| Citation: |
XIE Hai-Xia, NIE Pin, WANG Gui-Tang. GENETIC VACCINES FOR PREVENTION OF FISH DISEASES:PERSPECTIVES AND PROSPECTS[J]. ACTA HYDROBIOLOGICA SINICA, 2004, 28(1): 90-95.
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Leong J C, Fryer J L. Viral vaccines for aquaculture [J]. Ann Rev Fish Dis,1993,3:225-240[2] Press C M,Lillehaug A. Vaccination in European salmonid aquaculture:a review of practices and prospects [J].Br Vet J,1995, 151:45-69[3] Leong J C, Johnson M, Jordan D, et al.Genetic vaccination of rainbow trout [A].8th international symposium of society of Chinese bioscientists in America [C],HongKong.1999[4] Fernandez-Alonso M,Rocha A, Coll J M, DNA vaccination by immersion and ultrasound to trout viral haemorrhagic septicaemia virus[J].Vaccine, 2001, 19:3067-3075[5] Anderson E D, Mourich C V, Fahrenkrug S C, et al. Genetic immunization of rainbow trout (Oncorhynchus mykiss) against infectious hematopoietic necrosis virus[J]. Mol Mar Biol Biotech,1996,5:114-122[6] Donnelly J J, Ulmer J B, Shiver J W, et al.DNA vaccines [J].Ann Rev Immunol,1997, 15:617-648[7] Iwama G, Nakanishi T. The fish immune system:organism, pathogen, and environment [M],San Diego: Academic Press. 1996, 105-157[8] Jφrgensen J B, Johansen A, Stenersen B, et al. CpG oligodeoxynucleotides and plasmid DNA stimulate Atlantic salmon(Salmo salar L.) leucocytes to produce supernants with antiviral activity [J]. Dev Comp Immunol, 2001, 25:313-321[9] Heppell J, Davis H L. Application of DNA vaccine technology to aquaculture [J]. Adv Drug Deliver Rev, 2000,43:29-43[10] Davis H L, Millan C B, Watkins S C. Immune-mediated destruction of transfected muscle fiber after direct gene transfer with antigen-expressing plasmid DNA [J]. Gene Ther, 1997,4:181-188[11] Heppell J, Lorenzen N, Armstrong N K, et al. Development of DNA vaccines for fish:vector design, intramuscular injection and antigen expression using viral haemorrhagic septicaemia virus genes as model[J]. Fish Shellfish Immunol, 1998,8:271-286[12] Quill H, Schwardt R H. Stimulation of normal inducer T cell clones with antigen presented by purified Ia molecules in planar lipid membranes:specific induction of a long-lived state of proliferative nonresponsiveness [J]. J Immunol, 1987,138:3704-3712[13] Cava A L. Billetta R, Gaietta G, et al. Cell-mediatde DNA transport between distant inflammatory sites following intradermal DNA immunization in the presence of adjuvant [J]. J Immunol, 2000, 164:1340-1345[14] Lorenzen E, Einer-Jensen K, Martinussen T, et al. DNA vaccination of rainbow trout against viral hemorrhagic septicemia virus:a dose-response and time-course study [J].J Aquat Anim Health, 2000,12:167-180[15] Lorenzen N, Lorenzen E, Einer-Jensen K, et al. Immunity induced shortly after DNA vaccination of rainbow trout against rhabdoviruses protects against heterologous virus but not against bacterial pathogens[J]. Dev Comp Immunol,2002,26:173-179[16] Barry M A, Lai W C, Johnston S A. Protection against mycoplasma infection using expression-library immunization[J].Nature, 1995, 377:632-635[17] Alberti E, Acosta A, Sarmiento M E, et al. Specific cellular and humoral immune responses in BALB/C mice immunized with an expression genomic library of Trypanosoma cruzi[J]. Vaccine,1998,16:608-612[18] Piedrafita D, Xu D, Hunter D, et al. Protective immune responses induced by vaccination with an expression genomic library of Leishmania major [J].J Immunol,1999,163:1467-1472[19] Melby P C, Ogden G B, Flores H A, et al. Identification of vaccine candidates for experimental visceral leishmaniasis