Free Access
Issue |
Vet. Res.
Volume 36, Number 4, July-August 2005
|
|
---|---|---|
Page(s) | 571 - 587 | |
DOI | https://doi.org/10.1051/vetres:2005019 | |
How to cite this article | Vet. Res. (2005) 571-587 |
References of Vet. Res. 36 571-587
- Andrew M.E., Morrissy C.J., Lenghaus C., Oke P.G., Sproat K.W., Hodgson A.L.M., Johnson M.A., Coupar B.E.H., Protection of pigs against classical swine fever with DNA-delivered gp55, Vaccine 18 (2000) 1932-1938 [CrossRef] [PubMed].
- Armengol E., Wiesmüller K.-H., Wienhold D., Büttner M., Pfaff E., Jung G., Saalmüller A., Identification of T-cell epitopes in the structural and non-structural proteins of classical swine fever virus, J. Gen. Virol. 83 (2002) 551-560 [PubMed].
- Banchereau J., Bazan F., Blanchard D., Briere F., Galizzi J.P., van Kooten C., Liu Y.J., Rousset F., Saeland S., The CD40 antigen and its ligand, Annu. Rev. Immunol. 12 (1994) 881-922 [CrossRef] [PubMed].
- Boretti F.S., Leutenegger C.M., Mislin C., Hofmann-Lehmann R., Konig S., Schroff M., Junghans C., Fehr D., Huettner S.W., Habel A., Flynn J.N., Aubert A., Pedersen N.C., Wittig B., Lutz H., Protection against FIV challenge infection by genetic vaccination using minimalistic DNA constructs for FIV env gene and feline IL-12 expression, AIDS 14 (2000) 1749-1757 [PubMed].
- Bouma A., De Smit A.J., De Kluijver E.P., Terpstra C., Moormann R.J., Efficacy and stability of a subunit vaccine based on glycoprotein E2 of classical swine fever virus, Vet. Microbiol. 66 (1999) 101-114 [CrossRef] [PubMed].
- Bouma A., De Smit A.J., De Jong M.C., De Kluijver E.P., Moormann R.J., Determination of the onset of the herd-immunity induced by the E2 sub-unit vaccine against classical swine fever virus, Vaccine 18 (2000) 1374-1381 [CrossRef] [PubMed].
- Cho D., Lee W.J., Halloran P.J., Trinchieri G., Kim Y.B., Enhancement of porcine natural killer cell activity by recombinant human and murine IL-12, Cell. Immunol. 172 (1996) 29-34 [CrossRef] [PubMed].
- Clarke S.R., The critical role of CD40/CD40L in the CD4-dependent generation of CD8+ T cell immunity, J. Leukoc. Biol. 67 (2000) 607-614 [PubMed].
- Dahle J., Liess B., A review on classical swine fever infections in pigs: epizootiology, clinical disease and pathology, Comp. Immunol. Microbiol. Infect. Dis. 15 (1992) 203-211 [PubMed].
- D'Andreas A., Rengaraju M., Valiante N.M., Chehimi J., Kubin M., Aste M., Chan S.H., Kobayashi M., Young D., Nickbarg E., Production of natural killer cell stimulatory factor (interleukin 12) by peripheral blood mononuclear cells, J. Exp. Med. 176 (1992) 1387-1398 [CrossRef] [PubMed].
- Devereux J., Haeberli P., Smithies O., A comprehensive set of sequence analysis programs for the VAX, Nucleic Acid Res. 12 (1984) 387-395.
- Dewulf J., Laevens H., Koenen F., Mintien K., de Kruif A., An E2 sub-unit marker vaccine does not prevent horizontal or vertical transmission of classical swine fever virus, Vaccine 20 (2001) 86-91 [CrossRef] [PubMed].
- Dong X.N., Wie K., Liu Z.Q., Chen Y.H., Candidate peptide vaccine induced protection against classical swine fever virus, Vaccine 21 (2002) 167-173 [CrossRef] [PubMed].
- Dupre L., Kremer L., Wolowczuk I., Riveau G., Capron A., Locht C., Immunostimulatory effect of IL-18-encoding plasmid in DNA vaccination against murine Schistosoma mansoni infection, Vaccine 19 (2001) 1373-1380 [CrossRef] [PubMed].
- Foss D.L., Murtaugh M.P., Molecular cloning and mRNA expression of porcine interleukin-12, Vet. Immunol. Immunopathol. 57 (1997) 121-134 [PubMed].
- Foy T.M., Aruffo A., Bajorath J., Buhlmann J.E., Noelle R.J., Immune regulation by CD40 and its ligand GP39, Annu. Rev. Immunol. 14 (1996) 591-617 [CrossRef] [PubMed].
- Hammond J.M., McCoy R.J., Jansen E.S., Morriss, C.J., Hodgson A.L., Johnson M.A., Vaccination with a single dose of a recombinant porcine adenovirus expressing the classical swine fever virus gp55 (E2) gene protects pigs against classical swine fever, Vaccine 18 (2000) 1040-1050 [CrossRef] [PubMed].
