
  • Zhang Y, Yeh S, Appleton BA, Held HA, Kausalya PJ, Phua DC, Wong WL, Lasky LA, Wiesmann C, Hunziker W, Sidhu SS (2006) Convergent and divergent ligand specificity amongst the PDZ domains of the lap and zo families. J Biol Chem 281:22299-22311.
  • Zhang Y, Appleton BA, Wu P, Wiesmann C, Sidhu SS (2007) Structural and functional analysis of the ligand specificity of the htra2/omi PDZ domain. Protein Sci 16:1738-1750.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-f1e88b15-c3e4-44b9-b568-1aad92bfd1cc
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.