by immunization with sequential fractions of a cDNA expression library [J]. Infect Immunol, 2000, 68:5595-5602[20] Moore R J, Lenghaus C, sheedy S A, et al. Improved vectors for expression library immunization-application to Mycoplasma hyopneumoniae infection in pigs [J]. Vaccine, 2002,20:115-120[21] Kanellos T, Sylvester I D, Butler V L, et al.Mammalian granulocyte-macrophage colony-stimulating factor and some CpG motifs have an effect on the immunogenicity of DNA and subunit vaccines in fish [J],Immunolology, 1999,96:507-510[22] Auderson E D, Mourich D V, Leong J C. Gene expression in rainbow trout (Oncorhynchus mykiss) following intramuscular injection of DNA[J].Mol Mar Biol Biotechnol,1996,5:105-113[23] Gómez-Chiarri M,Chiaverini L A .Evaluation of eukaryotic promoters for the construction of DNA vaccines for aquaculture [J]. Genet Anal-Biomol E, 1999,15:121-124[24] Schulte P M, Gómez-Chiarri M, Powers D A et al. Structural and functional differences in the promoter and 5′ flanking region of LDH-B within and between populations of the teleost Fundulus heteroclitus[J].Genetics,1997 , 145:759-769[25] Gómez-Chiarri M,Livingston S K,Muro-Cacho C, et al. Introduction of foreign genes into the tissue of live fish by direct injection and particle bombardment [J]. Dis Aquat Org, 1996, 27:5-12[26] Tucker C, Endo M, Hirono I, et al. Assessment of DNA vaccine potential for juvenile Jananese flounder Paralichthys olivaceus,through the introduction of reporter genes by particle bombardment and histopathology [J].Vaccine,2000, 19:801-809[27] Hansen E,Fernandes K, Goldspink G et al. Strong expression of foreign genes following direct injection into fish muscle [J].FEBS Lett, 1991,290:73-76[28] Gentschev I,Dietrich G, Spreng S, et al.Recombinant attenuated bacteria for the delivery of subunit vaccines [J]. Vaccine, 2001,19: 2621-2628[29] Matsunaga T,Rahman A. In search of the origin of the thymus:the thymus and GALT may be evolutionarily relatde [J].Scand J Immunol,2001,53:1-6[30] Manning M J.,Tatner M F. Fish Immunology [M], London:Academic Press.1985,285-292[31] Fichtelius K E, Finstad J,Good R A. Bursa equivalent of bursaless vertebrates [J].Lab Invest, 1968,19:339-351[32] Romano N, Taverne-Thiele A J,Fanelli M,et al. Ontogeny of the thymus in a teleost fish, Cyprinus carpio L:developing thymocytes in the epithelial microenvironment [J].Dev Comp Immunol,1999,23:123-137[33] Manoutcharian K, Terrazas L I,Gevorkian G,et al.DNA pulsed macrophage-mediated cDNA expression library immunization in vaccine evelopment[J].Vaccine,2000,18:389-391[34] Manickan E,Kanangat S,Rouse R J D,et al.Enhancemnet of immune response to naked DNA vaccine by immunization with transfected dendritic cells [J].J,Leuk Biol,1997,61:125-132[35] Maloy K J,Erdmann,I,Basch V, et al.Intralymphatic immunization enhances DNA vaccination [J].Proc Natl Acad Sci USA,2001,98:3203-3299[36] Jansson E, Ljungberg O.Detection of humoral antibodies to Renibacterium salmoninarum in rainbow trout Oncorhynchus mykiss and Atlantic salmon Salmo salar challenged by immersion and in naturally infected populations [J].Dis Aquat Org, 1998, 33:93-99[37] Roman M,Elena M O,Goodman J S, et al.Immunostimulatory DNA sequences function as T helper-1-promoting adjuvants [J]. Nature Med,1997, 3:849-854[38] Singh M,Briones M, Ott G,et al. Cationic microparticles: a potent delivery system for DNA vaccines [J]. Proc Natl Acad Sci USA, 2000,97:811-816[39] Walter E, Moelling K, Pavlovic J, et al. Microencapsulation of DNA using poly (DL-lactide-co-glycolide): stability issues and release