Macrophages from BALB/c and CBA/Ca mice differ in their cellular responses to Streptococcus pneumoniae

Journal of Leukocyte Biology

Volumn 87, Issue 4, 2010, Pages 735-741

  Ripoll, Vera M ^a   Kadioglu, Aras ^b   Cox, Roger ^a   Hume, David A ^c   Denny, Paul ^a  

^a MRC MAMMALIAN GENETICS UNIT   (United Kingdom)

^b UNIVERSITY OF LEICESTER   (United Kingdom)

^c UNIVERSITY OF EDINBURGH   (United Kingdom)

Author keywords

Host pathogen interaction; Mononuclear phagocytes; Pneumococci; TLR9

Indexed keywords

CHEMOKINE; CYTOKINE; IMMUNOGLOBULIN ENHANCER BINDING PROTEIN; MITOGEN ACTIVATED PROTEIN KINASE 1; MITOGEN ACTIVATED PROTEIN KINASE 3; MITOGEN ACTIVATED PROTEIN KINASE P38; RANTES; TOLL LIKE RECEPTOR 9; TUMOR NECROSIS FACTOR ALPHA;

ANIMAL CELL; ANIMAL EXPERIMENT; ANIMAL MODEL; ANIMAL TISSUE; ARTICLE; CELL DEATH; CONTROLLED STUDY; FEMUR; GENETIC RESISTANCE; GENETIC SUSCEPTIBILITY; INFLAMMATION; MACROPHAGE; MALE; MOUSE; NONHUMAN; PRIORITY JOURNAL; PROTEIN EXPRESSION; REGULATORY MECHANISM; STREPTOCOCCUS PNEUMONIAE;

ACUTE DISEASE; ANIMALS; CELL DEATH; CHEMOKINE CCL5; DISEASE MODELS, ANIMAL; INFLAMMATION; MACROPHAGES; MALE; MAP KINASE SIGNALING SYSTEM; MICE; MICE, INBRED BALB C; MITOGEN-ACTIVATED PROTEIN KINASE 3; NF-KAPPA B; P38 MITOGEN-ACTIVATED PROTEIN KINASES; PNEUMONIA, PNEUMOCOCCAL; SPECIES SPECIFICITY; STREPTOCOCCUS PNEUMONIAE; TOLL-LIKE RECEPTOR 9; TUMOR NECROSIS FACTOR-ALPHA;

MUS; STREPTOCOCCUS PNEUMONIAE;

EID: 77950581262     PISSN: 07415400     EISSN: None     Source Type: Journal    
DOI: 10.1189/jlb.0509359     Document Type: Article

References (29)

