Factor associated with neutral sphingomyelinase activity mediates navigational capacity of leukocytes responding to wounds and infection: Live imaging studies in zebrafish larvae

Journal of Immunology

Volumn 189, Issue 4, 2012, Pages 1559-1566

  Boecke, Alexandra ^a   Sieger, Dirk ^b   Neacsu, Cristian Dan ^a   Kashkar, Hamid ^a   Krönke, Martin ^a  

^a UNIVERSITY OF COLOGNE   (Germany)

^b EUROPEAN MOLECULAR BIOLOGY LABORATORY   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

FACTOR ASSOCIATED WITH NEUTRAL SPHINGOMYELINASE; SPHINGOMYELIN PHOSPHODIESTERASE; UNCLASSIFIED DRUG;

ANIMAL CELL; ANIMAL EXPERIMENT; ANIMAL MODEL; ARTICLE; BACTERIAL INFECTION; CELL TRACKING; CHEMOTAXIS; CONTROLLED STUDY; EMBRYO; ENZYME ACTIVITY; ENZYME DEFICIENCY; IMMUNE RESPONSE; IMMUNOPATHOLOGY; IN VIVO STUDY; INFLAMMATION; LARVA; LEUKOCYTE ACTIVATION; LEUKOCYTE COUNT; LEUKOCYTE FUNCTION; LEUKOCYTE MIGRATION; LEUKOCYTE MOTILITY; NONHUMAN; PRIORITY JOURNAL; PSEUDOPODIUM; SIGNAL TRANSDUCTION; WOUND; ZEBRA FISH;

AMINO ACID SEQUENCE; ANIMALS; BACTERIAL INFECTIONS; CHEMOTAXIS, LEUKOCYTE; IN SITU HYBRIDIZATION; INTRACELLULAR SIGNALING PEPTIDES AND PROTEINS; LARVA; LEUKOCYTES; MICROSCOPY, CONFOCAL; MOLECULAR SEQUENCE DATA; REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION; SPHINGOMYELIN PHOSPHODIESTERASE; WOUND HEALING; ZEBRAFISH;

EID: 84864816915     PISSN: 00221767     EISSN: 15506606     Source Type: Journal    
DOI: 10.4049/jimmunol.1102207     Document Type: Article

References (34)