characteristics [J]. J Control Release, 1999,61:361-374[40] Lillehaug A, Sevatdal S, Endal T. Passive transfer of specific maternal immunity does not protect Atlantic salmon(Salmo salar L.)fry against yersiniosis [J]. Fish Shellfish Immunol, 1996,6:521-535[41] Awad M A, Nusbaum K E, Brady Y J.Preliminary studies of a newly developed subunit vaccine for channel catfish virus disease [J]. J Aquat Anim Health,1989,1: 233-237[42] Bot A, Bot S, Garcia-Sastre A, et al. DNA immunization of newborn mice with a plasmid expressing nucleoprotein of influenza virus [J].Viral Immunol, 1996,9:207-210[43] Kanellos T,Sylvester I D,Ambali A G,et al. The safety and longevity of DNA vaccines for fish [J].Immunolology, 1999,96:307-313[44] Nichols W W, Ledwith B J,Manam S V, et al.Potential DNA vaccine integration into host cell genome [J].Ann N Y Acad Sci, 1995, 772:30-39[45] Kanellos T,Sylvester I D, Howard C R, et al. DNA is as effective as protein at inducing antibody in fish [J]. Vaccine, 1999,17:965-972[46] Shamsudin, M. N. Pathogenesis of flexibacter columnaris and immunity in the channel catfish [D].Alabama: Auburn University. 1994[47] Woo, P.T.K.,Bruno,D.W.Fish disease and disorders volume 3 viral, bacterial and fungal infections [M],New York:CAB publishing, 1999,559-576[48] Sun B J,Nie P.The outer membrane protein and lipopolysaccharide of Cytophaga columnaris and their immunogenicity to mandarin fish Siniperca Chuatsi [J]. Acta Hydrobiologica Sinica, 2001,(5):524-527.[孙宝剑,聂品.柱状嗜纤维菌的外膜蛋白和脂多糖及其对鳜鱼的免疫原性[J].水生生物学报,2001,(5):524-527][49] Anderson,J I W,Conroy,D.A.The pathogenic myxobacteria with special reference to fish disease[J].J.Appl.Bacteriol,1969.32:30-39.Ctenocpharyngodon idellus[50] Fujihara, M P, Nakatani.R E Antibody production and immune responses of rainbow trout and coho salmon to Chondrococcus columnaris [J].J.Fish.Res Bd,Can,1971,28:1253-1258
Leong J C, Fryer J L. Viral vaccines for aquaculture [J]. Ann Rev Fish Dis,1993,3:225-240[2] Press C M,Lillehaug A. Vaccination in European salmonid aquaculture:a review of practices and prospects [J].Br Vet J,1995, 151:45-69[3] Leong J C, Johnson M, Jordan D, et al.Genetic vaccination of rainbow trout [A].8th international symposium of society of Chinese bioscientists in America [C],HongKong.1999[4] Fernandez-Alonso M,Rocha A, Coll J M, DNA vaccination by immersion and ultrasound to trout viral haemorrhagic septicaemia virus[J].Vaccine, 2001, 19:3067-3075[5] Anderson E D, Mourich C V, Fahrenkrug S C, et al. Genetic immunization of rainbow trout (Oncorhynchus mykiss) against infectious hematopoietic necrosis virus[J]. Mol Mar Biol Biotech,1996,5:114-122[6] Donnelly J J, Ulmer J B, Shiver J W, et al.DNA vaccines [J].Ann Rev Immunol,1997, 15:617-648[7] Iwama G, Nakanishi T. The fish immune system:organism, pathogen, and environment [M],San Diego: Academic Press. 1996, 105-157[8] Jφrgensen J B, Johansen A, Stenersen B, et al. CpG oligodeoxynucleotides and plasmid DNA stimulate Atlantic salmon(Salmo salar L.) leucocytes to produce supernants with antiviral activity [J]. Dev Comp Immunol, 2001, 25:313-321[9] Heppell J, Davis H L. Application of DNA vaccine technology to aquaculture [J]. Adv Drug Deliver Rev, 2000,43:29-43[10] Davis H L, Millan C B, Watkins S C. Immune-mediated destruction of transfected muscle fiber after direct gene transfer with antigen-expressing plasmid DNA [J]. Gene Ther, 1997,4:181-188[11] Heppell J, Lorenzen N, Armstrong N K, et al. Development of DNA vaccines for fish:vector design, intramuscular injection and antigen expression using viral haemorrhagic