The effects of sublethal levels of nuracron,dimethylphosphate-3-hydroxy-N-methyl-cis-crotonamide(0,0.625× 10-6,1.25×10-6,2.5×10-6,5.0×10-6 and 10.0×10-6) on biochemical changes(aspartate trans...The effects of sublethal levels of nuracron,dimethylphosphate-3-hydroxy-N-methyl-cis-crotonamide(0,0.625× 10-6,1.25×10-6,2.5×10-6,5.0×10-6 and 10.0×10-6) on biochemical changes(aspartate transaminase,AST,E.C.2.6.1.1;alanine transaminase,ALT;2.6.2.2;alkaline phosphatase,ALP,EC 3.1.3.1) in the organs(kidney,liver,gill) and muscle tissues of hybrid catfi sh Heterobranchus bidorsalis,♂× Clarias gariepinus,♀ [mean weight,(277.76±53.11) g SD;mean total length,(35.69±2.80) cm,SD] were studied after a 23 d exposure in a renewal bioassay under laboratory conditions.Generally,nuracron inhibited AST,ALT and ALP activities in all the exposure concentrations,with ALT activity being mostly affected.The most elicited enzyme was ALP in the kidney [(4 052.67±1610.45) IU/L],followed by AST in the muscle [(908.44±218.34) IU/L] and ALT in the liver [(160.29±73.68) IU/L].The ALP activity was 30.24 and 6.53 times greater than that of ALT and AST.The highest inhibition for AST(43.65%),ALT(47.88%) and ALP(57.98%) occurred at 10×10-6,0.625×10-6 and 2.5×10-6,respectively.The activities of the enzymes in all the organs did not show any direct relationship with the exposure concentrations of the toxicant.ALT activity in the muscle generally suffered the most compared with the other enzymes.The activities of enzymes in the liver were generally inhibited,with elevation at 5.0×10-6 for all the enzymes.The lower concentrations of nuracron(0.625 ×10-6~2.5×10-6) caused elevation in the activities of ALP,but the reverse was the case with the higher concentrations;these of AST and ALT were haphazard.The relative activities of the various enzymes in the organs showed that the order for AST was liver>muscle>kidney>gill;that for ALT:liver>kidney,muscle>gill and that for ALP:kidney>gill>liver and muscle.However,for AST and ALT the activities in the organs of the exposed fi sh peaked at 5.0×10-6 nuracron.The alteration in the activities of the enzymes indicated that the extract interfered with the Kreb's cycle intermediaries and the transamination process,and therefore could elicit negative consequences on the physiology of the fi sh,a non-target species in the aquatic environment.展开更多
Although the immunomodulatory activity of bamboo vinegar and charcoal powder(BVC)has been increasingly documented in domestic animals,the use of BVC as immunostimulant in fi sh aquaculture awaits verifi cation.In the ...Although the immunomodulatory activity of bamboo vinegar and charcoal powder(BVC)has been increasingly documented in domestic animals,the use of BVC as immunostimulant in fi sh aquaculture awaits verifi cation.In the present study,the immunostimulatory impacts of dietary BVC intake were investigated in an important aquaculture fi sh species,the African catfi sh Clarias gariepinus.Results show that the pathogen resistance of African catfi sh was signifi cantly improved by dietary BVC intake at the tested levels(0.5%-2%),as indicated by higher survival rates(approximately 1.52-1.85 times that without BVC supplementation)upon intraperitoneally injection of bacterial pathogen Aeromonas hydrophila.In addition,both the count and phagocytic activity of blood cells were signifi cantly up-regulated by a 45-day dietary supplementation of BVC.Moreover,compared to that of the control,fi sh individuals fed BVC containing diets exhibited signifi cant higher activities of superoxide dismutase(SOD),myeloperoxidase(MPO),and lysozyme(LYZ).The content of immunoglobulin M(IgM)in serum of African catfi sh was also induced by dietary BVC supplementation.Furthermore,the expression levels of interleukin-8(IL-8),toll-like receptor 1 and 5(TLR1 and TLR5),myeloid diff erentiation factor 88(MyD88),and nuclear factor kappa B(NFκB)in the head kidney were signifi cantly up-regulated.Our fi ndings indicate BVC could be an eff ective immunostimulant in teleost species,which may enhance fi sh immunity through improving hematic parameters,activating bioactive humoral molecules,and up-regulating immune related molecular pathways.展开更多
