REFERENCES
- Finlay B.B., Falkow S. Common themes in microbial pathogenicity. Microbiol. Rev. 1989; 53(2)210–230
- Scapigliati G., Romano N., Abelli L., Meloni S., Ficca A.G., Buonocore F., Bird S., Secombes C.J. Immunopurification of T-cells from sea bass Dicentrarchus Labrax(L.). Fish Shellfish Immunol. 2000; 10(1)329–341
- Partula S., Fellah J.S., de Guerra A., Charlemagne J. Characterization of cDNA of T-cell receptor beta chain in rainbow trout. C.R. Acad. Sci. III. 1994; 317(8)765–770
- Partula S., Fellah J.S., de Guerra A., Charlemagne J. Structure and diversity of the T-cell antigen receptor β-chain in the teleost fish. J. Immunol. 1995; 155(2)699–706
- Partula S., Fellah J.S., de Guerra A., Charlemagne J. Identification and analysis of genes encoding TcRα chains in the rainbow trout. The Nordic Symposium on Fish Immunology, Reykjavik, Iceland 1995; 53
- Graham S., Secombes C.J. The production of a macrophage-activating factor for rainbow trout, Salmo Gairdneri, leucocytes. Immunology 1988; 65(2)293–297
- Cooper M.D. The evolution of adaptive immune systems. Cell 2006; 124(4)815–822
- Graham S., Secombes C.J. Do fish lymphocytes secrete interferon γ?. J. Fish Biol. 1990; 36(4)563–573
- Hardie L.J., Chappell L.H., Secombes C.J. Human tumor necrosis factor α influences rainbow trout, Onchorhynchus mykiss, leukocyte responses. Vet. Immunol. Immunopathol. 1994; 40(1)73–84
- Offit P.A., Dudzik K.I. Rotavirus-specific cytotoxicT lymphocytes appear at the intestinal mucosal surface after rotavirus infection. J. Virol. 1989; 63(8)3507–3512
- Olsson J.C., Westerdahl A., Conway P.L., Kjelleberg S. Intestinal colonization potential of turbot (Scophthalalmus maximus)- and Dab (Limanda limanda)- associated bacteria with inhibitory effects against Vibrio anguillarum. Appl. Environ. Microbiol. 1992; 58(2)551–556
- Ormonde P., Hőrstedt P., O'Toole R., Milton D.L. Role of motility in adherence to and invasion of a fish cell line by Vibrio anguillarum. J. Bacteriol. 2000; 182(8)2326–2328
- Finlay B.B., Falkow S. Common themes in microbial pathogenicity. Microbiol. Rev. 1989; 53(2)210–230
- Kunisawa J., Kiyono H. A marvel of mucosal T cells and secretory antibodies for the creation of first lines of defense. Cell Mol. Life Sci. 2005; 62(12)1308–1321
- O'Hagan D.T. Oral delivery of vaccines: formulation and clinical pharmacokinetic considerations. Clin. Pharmacokin. 1992; 22(1)1–10
- Rombout J.H.W.M., van de Berg A.A. Immunological importance of the second gut segment of carp. I. Uptake and processing of antigens by epithelial cells and macrophages. J. Fish Biol. 1989; 35(1)13–18
- Guy-Grande D., Griscelli C., Vassalli P. The mouse gut T lymphocyte. A novel type of T cell: nature, origin and traffic in mice in normal and graft-versus-host conditions. J. Exp. Med. 1978; 148(6)1661–1677
- Nelson McMillan D., Secombes C. Isolation of rainbow trout (Oncorhynchus Mykiss) intestinal intraepithelial lymphocytes (IEL) and measurement of the cytotoxic activity. Fish Shellfish Immunol. 1997; 7(8)527–541
- Rombout J. H., Taverne-Thiele A.J., Villena M.I. The gut-associated lymphoid tissue (GALT) of carp (Cyprinus carpio L.): an immunocytochemical analysis. Dev. Comp. Immunol. 1993; 17(1)55–66
- Picchietti S., Terribili F.R, Mastrolia L., Scapigliati G., Abelli L. Expression of lymphocyte antigenic determinant in developing gut-associated lymphoid tissue of the sea bass Dicentrarchus labrax. Anat. Embryol. 1997; 196(6)457–463
- Bernard D., Six A., Rigottier-Gois L., Messiaen S., Chilmonczyk S., Quillet E., Boudinot P., Benmansour A. Phenotypic and fuctional similarity of gut intraepithelial and systemic T cells in a teleost fish. J. Immunol. 2006; 176(7)3942–3949
- Passantino L., Altamura M., Cianciotta A., Patruno R., Tafaro A., Jirillo E., Passantino G.F. Fish Immunology. I. Binding and engulfment of Candida albicansby erythrocytes of rainbow trout (Salmo gairdneriRichardson). Immunopharmacol. Immunotoxicol. 2002; 24(4)665–678