septicaemia virus genes as model[J]. Fish Shellfish Immunol, 1998,8:271-286[12] Quill H, Schwardt R H. Stimulation of normal inducer T cell clones with antigen presented by purified Ia molecules in planar lipid membranes:specific induction of a long-lived state of proliferative nonresponsiveness [J]. J Immunol, 1987,138:3704-3712[13] Cava A L. Billetta R, Gaietta G, et al. Cell-mediatde DNA transport between distant inflammatory sites following intradermal DNA immunization in the presence of adjuvant [J]. J Immunol, 2000, 164:1340-1345[14] Lorenzen E, Einer-Jensen K, Martinussen T, et al. DNA vaccination of rainbow trout against viral hemorrhagic septicemia virus:a dose-response and time-course study [J].J Aquat Anim Health, 2000,12:167-180[15] Lorenzen N, Lorenzen E, Einer-Jensen K, et al. Immunity induced shortly after DNA vaccination of rainbow trout against rhabdoviruses protects against heterologous virus but not against bacterial pathogens[J]. Dev Comp Immunol,2002,26:173-179[16] Barry M A, Lai W C, Johnston S A. Protection against mycoplasma infection using expression-library immunization[J].Nature, 1995, 377:632-635[17] Alberti E, Acosta A, Sarmiento M E, et al. Specific cellular and humoral immune responses in BALB/C mice immunized with an expression genomic library of Trypanosoma cruzi[J]. Vaccine,1998,16:608-612[18] Piedrafita D, Xu D, Hunter D, et al. Protective immune responses induced by vaccination with an expression genomic library of Leishmania major [J].J Immunol,1999,163:1467-1472[19] Melby P C, Ogden G B, Flores H A, et al. Identification of vaccine candidates for experimental visceral leishmaniasis by immunization with sequential fractions of a cDNA expression library [J]. Infect Immunol, 2000, 68:5595-5602[20] Moore R J, Lenghaus C, sheedy S A, et al. Improved vectors for expression library immunization-application to Mycoplasma hyopneumoniae infection in pigs [J]. Vaccine, 2002,20:115-120[21] Kanellos T, Sylvester I D, Butler V L, et al.Mammalian granulocyte-macrophage colony-stimulating factor and some CpG motifs have an effect on the immunogenicity of DNA and subunit vaccines in fish [J],Immunolology, 1999,96:507-510[22] Auderson E D, Mourich D V, Leong J C. Gene expression in rainbow trout (Oncorhynchus mykiss) following intramuscular injection of DNA[J].Mol Mar Biol Biotechnol,1996,5:105-113[23] Gómez-Chiarri M,Chiaverini L A .Evaluation of eukaryotic promoters for the construction of DNA vaccines for aquaculture [J]. Genet Anal-Biomol E, 1999,15:121-124[24] Schulte P M, Gómez-Chiarri M, Powers D A et al. Structural and functional differences in the promoter and 5′ flanking region of LDH-B within and between populations of the teleost Fundulus heteroclitus[J].Genetics,1997 , 145:759-769[25] Gómez-Chiarri M,Livingston S K,Muro-Cacho C, et al. Introduction of foreign genes into the tissue of live fish by direct injection and particle bombardment [J]. Dis Aquat Org, 1996, 27:5-12[26] Tucker C, Endo M, Hirono I, et al. Assessment of DNA vaccine potential for juvenile Jananese flounder Paralichthys olivaceus,through the introduction of reporter genes by particle bombardment and histopathology [J].Vaccine,2000, 19:801-809[27] Hansen E,Fernandes K, Goldspink G et al. Strong expression of foreign genes following direct injection into fish muscle [J].FEBS Lett, 1991,290:73-76[28] Gentschev I,Dietrich G, Spreng S, et al.Recombinant attenuated bacteria for the delivery of subunit vaccines [J]. Vaccine, 2001,19: 2621-2628[29] Matsunaga T,Rahman A. In search of the origin of the thymus:the thymus