The interaction of canine plasminogen with streptococcus pyogenes enolase: They bind to one another but what is the nature of the structures involved?

PLoS ONE

Volumn 6, Issue 12, 2011, Pages

  Kornblatt, M Judith ^a   Kornblatt, Jack A ^a   Hancock, Mark A ^b  

^a Dept of Electrical and Computer Engineering   (Canada)

^b MCGILL UNIVERSITY   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

ENOLASE; PHOSPHOLIPID; PLASMINOGEN; BUFFER; REDUCING AGENT;

ARTICLE; BINDING AFFINITY; BINDING SITE; CONTROLLED STUDY; DOG; FLUORESCENCE POLARIZATION; HOST PATHOGEN INTERACTION; INTERMETHOD COMPARISON; ISOTHERMAL TITRATION CALORIMETRY; LIGHT SCATTERING; MOLECULAR DYNAMICS; MOLECULAR INTERACTION; NONHUMAN; PH MEASUREMENT; PRECIPITATION; PROCESS OPTIMIZATION; PROTEIN BINDING; PROTEIN DETERMINATION; PROTEIN PROTEIN INTERACTION; PROTEIN STRUCTURE; STREPTOCOCCUS PYOGENES; SURFACE PLASMON RESONANCE; ULTRACENTRIFUGATION; VALIDATION PROCESS; ADSORPTION; ANIMAL; CALORIMETRY; CHEMICAL STRUCTURE; CHEMISTRY; DRUG EFFECT; ENZYMOLOGY; KINETICS; METABOLISM; MICELLE; PH; SOLUTION AND SOLUBILITY; SURFACE PROPERTY;

ADSORPTION; ANIMALS; BUFFERS; CALORIMETRY; CHEMICAL PRECIPITATION; DOGS; FLUORESCENCE POLARIZATION; HYDROGEN-ION CONCENTRATION; KINETICS; MICELLES; MODELS, MOLECULAR; PHOSPHOLIPIDS; PHOSPHOPYRUVATE HYDRATASE; PLASMINOGEN; PROTEIN BINDING; REDUCING AGENTS; SOLUTIONS; STREPTOCOCCUS PYOGENES; SURFACE PLASMON RESONANCE; SURFACE PROPERTIES; ULTRACENTRIFUGATION;

EID: 83055163891     PISSN: None     EISSN: 19326203     Source Type: Journal    
DOI: 10.1371/journal.pone.0028481     Document Type: Article

References (62)