- Hammond J.M., Jansen E.S., Morrissy C.J., Goff V.W., Meehan C.G., Lenghaus W.C., Sproat K.W., Andrew M.E., Coupar B.E.H., Johnson M.A., A prime-boost vaccination strategy using naked DNA followed by recombinant porcine adenovirus protects pigs from classical swine fever, Vet. Microbiol. 80 (2001) 101-119 [CrossRef] [PubMed].
- Heufler C., Koch F., Stanzl U., Topar G., Wysocka M., Trinchieri G., Enk A., Steinman R.M., Romani N., Schuler G., Interleukin-12 is produced by dendritic cells and mediates T helper 1 development as well as interferon-gamma production by T helper 1 cells, Eur. J. Immunol. 26 (1996) 659-68 [PubMed].
- Ihata A., Watabe S., Sasaki S., Shirai A., Fukushima J., Hamajima K., Inoue J., Okuda K., Immunomodulatory effect of a plasmid expressing CD40 ligand on DNA vaccination against human immunodeficiency virus type-1, Immunology 98 (1999) 436-442 [CrossRef] [PubMed].
- Klinman D.M., Yi A.K., Beaucage S.L., Conover J., Krieg A.M., CpG motifs present in bacteria DNA rapidly induce lymphocytes to secrete interleukin 6, interleukin 12, and interferon gamma, Proc. Natl. Acad. Sci. USA 93 (1996) 2879-2883 [CrossRef] [PubMed].
- König M., Lengsfeld T., Pauly T., Stark R., Thiel H.J., Classical swine fever virus: independent induction of protective immunity by two structural glycoproteins, J. Virol. 69 (1995) 6479-6486 [PubMed].
- Kourilsky P., Truffa-Bachi P., Cytokine fields and the polarization of the immune response, Trends Immunol. 22 (2001) 502-509 [CrossRef] [PubMed].
- Manetti R., Parronchi P., Giudizi M.G., Piccinni M.P., Maggi E., Trinchieri G., Romagnani S., Natural killer cell stimulatory factor (interleukin 12 (IL-12)) induces T helper type 1 (Th1)-specific immune responses and inhibits the development of IL-4-producing Th cells, J. Exp. Med. 177 (1993) 1199-1204 [CrossRef] [PubMed].
- Matsui M., Moriya O., Akatsuka T., Enhanced induction of hepatitis C virus-specific cytotoxic T lymphocytes and protective efficacy in mice by DNA vaccination followed by adenovirus boosting in combination with the interleukin12 expression plasmid, Vaccine 21 (2003) 1629-1639 [CrossRef] [PubMed].
- Meyers G., Saalmüller A., Büttner M., Mutations abrogating the RNase activity in glycoprotein E(rns) of the pestivirus classical swine fever virus lead to virus attenuation, J. Virol. 73 (1999) 10224-10235 [PubMed].
- Mintiens K., Deluyker H., Laevens H., Koenen F., Dewulf J., De Kruif A., Descriptive epidemiology of a classical swine fever outbreak in the Limburg Province of Belgium in 1997, J. Vet. Med. B Infect. Dis. Vet. Public Health 48 (2001) 143-149 [PubMed].
- Muneta Y., Inumaru S., Shimoji Y., Mori Y., Efficient production of biologically active porcine interleukin-18 by coexpression with porcine caspase-1 using a baculovirus expression system, J. Interferon Zytokine Res. 21 (2001) 125-130.
- Nakanishi K., Yoshimoto T., Tsutsui H., Okamura H., Interleukin-18 regulates both Th1 and Th2 responses, Annu. Rev. Immunol. 19 (2001) 423-474 [CrossRef] [PubMed].
- Noelle R.J., Roy M., Sheoherd D.M., Stamenkovic I., Ledbetter J.A., Aruffo A., A 39-kDa protein on activated helper T cells binds CD40 and transduces the signal for cognate activation of B cells, Proc. Natl. Acad. Sci. USA 89 (1992) 6550-6554 [PubMed].
- Pauly T., Elbers K., König M., Lengsfeld T., Saalmüller A., Thiel H.J., Classical swine fever virus-specific cytotoxic T lymphocytes and identification of a T cell epitope, J. Gen. Virol. 76 (1995) 3039-3049 [PubMed].
- Peeters B., Bienkowska-Szewczyk K., Hulst M., Gielkens A., Kimman T., Biologically safe, non-transmissible pseudorabies virus vector vaccine protects pigs against both Aujeszky's disease and classical swine fever, J. Gen. Virol. 78 (1997) 3311-3315 [PubMed].
- Rümenapf T., Stark R., Meyers G., Thiel H.J., Structural proteins of hog cholera virus expressed by vaccinia virus: further characterization and induction of protective immunity, J. Virol. 65 (1991) 589-597 [PubMed].
- Saalmüller A., Jonjic S., Bühring H.-J., Reddehase M.J., Koszinowski U.H., Monoclonal antibodies reactive with swine lymphocytes. II. Detection of an antigen on resting T cells down-regulated after activation, J. Immunol. 138 (1987) 1852-1857 [PubMed].