and GALT may be evolutionarily relatde [J].Scand J Immunol,2001,53:1-6[30] Manning M J.,Tatner M F. Fish Immunology [M], London:Academic Press.1985,285-292[31] Fichtelius K E, Finstad J,Good R A. Bursa equivalent of bursaless vertebrates [J].Lab Invest, 1968,19:339-351[32] Romano N, Taverne-Thiele A J,Fanelli M,et al. Ontogeny of the thymus in a teleost fish, Cyprinus carpio L:developing thymocytes in the epithelial microenvironment [J].Dev Comp Immunol,1999,23:123-137[33] Manoutcharian K, Terrazas L I,Gevorkian G,et al.DNA pulsed macrophage-mediated cDNA expression library immunization in vaccine evelopment[J].Vaccine,2000,18:389-391[34] Manickan E,Kanangat S,Rouse R J D,et al.Enhancemnet of immune response to naked DNA vaccine by immunization with transfected dendritic cells [J].J,Leuk Biol,1997,61:125-132[35] Maloy K J,Erdmann,I,Basch V, et al.Intralymphatic immunization enhances DNA vaccination [J].Proc Natl Acad Sci USA,2001,98:3203-3299[36] Jansson E, Ljungberg O.Detection of humoral antibodies to Renibacterium salmoninarum in rainbow trout Oncorhynchus mykiss and Atlantic salmon Salmo salar challenged by immersion and in naturally infected populations [J].Dis Aquat Org, 1998, 33:93-99[37] Roman M,Elena M O,Goodman J S, et al.Immunostimulatory DNA sequences function as T helper-1-promoting adjuvants [J]. Nature Med,1997, 3:849-854[38] Singh M,Briones M, Ott G,et al. Cationic microparticles: a potent delivery system for DNA vaccines [J]. Proc Natl Acad Sci USA, 2000,97:811-816[39] Walter E, Moelling K, Pavlovic J, et al. Microencapsulation of DNA using poly (DL-lactide-co-glycolide): stability issues and release characteristics [J]. J Control Release, 1999,61:361-374[40] Lillehaug A, Sevatdal S, Endal T. Passive transfer of specific maternal immunity does not protect Atlantic salmon(Salmo salar L.)fry against yersiniosis [J]. Fish Shellfish Immunol, 1996,6:521-535[41] Awad M A, Nusbaum K E, Brady Y J.Preliminary studies of a newly developed subunit vaccine for channel catfish virus disease [J]. J Aquat Anim Health,1989,1: 233-237[42] Bot A, Bot S, Garcia-Sastre A, et al. DNA immunization of newborn mice with a plasmid expressing nucleoprotein of influenza virus [J].Viral Immunol, 1996,9:207-210[43] Kanellos T,Sylvester I D,Ambali A G,et al. The safety and longevity of DNA vaccines for fish [J].Immunolology, 1999,96:307-313[44] Nichols W W, Ledwith B J,Manam S V, et al.Potential DNA vaccine integration into host cell genome [J].Ann N Y Acad Sci, 1995, 772:30-39[45] Kanellos T,Sylvester I D, Howard C R, et al. DNA is as effective as protein at inducing antibody in fish [J]. Vaccine, 1999,17:965-972[46] Shamsudin, M. N. Pathogenesis of flexibacter columnaris and immunity in the channel catfish [D].Alabama: Auburn University. 1994[47] Woo, P.T.K.,Bruno,D.W.Fish disease and disorders volume 3 viral, bacterial and fungal infections [M],New York:CAB publishing, 1999,559-576[48] Sun B J,Nie P.The outer membrane protein and lipopolysaccharide of Cytophaga columnaris and their immunogenicity to mandarin fish Siniperca Chuatsi [J]. Acta Hydrobiologica Sinica, 2001,(5):524-527.[孙宝剑,聂品.柱状嗜纤维菌的外膜蛋白和脂多糖及其对鳜鱼的免疫原性[J].水生生物学报,2001,(5):524-527][49] Anderson,J I W,Conroy,D.A.The pathogenic myxobacteria with special reference to fish disease[J].J.Appl.Bacteriol,1969.32:30-39.Ctenocpharyngodon idellus[50] Fujihara, M P, Nakatani.R E Antibody production and immune responses of rainbow trout and coho salmon to Chondrococcus columnaris [J].J.Fish.Res Bd,Can,1971,28:1253-1258
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