文摘The effects of sublethal levels of nuracron,dimethylphosphate-3-hydroxy-N-methyl-cis-crotonamide(0,0.625× 10-6,1.25×10-6,2.5×10-6,5.0×10-6 and 10.0×10-6) on biochemical changes(aspartate transaminase,AST,E.C.2.6.1.1;alanine transaminase,ALT;2.6.2.2;alkaline phosphatase,ALP,EC 3.1.3.1) in the organs(kidney,liver,gill) and muscle tissues of hybrid catfi sh Heterobranchus bidorsalis,♂× Clarias gariepinus,♀ [mean weight,(277.76±53.11) g SD;mean total length,(35.69±2.80) cm,SD] were studied after a 23 d exposure in a renewal bioassay under laboratory conditions.Generally,nuracron inhibited AST,ALT and ALP activities in all the exposure concentrations,with ALT activity being mostly affected.The most elicited enzyme was ALP in the kidney [(4 052.67±1610.45) IU/L],followed by AST in the muscle [(908.44±218.34) IU/L] and ALT in the liver [(160.29±73.68) IU/L].The ALP activity was 30.24 and 6.53 times greater than that of ALT and AST.The highest inhibition for AST(43.65%),ALT(47.88%) and ALP(57.98%) occurred at 10×10-6,0.625×10-6 and 2.5×10-6,respectively.The activities of the enzymes in all the organs did not show any direct relationship with the exposure concentrations of the toxicant.ALT activity in the muscle generally suffered the most compared with the other enzymes.The activities of enzymes in the liver were generally inhibited,with elevation at 5.0×10-6 for all the enzymes.The lower concentrations of nuracron(0.625 ×10-6~2.5×10-6) caused elevation in the activities of ALP,but the reverse was the case with the higher concentrations;these of AST and ALT were haphazard.The relative activities of the various enzymes in the organs showed that the order for AST was liver>muscle>kidney>gill;that for ALT:liver>kidney,muscle>gill and that for ALP:kidney>gill>liver and muscle.However,for AST and ALT the activities in the organs of the exposed fi sh peaked at 5.0×10-6 nuracron.The alteration in the activities of the enzymes indicated that the extract interfered with the Kreb's cycle intermediaries and the transamination process,and therefore could elicit negative consequences on the physiology of the fi sh,a non-target species in the aquatic environment.
基金Supported by the National Key R&D Program of China(No.2018YFD0900603)the National Natural Science Foundation of China(No.31672634)+1 种基金the Open Project of Key Laboratory of Environmental Biotechnology,CAS(No.kf2018005)the Science and Technology Project of Wenzhou(No.2019ZX002-02)。
文摘Although the immunomodulatory activity of bamboo vinegar and charcoal powder(BVC)has been increasingly documented in domestic animals,the use of BVC as immunostimulant in fi sh aquaculture awaits verifi cation.In the present study,the immunostimulatory impacts of dietary BVC intake were investigated in an important aquaculture fi sh species,the African catfi sh Clarias gariepinus.Results show that the pathogen resistance of African catfi sh was signifi cantly improved by dietary BVC intake at the tested levels(0.5%-2%),as indicated by higher survival rates(approximately 1.52-1.85 times that without BVC supplementation)upon intraperitoneally injection of bacterial pathogen Aeromonas hydrophila.In addition,both the count and phagocytic activity of blood cells were signifi cantly up-regulated by a 45-day dietary supplementation of BVC.Moreover,compared to that of the control,fi sh individuals fed BVC containing diets exhibited signifi cant higher activities of superoxide dismutase(SOD),myeloperoxidase(MPO),and lysozyme(LYZ).The content of immunoglobulin M(IgM)in serum of African catfi sh was also induced by dietary BVC supplementation.Furthermore,the expression levels of interleukin-8(IL-8),toll-like receptor 1 and 5(TLR1 and TLR5),myeloid diff erentiation factor 88(MyD88),and nuclear factor kappa B(NFκB)in the head kidney were signifi cantly up-regulated.Our fi ndings indicate BVC could be an eff ective immunostimulant in teleost species,which may enhance fi sh immunity through improving hematic parameters,activating bioactive humoral molecules,and up-regulating immune related molecular pathways.