1. Miles LA, Plow EF, (1985) Binding and activation of plasminogen on the platelet surface. J Biol Chem 260: 4303-4311.
2. Plow EF, Felez J, Miles LA, (1991) Cellular regulation of fibrinolysis. Thromb Haemost 66: 32-36.
3. Miles LA, Dahlberg CM, Levin EG, Plow EF, (1989) Gangliosides interact directly with plasminogen and urokinase and may mediate binding of these fibrinolytic components to cells. Biochemistry 28: 9337-9343.
4. Miles LA, Dahlberg CM, Plescia J, Felez J, Kato K, et al. (1991) Role of cell-surface lysines in plasminogen binding to cells: identification of alpha-enolase as a candidate plasminogen receptor. Biochemistry 30: 1682-1691.
5. Seweryn E, Pietkiewicz J, Szamborska A, Gamian A, (2007) [Enolase on the surface of prockaryotic and eukaryotic cells is a receptor for human plasminogen]. Postepy Hig Med Dosw (Online) 61: 672-682 535767.
6. Wygrecka M, Marsh LM, Morty RE, Henneke I, Guenther A, et al. (2009) Enolase-1 promotes plasminogen-mediated recruitment of monocytes to the acutely inflamed lung. Blood 113: 5588-5598.
7. Andronicos NM, Ranson M, Bognacki J, Baker MS, (1997) The human ENO1 gene product (recombinant human alpha-enolase) displays characteristics required for a plasminogen binding protein. Biochim Biophys Acta 1337: 27-39.
8. Lopez-Alemany R, Suelves M, Diaz-Ramos A, Vidal B, Munoz-Canoves P, (2005) Alpha-enolase plasminogen receptor in myogenesis. Front Biosci 10: 30-36 1503.
9. Redlitz A, Fowler BJ, Plow EF, Miles LA, (1995) The role of an enolase-related molecule in plasminogen binding to cells. Eur J Biochem 227: 407-415.
10. Nakajima K, Hamanoue M, Takemoto N, Hattori T, Kato K, et al. (1994) Plasminogen binds specifically to alpha-enolase on rat neuronal plasma membrane. J Neurochem 63: 2048-2057.
11. Rogalski AA, Steck TL, Waseem A, (1989) Association of glyceraldehyde-3-phosphate dehydrogenase with the plasma membrane of the intact human red blood cell. J Biol Chem 264: 6438-6446.
12. Lewis JH, Ferguson JH, (1951) A proteolytic enzyme system of the blood. III. Activation of dog serum profibrinolysin by staphylokinase. Am J Physiol 166: 594-602.
13. Itzek A, Gillen CM, Fulde M, Friedrichs C, Rodloff AC, et al. (2010) Contribution of plasminogen activation towards the pathogenic potential of oral streptococci. PLoS One 5: e13826.
14. Lottenberg R, Minning-Wenz D, Boyle MD, (1994) Capturing host plasmin(ogen): a common mechanism for invasive pathogens? Trends Microbiol 2: 20-24.
15. Attali C, Durmort C, Vernet T, Di Guilmi AM, (2008) The interaction of Streptococcus pneumoniae with plasmin mediates transmigration across endothelial and epithelial monolayers by intercellular junction cleavage. Infect Immun 76: 5350-5356.
16. Torre-Escudero E, Manzano-Roman R, Perez-Sanchez R, Siles-Lucas M, Oleaga A, (2010) Cloning and characterization of a plasminogen-binding surface-associated enolase from Schistosoma bovis. Vet Parasitol 173: 76-84.
17. Nogueira SV, Fonseca FL, Rodrigues ML, Mundodi V, Abi-Chacra EA, et al. (2010) Paracoccidioides brasiliensis enolase is a surface protein that binds plasminogen and mediates interaction of yeast forms with host cells. Infect Immun 78: 4040-4050.
18. Candela M, Biagi E, Centanni M, Turroni S, Vici M, et al. (2009) Bifidobacterial enolase, a cell surface receptor for human plasminogen involved in the interaction with the host. Microbiology 155: 3294-3303.
19. Sha J, Erova TE, Alyea RA, Wang S, Olano JP, et al. (2009) Surface-expressed enolase contributes to the pathogenesis of clinical isolate SSU of Aeromonas hydrophila. J Bacteriol 191: 3095-3107.
20. Agarwal S, Kulshreshtha P, Bambah MD, Bhatnagar R, (2008) alpha-Enolase binds to human plasminogen on the surface of Bacillus anthracis. Biochim Biophys Acta 1784: 986-994.
21. Matta SK, Agarwal S, Bhatnagar R, (2010) Surface localized and extracellular Glyceraldehyde-3-phosphate dehydrogenase of Bacillus anthracis is a plasminogen binding protein. Biochim Biophys Acta 1804: 2111-2120.