- Saalmüller A., Reddehase M.J., Bühring H.J., Jonjic S., Koszinowski U.H., Simultaneous expression of CD4 and CD8 antigens by a substantial proportion of resting porcine T lymphocytes, Eur. J. Immunol. 17 (1987) 1297-1301 [PubMed].
- Saalmüller A., Hirt W., Maurer S., Weiland E., Discrimination between two subsets of porcine CD8+ cytolytic T lymphocytes by the expression of CD5 antigen, Immunology 81 (1994) 578-583 [PubMed].
- Schirmbeck R., Reimann J., Modulation of Gene-Gun-Mediated Th2 Immunity to Hepatitis B Surface Antigen by Bacterial CpG Motifs or IL-12, Intervirology 44 (2001) 115-123 [CrossRef] [PubMed].
- Shan M., Liu K., Fang H., DNA vaccination of the induction of immune responses by codelivery of IL-12 expression vector with hepatitis C structural antigens, Zhonghua Gan Zang Bing Za Zhi 7 (1999) 236-239 [PubMed].
- Susa M., König M., Saalmüller A., Reddehase M.J., Thiel H.J., Pathogenesis of classical swine fever: B-lymphocyte deficiency caused by hog cholera virus, J. Virol. 66 (1992) 1171-1175 [PubMed].
- Temperton N.J., Quenelle D.C., Lawson K.M., Zuckerman J.N., Kern E.R., Griffiths P.D., Emery V.C., Enhancement of humoral immune responses to a human cytomegalovirus DNA vaccine: adjuvant effects of aluminum phosphate and CpG oligodeoxynucleotides, J. Med. Virol. 70 (2003) 86-90 [CrossRef] [PubMed].
- Terpstra C., Bloemraad M., Gielkens A.L., The neutralizing peroxidase-linked assay for detection of antibody against swine fever virus, Vet. Microbiol. 9 (1984) 113-120 [CrossRef] [PubMed].
- Terpstra C., Wensvoort G., The protective value of vaccine-induced neutralizing antibody titers in swine fever, Vet. Microbiol. 16 (1988) 123-128 [CrossRef] [PubMed].
- Triccas J.A., Sun L., Palendira U., Britton W.J., Comparative affects of plasmid-encoded interleukin 12 and interleukin 18 on the protective efficacy of DNA vaccination against Mycobacterium tuberculosis, Immunol. Cell Biol. 80 (2002) 346-350 [CrossRef] [PubMed].
- Van Rijn P.A., Bossers A., Wensvoort G., Moormann R.J.M., Classical swine fever virus (CSFV) envelope glycoprotein E2 containing one structural antigenic unit protects pigs from lethal CSFV challenge, J. Gen. Virol. 77 (1996) 2737-2745 [PubMed].
- Van Rijn P.A., van Gennip H.G.P., Moormann R.J.M., An experimental marker vaccine and accompanying serological diagnostic test both based on envelope glycoprotein E2 of classical swine fever virus (CSFV), Vaccine 17 (1999) 433-440 [CrossRef] [PubMed].
- Weiland E., Stark R., Haas B., Rümenapf T., Meyers G., Thiel H.J., Pestivirus glycoprotein which induces neutralizing antibodies forms part of a disulfide-linked heterodimer, J. Virol. 64 (1990) 3563-3569 [PubMed].
- Wensvoort G., Bloemraad M., Terpstra C., An enzyme immunoassay employing monoclonal antibodies and detecting specifically antibodies to classical swine fever virus, Vet. Microbiol. 17 (1988) 129-140 [CrossRef] [PubMed].
- Wienhold D., Berger N., Armengol E., Buttner M., Saalmuller A., Pfaff E., Cloning, sequencing and expression of porcine CD40 ligand in Escherichia coli and human and porcine cells, Cytokine 20 (2002) 274-282 [CrossRef] [PubMed].
- Wu C.Y., Demeure C., Kiniwa M., Gately M., Delespesse G., IL-12 induces the production of IFN-gamma by neonatal human CD4 T cells, J. Immunol. 151 (1993) 1938-1949 [PubMed].
- Yoshimoto T., Tsutsui H., Tominaga K., Hoshino K., Okamura H., Akira S., Paul W.E., Nakanishi K., IL-18, although antiallergic when administered with IL-12, stimulates IL-4 and histamine release by basophils, Proc. Natl. Acad. Sci. USA 96 (1999) 13962-13966 [CrossRef] [PubMed].
- Yoshimoto T., Mizutani H., Tsutsui H., Noben-Trauth N., Yamanaka K., Tanaka M., Izumi S., Okamura H., Paul W.E., Nakanishi K., IL-18 induction of IgE: dependence on CD4+ T cells, IL-4 and STAT6, Nat. Immunol. 1 (2000) 132-137 [CrossRef] [PubMed].
- Zuckermann F.A., Husmann R.J., Schwartz R., Brandt J., Mateu de Antonio E., Martin S., Interleukin-12 enhances the virus-specific interferon gamma response of pigs to an inactivated pseudorabies virus vaccine, Vet. Immunol. Immunopathol. 63 (1998) 57-67 [PubMed].