1. Pletz, M. W., Maus, U., Krug, N., Welte, T., Lode, H. (2008) Pneumococcal vaccines: mechanism of action, impact on epidemiology and adaption of the species. Int. J. Antimicrob. Agents 32, 199-206.
2. Tsai, K. S., Grayson, M. H. (2008) Pulmonary defense mechanisms against pneumonia and sepsis. Curr. Opin. Pulm. Med. 14, 260-265. (Pubitemid 351572329)
3. Knapp, S., Leemans, J. C., Florquin, S., Branger, J., Maris, N. A., Pater, J., van Rooijen, N., van der Poll, T. (2003) Alveolar macrophages have a protective antiinflammatory role during murine pneumococcal pneumonia. Am. J. Respir. Crit. Care Med. 167, 171-179. (Pubitemid 36076076)
4. Picard, C., Puel, A., Bonnet, M., Ku, C. L., Bustamante, J., Yang, K., Soudais, C., Dupuis, S., Feinberg, J., Fieschi, C., Elbim, C., Hitchcock, R., Lammas, D., Davies, G., Al-Ghonaium, A., Al-Rayes, H., Al-Jumaah, S., Al-Hajjar, S., Al-Mohsen, I. Z., Frayha, H. H., Rucker, R., Hawn, T. R., Aderem, A., Tufenkeji, H., Haraguchi, S., Day, N. K., Good, R. A., Gougerot-Pocidalo, M. A., Ozinsky, A., Casanova, J. L. (2003) Pyogenic bacterial infections in humans with IRAK-4 deficiency. Science 299, 2076-2079. (Pubitemid 36383736)
5. Liu, T., Matsuguchi, T., Tsuboi, N., Yajima, T., Yoshikai, Y. (2002) Differences in expression of Toll-like receptors and their reactivities in dendritic cells in BALB/c and C57BL/6 mice. Infect. Immun. 70, 6638-6645. (Pubitemid 35387892)
6. Rogers, J., Hakki, A., Perkins, I., Newton, C., Widen, R., Burdash, N., Klein, T., Friedman, H. (2007) Legionella pneumophila infection up-regulates dendritic cell Toll-like receptor 2 (TLR2)/TLR4 expression and key maturation markers. Infect. Immun. 75, 3205-3208. (Pubitemid 46870210)
7. Albiger, B., Dahlberg, S., Sandgren, A., Wartha, F., Beiter, K., Katsuragi, H., Akira, S., Normark, S., Henriques-Normark, B. (2007) Toll-like receptor 9 acts at an early stage in host defense against pneumococcal infection. Cell. Microbiol. 9, 633-644. (Pubitemid 46231970)
8. Lee, K. S., Scanga, C. A., Bachelder, E. M., Chen, Q., Snapper, C. M. (2007) TLR2 synergizes with both TLR4 and TLR9 for induction of the MyD88-dependent splenic cytokine and chemokine response to Streptococcus pneumoniae. Cell. Immunol. 245, 103-110. (Pubitemid 46921170)
9. Branger, J., Knapp, S., Weijer, S., Leemans, J. C., Pater, J. M., Speelman, P., Florquin, S., van der Poll, T. (2004) Role of Toll-like receptor 4 in gram-positive and gram-negative pneumonia in mice. Infect. Immun. 72, 788-794. (Pubitemid 38166657)
10. Knapp, S., Wieland, C. W., van't Veer, C., Takeuchi, O., Akira, S., Florquin, S., van der Poll, T. (2004) Toll-like receptor 2 plays a role in the early inflammatory response to murine pneumococcal pneumonia but does not contribute to antibacterial defense. J. Immunol. 172, 3132-3138.
11. Cooke, G. S., Hill, A. V. (2001) Genetics of susceptibility to human infectious disease. Nat. Rev. Genet. 2, 967-977. (Pubitemid 33691093)
12. Lipoldova, M., Demant, P. (2006) Genetic susceptibility to infectious disease: lessons from mouse models of leishmaniasis. Nat. Rev. Genet. 7, 294-305.
13. Kadioglu, A., Andrew, P. W. (2005) Susceptibility and resistance to pneumococcal disease in mice. Brief. Funct. Genomic. Proteomic. 4, 241-247. (Pubitemid 43055805)
14. Gingles, N. A., Alexander, J. E., Kadioglu, A., Andrew, P. W., Kerr, A., Mitchell, T. J., Hopes, E., Denny, P., Brown, S., Jones, H. B., Little, S., Booth, G. C., McPheat, W. L. (2001) Role of genetic resistance in invasive pneumococcal infection: identification and study of susceptibility and resistance in inbred mouse strains. Infect. Immun. 69, 426-434. (Pubitemid 32038342)