- Passantino L., Tafaro A., Altamura M., Arena R., Passantino G.F., Jirillo E. Fish Immunology. II. Morphological and cytochemical characterization and phagocytic activities of head kidney macrophages from rainbow trout (Salmo gairdneriRichardson). Immunopharmacol. Immunotoxicol. 2002; 24(4)679–691
- Passantino L., Altamura M., Cianciotta A., Jirillo F., Ribaud M.R., Jirillo E., Passantino G.F. Maturation of fish erythrocytes coincides with changes in their morphology, enhanced ability to interact with Candida albicansand release of cytokine-like factors active upon autologous macrophages. Immunopharmacol. Immunotoxicol. 2004; 26(3)573–585
- Keen J.E., Calarco Steele A.M., Houston A.H. The circulating erythrocytes of rainbow trout (Salmo gairdneri). Comp. Biochem. Physiol. 1989; 94(4)699–711
- Song Y.L., Lin T., Kou G.H. Cell-mediated immunity of eel, Anguilla japonica(Temminck & Schlegel), as measured by the migration inhibition test. J. Fish Dis. 1989; 12(2)117–123
- Powell D.B. Immune System. The Laboratory Fish, G.K. Ostrander. Academic Press, San Diego 2000; 221–222
- Rombout J.H., Joosten P.H.M., Engelsma M.Y., Vos A.P., Taverne N., Taverne-Thiele J.J. Indications for a distinct putative T cell population in mucosal tissue of carp (Cyprinus carpio L.). Dev. Comp. Immunol. 1998; 22(1)63–77
- Quentel C., Vigneulle M. Antigen uptake and immune responses after oral vaccination. Dev. Biol. Stand. 1997; 90: 69–78, review.
- Huttenhuis H.B., Ribeiro A.S., Bowden T.J., Van Bavel C., Taverne-Thiele A.J., Rombout J.H. The effect of oral immuno-stimulation in juvenile carp (Cyprinus carpio L.). Fish Shellfish Immunol. 2006; 21(3)261–271
- Rombout J.H., Lamers C.J., Helfrich M.H., Decker H., Taverne-Thiele J.J. Uptake and transport of intact macromolecules in the intestinal epithelium of carp (Cyprinus carpio L.) and the possible immunological implications. Cell Tiss. Res. 1985; 239(3)519–530
- Hart S., Wrathmell A.B., Harris J.E., Grayson T.H. Gut immunology in fish: a review. Dev. Comp. Immunol. 1998; 12(3)453–480
- Bernhagen J., Calandra T., Mitchell R.A., Martin S.B., Tracey K.J., Voelter W., Manogue K.R., Cerami A., Bucala R. MIF is a pituitary-derived cytokine that potentiates lethal endotoxaemia. Nature 1993; 365(6448)756–759
- Bozza F.T., Gomes R.N., Japiassu A.M., Soares M., Castro-Faria-Neto H.C., Bozza P.T., Bozza M.T. Macrophage migration inhibitory factor levels correlate with fatal outcome in sepsis. Shock 2004; 22(4)309–313
- Mikulowska A., Metz C.N., Bucala R., Holmdahl R. Macrophage migration inhibitory factor is involved in the pathogenesis of collagen type II-induced arthritis in mice. J. Immunol. 1997; 158(11)5514–5517
- Lan H.Y., Bacher M., Yang N., Mu W., Nikolic-Paterson D.J., Metz C., Meinhardt A., Bucala R., Atkins R.C. The pathogenic role of macrophage migration inhibitory factor in immunologically induced kidney disease in the rat. J. Exp. Med. 1997; 185(8)1455–1465
- Hudson J.D., Shoaibi M.A., Maestro R., Carnero A., Hannon G.J., Beach D.H. A proinflammatory cytokine inhibits p53 tumor suppressor activity. J. Exp. Med. 1999; 190(10)1367–1370
- Zou J., Carrington A., Collet B., Dijkstra J.M., Yoshiura Y., Bols N., Secombes C. Identification and bioactivities of IFN-gamma in rainbow trout Oncorhynchus mykiss: the first Th1-type cytokine characterized functionally in fish. J. Immunol. 2005; 175(4)2484–2494
- El-Etr S.H., Yan L., Cirillo J.D. Fish monocytes as a model for mycobacterial host-pathogen interactions. Infect. Immun. 2001; 69(12)7310–7317
- Mycobacterium marinum persists in cultured mammalian cells in a temperature-restricted fashion. Infect. Immun. 1994; 62(8)3222–3229
- Ramakrishnan L., Falkow S., Trucksis M. Fishing for mycobacterial virulence genes: a promising animal model. ASM News 2000; 66: 668–671
- Bouley D.M., Ghori N., Mercer K.L., Falkow S., Ramakrishnan L. Dynamic nature of host-pathogen interactions in Mycobacterium marinum granulomas. Infect. Immun. 2001; 69(12)7820–7831