1. Wiegmann, K., S. Schütze, E. Kampen, A. Himmler, T. Machleidt, and M. Krönke. 1992. Human 55-kDa receptor for tumor necrosis factor coupled to signal transduction cascades. J. Biol. Chem. 267: 17997-18001.
2. Hehlgans, T., and D. N. Männel. 2002. The TNF-TNF receptor system. Biol. Chem. 383: 1581-1585. (Pubitemid 35282977)
3. Wajant, H., K. Pfizenmaier, and P. Scheurich. 2003. Tumor necrosis factor signaling. Cell Death Differ. 10: 45-65. (Pubitemid 36511832)
4. Chen, G., and D. V. Goeddel. 2002. TNF-R1 signaling: a beautiful pathway. Science 296: 1634-1635. (Pubitemid 34579145)
5. Adam-Klages, S., D. Adam, K. Wiegmann, S. Struve, W. Kolanus, J. Schneider-Mergener, and M. Krönke. 1996. FAN, a novel WD-repeat protein, couples the p55 TNF-receptor to neutral sphingomyelinase. Cell 86: 937-947. (Pubitemid 26336798)
6. Haubert, D., N. Gharib, F. Rivero, K. Wiegmann, M. Hösel, M. Krönke, and H. Kashkar. 2007. PtdIns(4,5)P-restricted plasma membrane localization of FAN is involved in TNF-induced actin reorganization. EMBO J. 26: 3308-3321. (Pubitemid 47123543)
7. Jogl, G., Y. Shen, D. Gebauer, J. Li, K. Wiegmann, H. Kashkar, M. Krönke, and L. Tong. 2002. Crystal structure of the BEACH domain reveals an unusual fold and extensive association with a novel PH domain. EMBO J. 21: 4785-4795.
8. Ségui, B., N. Andrieu-Abadie, S. Adam-Klages, O. Meilhac, D. Kreder, V. Garcia, A. P. Bruno, J. P. Jaffrézou, R. Salvayre, M. Krönke, and T. Levade. 1999. CD40 signals apoptosis through FAN-regulated activation of the sphingomyelin-ceramide pathway. J. Biol. Chem. 274: 37251-37258.
9. Ségui, B., O. Cuvillier, S. Adam-Klages, V. Garcia, S. Malagarie-Cazenave, S. Lévêque, S. Caspar-Bauguil, J. Coudert, R. Salvayre, M. Krönke, and T. Levade. 2001. Involvement of FAN in TNF-induced apoptosis. J. Clin. Invest. 108: 143-151. (Pubitemid 32634931)
10. Werneburg, N., M. E. Guicciardi, X. M. Yin, and G. J. Gores. 2004. TNF-alpha-mediated lysosomal permeabilization is FAN and caspase 8/Bid dependent. Am. J. Physiol. Gastrointest. Liver Physiol. 287: G436-G443. (Pubitemid 38955264)
11. Malagarie-Cazenave, S., B. Ségui, S. Lévêque, V. Garcia, S. Carpentier, M. F. Altié, A. Brouchet, V. Gouazé, N. Andrieu-Abadie, Y. Barreira, et al. 2004. Role of FAN in tumor necrosis factor-alpha and lipopolysaccharide-induced interleukin-6 secretion and lethality in D-galactosamine-sensitized mice. J. Biol. Chem. 279: 18648-18655. (Pubitemid 38623287)
12. Tcherkasowa, A. E., S. Adam-Klages, M. L. Kruse, K. Wiegmann, S. Mathieu, W. Kolanus, M. Krönke, and D. Adam. 2002. Interaction with factor associated with neutral sphingomyelinase activation, a WD motif-containing protein, identifies receptor for activated C-kinase 1 as a novel component of the signaling pathways of the p55 TNF receptor. J. Immunol. 169: 5161-5170. (Pubitemid 35217186)
13. O'Brien, N. W., N. M. Gellings, M. Guo, S. B. Barlow, C. C. Glembotski, and R. A. Sabbadini. 2003. Factor associated with neutral sphingomyelinase activation and its role in cardiac cell death. Circ. Res. 92: 589-591. (Pubitemid 36417690)
14. Peppelenbosch, M., E. Boone, G. E. Jones, S. J. van Deventer, G. Haegeman, W. Fiers, J. Grooten, and A. J. Ridley. 1999. Multiple signal transduction pathways regulate TNF-induced actin reorganization in macrophages: inhibition of Cdc42-mediated filopodium formation by TNF. J. Immunol. 162: 837-845. (Pubitemid 29035407)
15. Sieger, D., D. Tautz, and M. Gajewski. 2003. The role of Suppressor of Hairless in Notch mediated signalling during zebrafish somitogenesis. Mech. Dev. 120:1083-1094. (Pubitemid 37205050)
16. Peri, F., and C. Nüsslein-Volhard. 2008. Live imaging of neuronal degradation by microglia reveals a role for v0-ATPase a1 in phagosomal fusion in vivo. Cell 133: 916-927. (Pubitemid 351707689)