15. Denny, P., Hopes, E., Gingles, N., Broman, K. W., McPheat, W., Morten, J., Alexander, J., Andrew, P. W., Brown, S. D. (2003) A major locus conferring susceptibility to infection by Streptococcus pneumoniae in mice. Mamm. Genome 14, 448-453. (Pubitemid 36801967)
16. Kerr, A. R., Irvine, J. J., Search, J. J., Gingles, N. A., Kadioglu, A., Andrew, P. W., McPheat, W. L., Booth, C. G., Mitchell, T. J. (2002) Role of inflammatory mediators in resistance and susceptibility to pneumococcal infection. Infect. Immun. 70, 1547-1557. (Pubitemid 34163434)
17. Wells, C. A., Ravasi, T., Faulkner, G. J., Carninci, P., Okazaki, Y., Hayashizaki, Y., Sweet, M., Wainwright, B. J., Hume, D. A. (2003) Genetic control of the innate immune response. BMC Immunol. 4, 5. (Pubitemid 38692930)
18. Schroder, N. W., Morath, S., Alexander, C., Hamann, L., Hartung, T., Zahringer, U., Gobel, U. B., Weber, J. R., Schumann, R. R. (2003) Lipoteichoic acid (LTA) of Streptococcus pneumoniae and Staphylococcus aureus activates immune cells via Toll-like receptor (TLR)-2, lipopolysaccharide-binding protein (LBP), and CD14, whereas TLR-4 and MD-2 are not involved. J. Biol. Chem. 278, 15587-15594. (Pubitemid 36799667)
19. Malley, R., Henneke, P., Morse, S. C., Cieslewicz, M. J., Lipsitch, M., Thompson, C. M., Kurt-Jones, E., Paton, J. C., Wessels, M. R., Golenbock, D. T. (2003) Recognition of pneumolysin by Toll-like receptor 4 confers resistance to pneumococcal infection. Proc. Natl. Acad. Sci. USA 100, 1966-1971. (Pubitemid 36254557)
20. Ragnarsdottir, B., Samuelsson, M., Gustafsson, M. C., Leijonhufvud, I., Karpman, D., Svanborg, C. (2007) Reduced Toll-like receptor 4 expression in children with asymptomatic bacteriuria. J. Infect. Dis. 196, 475-484. (Pubitemid 47093899)
21. Palaniappan, R., Singh, S., Singh, U. P., Singh, R., Ades, E. W., Briles, D. E., Hollingshead, S. K., Royal III, W., Sampson, J. S., Stiles, J. K., Taub, D. D., Lillard Jr., J. W. (2006) CCL5 modulates pneumococcal immunity and carriage. J. Immunol. 176, 2346-2356.
22. Kadioglu, A., Coward, W., Colston, M. J., Hewitt, C. R., Andrew, P. W. (2004) CD4-T-lymphocyte interactions with pneumolysin and pneumococci suggest a crucial protective role in the host response to pneumococcal infection. Infect. Immun. 72, 2689-2697. (Pubitemid 38542395)
23. Nelson, S., Summer, W., Bagby, G., Nakamura, C., Stewart, L., Lipscomb, G., Andresen, J. (1991) Granulocyte colony-stimulating factor enhances pulmonary host defenses in normal and ethanol-treated rats. J. Infect. Dis. 164, 901-906.
24. Craig, A., Mai, J., Cai, S., Jeyaseelan, S. (2009) Neutrophil recruitment to the lungs during bacterial pneumonia. Infect. Immun. 77, 568-575.
25. Kawai, T., Adachi, O., Ogawa, T., Takeda, K., Akira, S. (1999) Unresponsiveness of MyD88-deficient mice to endotoxin. Immunity 11, 115-122.
26. Santos-Sierra, S., Golenbock, D. T., Henneke, P. (2006) Toll-like receptor-dependent discrimination of streptococci. J. Endotoxin Res. 12, 307-312.
27. Lombardo, E., Alvarez-Barrientos, A., Maroto, B., Bosca, L., Knaus, U. G. (2007) TLR4-mediated survival of macrophages is MyD88 dependent and requires TNF-α autocrine signaling. J. Immunol. 178, 3731-3739. (Pubitemid 46417641)
28. Roux, P. P., Blenis, J. (2004) ERK and p38 MAPK-activated protein kinases: a family of protein kinases with diverse biological functions. Microbiol. Mol. Biol. Rev. 68, 320-344.
29. Marriott, H. M., Dockrell, D. H. (2007) The role of the macrophage in lung disease mediated by bacteria. Exp. Lung Res. 33, 493-505. (Pubitemid 350256094)