22. Kinnby B, Booth NA, Svensater G, (2008) Plasminogen binding by oral streptococci from dental plaque and inflammatory lesions. Microbiology 154: 924-931.
23. Mundodi V, Kucknoor AS, Alderete JF, (2008) Immunogenic and plasminogen-binding surface-associated alpha-enolase of Trichomonas vaginalis. Infect Immun 76: 523-531.
24. Yavlovich A, Rechnitzer H, Rottem S, (2007) Alpha-enolase resides on the cell surface of Mycoplasma fermentans and binds plasminogen. Infect Immun 75: 5716-5719.
25. Vanegas G, Quinones W, Carrasco-Lopez C, Concepcion JL, Albericio F, et al. (2007) Enolase as a plasminogen binding protein in Leishmania mexicana. Parasitol Res 101: 1511-1516.
26. Hurmalainen V, Edelman S, Antikainen J, Baumann M, Lahteenmaki K, et al. (2007) Extracellular proteins of Lactobacillus crispatus enhance activation of human plasminogen. Microbiology 153: 1112-1122.
27. Ramajo-Hernandez A, Perez-Sanchez R, Ramajo-Martin V, Oleaga A, (2007) Schistosoma bovis: plasminogen binding in adults and the identification of plasminogen-binding proteins from the worm tegument. Exp Parasitol 115: 83-91.
28. Lee JH, Kang HK, Moon YH, Cho DL, Kim D, et al. (2006) Cloning, expression and characterization of an extracellular enolase from Leuconostoc mesenteroides. FEMS Microbiol Lett 259: 240-248.
29. Kolberg J, Aase A, Bergmann S, Herstad TK, Rodal G, et al. (2006) Streptococcus pneumoniae enolase is important for plasminogen binding despite low abundance of enolase protein on the bacterial cell surface. Microbiology 152: 1307-1317.
30. Ge J, Catt DM, Gregory RL, (2004) Streptococcus mutans surface alpha-enolase binds salivary mucin MG2 and human plasminogen. Infect Immun 72: 6748-6752.
31. Bergmann S, Rohde M, Hammerschmidt S, (2004) Glyceraldehyde-3-phosphate dehydrogenase of Streptococcus pneumoniae is a surface-displayed plasminogen-binding protein. Infect Immun 72: 2416-2419.
32. Bernal D, de la Rubia JE, Carrasco-Abad AM, Toledo R, Mas-Coma S, et al. (2004) Identification of enolase as a plasminogen-binding protein in excretory-secretory products of Fasciola hepatica. FEBS Lett 563: 203-206.
33. Derbise A, Song YP, Parikh S, Fischetti VA, Pancholi V, (2004) Role of the C-terminal lysine residues of streptococcal surface enolase in Glu- and Lys-plasminogen-binding activities of group A streptococci. Infect Immun 72: 94-105.
34. Pancholi V, Fontan P, Jin H, (2003) Plasminogen-mediated group A streptococcal adherence to and pericellular invasion of human pharyngeal cells. Microb Pathog 35: 293-303.
35. Jong AY, Chen SH, Stins MF, Kim KS, Tuan TL, et al. (2003) Binding of Candida albicans enolase to plasmin(ogen) results in enhanced invasion of human brain microvascular endothelial cells. J Med Microbiol 52: 615-622.
36. Bergmann S, Wild D, Diekmann O, Frank R, Bracht D, et al. (2003) Identification of a novel plasmin(ogen)-binding motif in surface displayed alpha-enolase of Streptococcus pneumoniae. Mol Microbiol 49: 411-423.
37. Jolodar A, Fischer P, Bergmann S, Buttner DW, Hammerschmidt S, et al. (2003) Molecular cloning of an alpha-enolase from the human filarial parasite Onchocerca volvulus that binds human plasminogen. Biochim Biophys Acta 1627: 111-120.
38. Sha J, Galindo CL, Pancholi V, Popov VL, Zhao Y, et al. (2003) Differential expression of the enolase gene under in vivo versus in vitro growth conditions of Aeromonas hydrophila. Microb Pathog 34: 195-204.
39. Whiting GC, Evans JT, Patel S, Gillespie SH, (2002) Purification of native alpha-enolase from Streptococcus pneumoniae that binds plasminogen and is immunogenic. J Med Microbiol 51: 837-843.
40. Molkanen T, Tyynela J, Helin J, Kalkkinen N, Kuusela P, (2002) Enhanced activation of bound plasminogen on Staphylococcus aureus by staphylokinase. FEBS Lett 517: 72-78.
41. Fox D, Smulian AG, (2001) Plasminogen-binding activity of enolase in the opportunistic pathogen Pneumocystis carinii. Med Mycol 39: 495-507.