17. Renshaw, S. A., C. A. Loynes, D. M. Trushell, S. Elworthy, P. W. Ingham, and M. K. Whyte. 2006. A transgenic zebrafish model of neutrophilic inflammation. Blood 108: 3976-3978. (Pubitemid 44913264)
18. Westerfield, M. 1995. The Zebrafish Book. University of Oregon Press, Eugene, OR.
19. Sieger, D., C. Stein, D. Neifer, A. M. van der Sar, and M. Leptin. 2009. The role of gamma interferon in innate immunity in the zebrafish embryo. Dis. Model Mech. 2: 571-581.
20. van der Sar, A. M., R. J. Musters, F. J. van Eeden, B. J. Appelmelk, C. M. Vandenbroucke-Grauls, andW. Bitter. 2003. Zebrafish embryos as a model host for the real time analysis of Salmonella typhimurium infections. Cell. Microbiol. 5: 601-611. (Pubitemid 37080671)
21. Montfort, A., B. de Badts, V. Douin-Echinard, P. G. Martin, J. Iacovoni, C. Nevoit, N. Therville, V. Garcia, M. A. Bertrand, M. H. Bessières, et al. 2009. FAN stimulates TNF(alpha)-induced gene expression, leukocyte recruitment, and humoral response. J. Immunol. 183: 5369-5378.
22. Cvejic, A., C. Hall, M. Bak-Maier, M. V. Flores, P. Crosier, M. J. Redd, and P. Martin. 2008. Analysis of WASp function during the wound inflammatory response: live-imaging studies in zebrafish larvae. J. Cell Sci. 121: 3196-3206.
23. Feng, Y., C. Santoriello, M. Mione, A. Hurlstone, and P. Martin. 2010. Live imaging of innate immune cell sensing of transformed cells in zebrafish larvae: parallels between tumor initiation and wound inflammation. PLoS Biol. 8:e1000562.
24. Zhang, Y., X. T. Bai, K. Y. Zhu, Y. Jin, M. Deng, H. Y. Le, Y. F. Fu, Y. Chen, J. Zhu, A. T. Look, et al. 2008. In vivo interstitial migration of primitive macrophages mediated by JNK-matrix metalloproteinase 13 signaling in response to acute injury. J. Immunol. 181: 2155-2164.
25. Sieger, D., C. Moritz, T. Ziegenhals, S. Prykhozhij, and F. Peri. Long range Ca2+ waves transmit brain damage signals to microglia. Dev. Cell
26. Niethammer, P., C. Grabher, A. T. Look, and T. J. Mitchison. 2009. A tissue-scale gradient of hydrogen peroxide mediates rapid wound detection in zebrafish. Nature 459: 996-999.
27. Torrente, Y., E. El Fahime, N. J. Caron, R. Del Bo, M. Belicchi, F. Pisati, J. P. Tremblay, and N. Bresolin. 2003. Tumor necrosis factor-alpha (TNF-alpha) stimulates chemotactic response in mouse myogenic cells. Cell Transplant. 12:91-100. (Pubitemid 36397320)
28. Mathias, J. R., B. J. Perrin, T. X. Liu, J. Kanki, A. T. Look, and A. Huttenlocher. 2006. Resolution of inflammation by retrograde chemotaxis of neutrophils in transgenic zebrafish. J. Leukoc. Biol. 80: 1281-1288. (Pubitemid 44904967)
29. Van Haastert, P. J. 2010. Chemotaxis: insights from the extending pseudopod. J. Cell Sci. 123: 3031-3037.
30. Bosgraaf, L., and P. J. Van Haastert. 2009a. Navigation of chemotactic cells by parallel signaling to pseudopod persistence and orientation. PLoS One 4: e6842.
31. Bosgraaf, L., and P. J. Van Haastert. 2009b. The ordered extension of pseudopodia by amoeboid cells in the absence of external cues. PLoS One 4: e5253.
32. Charest, P. G., and R. A. Firtel. 2007. Big roles for small GTPases in the control of directed cell movement. Biochem. J. 401: 377-390. (Pubitemid 46170322)
33. Adam, D., K. Wiegmann, S. Adam-Klages, A. Ruff, and M. Krönke. 1996. A novel cytoplasmic domain of the p55 tumor necrosis factor receptor initiates the neutral sphingomyelinase pathway. J. Biol. Chem. 271: 14617-14622. (Pubitemid 26190369)
34. Philipp, S., M. Puchert, S. Adam-Klages, V. Tchikov, S. Winoto-Morbach, S. Mathieu, A. Deerberg, L. Kolker, N. Marchesini, D. Kabelitz, et al. 2010. The Polycomb group protein EED couples TNF receptor 1 to neutral sphingomyelinase. Proc. Natl. Acad. Sci. USA 107: 1112-1117.