42. Jones MN, Holt RG, (2007) Cloning and characterization of an alpha-enolase of the oral pathogen Streptococcus mutans that binds human plasminogen. Biochem Biophys Res Commun 364: 924-929.
43. Pancholi V, Fischetti VA, (1998) α-enolase, a novel strong plasmin(ogen) binding protein on the surface of pathogenic streptococci. J Biol Chem 273: 14503-14515.
44. Ehinger S, Schubert WD, Bergmann S, Hammerschmidt S, Heinz DW, (2004) Plasmin(ogen)-binding alpha-enolase from Streptococcus pneumoniae: crystal structure and evaluation of plasmin(ogen)-binding sites. J Mol Biol 343: 997-1005.
45. Esgleas M, Li Y, Hancock MA, Harel J, Dubreuil JD, et al. (2008) Isolation and characterization of alpha-enolase, a novel fibronectin-binding protein from Streptococcus suis. Microbiology 154: 2668-2679.
46. Bachmann F, (1994) Molecular aspects of plasminogen, plasminogen activators and plasmin. In: Bloom AL, Forbes CD, Thomas DP, Tuddenham EGD, editors. Haemostasis and thrombosis U.K. Chuchill Livingston pp. 525-600.
47. Cork AJ, Jergic S, Hammerschmidt S, Kobe B, Pancholi V, et al. (2009) Defining the structural basis of human plasminogen binding by streptococcal surface enolase. J Biol Chem 284: 17129-17137.
48. Antikainen J, Kuparinen V, Lahteenmaki K, Korhonen TK, (2007) pH-dependent association of enolase and glyceraldehyde-3-phosphate dehydrogenase of Lactobacillus crispatus with the cell wall and lipoteichoic acids. J Bacteriol 189: 4539-4543.
49. Kornblatt JA, (2009) Reduction of canine plasminogen leads to an expanded molecule which precipitates. PLoS One 4: e6196.
50. Brewer JM, Faini GJ, Wu CA, Goss LP, Carreira LA, et al. (1995) Characterization of the Subunit Dissociation of Yeast Enolase. In: Catsimpoolas N, editors. Physical Aspects of Protein Interactions Amsterdam Elsevier/North-Holland pp. 57-78.
51. Kornblatt MJ, Lange R, Balny C, (1998) Can monomers of yeast enolase have enzymatic activity? Eur J Biochem 251: 775-780.
52. Karbassi F, Quiros V, Pancholi V, Kornblatt MJ, (2010) Dissociation of the octameric enolase from S. pyogenes-one interface stabilizes another. PLoS One 5: e8810.
53. Hakobyan S, Harris CL, van den Berg CW, Fernandez-Alonso MC, de Jorge EG, et al. (2008) Complement factor H binds to denatured rather than to native pentameric C-reactive protein. J Biol Chem 283: 30451-30460.
54. Bergmann S, Rohde M, Chhatwal GS, Hammerschmidt S, (2001) alpha-Enolase of Streptococcus pneumoniae is a plasmin(ogen)-binding protein displayed on the bacterial cell surface. Mol Microbiol 40: 1273-1287.
55. Chhatwal GS, (2002) Anchorless adhesins and invasins of Gram-positive bacteria: a new class of virulence factors. Trends Microbiol 10: 205-208.
56. Chung MC, Tonry JH, Narayanan A, Manes NP, Mackie RS, et al. (2011) Bacillus anthracis Interacts with Plasmin(ogen) to Evade C3b-Dependent Innate Immunity. PLoS One 6: e18119.
57. Antikainen J, Kuparinen V, Lahteenmaki K, Korhonen TK, (2007) Enolases from Gram-positive bacterial pathogens and commensal lactobacilli share functional similarity in virulence-associated traits. FEMS Immunol Med Microbiol 51: 526-534.
58. Kornblatt JA, Kornblatt MJ, Clery C, Balny C, (1999) The effects of hydrostatic pressure on the conformation of plasminogen. Eur J Biochem 265: 120-126.
59. Schuck P, (2000) Size-distribution analysis of macromolecules by sedimentation velocity ultracentrifugation and lamm equation modeling. Biophys J 78: 1606-1619.
60. Brown PH, Schuck P, (2006) Macromolecular size-and-shape distributions by sedimentation velocity analytical ultracentrifugation. Biophys J 90: 4651-4661.
61. Myszka DG, Jonsen MD, Graves BJ, (1998) Equilibrium analysis of high affinity interactions using BIACORE. Anal Biochem 265: 326-330.
62. Karlsson R, Katsamba PS, Nordin H, Pol E, Myszka DG, (2006) Analyzing a kinetic titration series using affinity biosensors. Anal Biochem 349: 136-147.