渔业科学进展
漁業科學進展
어업과학진전
Progress In Fishery Sciences
2015年
5期
87-94
,共8页
李东利%李健%常志强%孙铭%王莹%葛红星
李東利%李健%常誌彊%孫銘%王瑩%葛紅星
리동리%리건%상지강%손명%왕형%갈홍성
中国对虾%呋喃西林%氨基脲%消除规律%细胞色素P450
中國對蝦%呋喃西林%氨基脲%消除規律%細胞色素P450
중국대하%부남서림%안기뇨%소제규률%세포색소P450
Fenneropenaeus chinensis%Nitrofurazone%Semicarbazide%Elimination rules%CYP450s
中国对虾(Fenneropenaeus chinensis)以30 mg/kg体重剂量投喂呋喃西林药饵5 d后,检测对虾各组织中呋喃西林代谢物氨基脲(Semicarbazide, SEM)浓度和肝胰腺中的药物代谢酶活性。结果显示,肝胰腺中药物起始和达峰浓度最大,远远高于其他各组织。20 d实验结束时,SEM浓度依次为肌肉>鳃>甲壳>血淋巴>肝胰腺,消除半衰期为肌肉(5.89 d)>甲壳(4.66 d)>鳃(2.95 d)>血淋巴(2.70 d)>肝胰腺(1.47 d),肝胰腺中SEM消除最快,肌肉中消除最慢,药物残留时间较长。与对照组相比,给药组肝胰腺中乙氧基香豆素-O-脱乙基酶(ECOD)和氨基比林-N-脱甲基酶(APND)活性均呈现先下降后上升的趋势,停药3 h时,ECOD活性极显著低于对照组(P<0.01),酶活性被最大程度抑制,随后出现上升趋势,并分别于48、72、96、120、240 h时,ECOD活性均极显著高于对照组(P<0.01);APND在停药6 h和9 h时活性最低,被抑制效应最大(P<0.01),240 h时极显著高于对照组(P<0.01),之后APND活性降低并趋向对照组水平。结果表明,SEM在中国对虾体内消除缓慢,消除半衰期较长,并对ECOD、APND酶活性有影响,推测ECOD、APND参与呋喃西林在中国对虾体内的代谢消除。
中國對蝦(Fenneropenaeus chinensis)以30 mg/kg體重劑量投餵呋喃西林藥餌5 d後,檢測對蝦各組織中呋喃西林代謝物氨基脲(Semicarbazide, SEM)濃度和肝胰腺中的藥物代謝酶活性。結果顯示,肝胰腺中藥物起始和達峰濃度最大,遠遠高于其他各組織。20 d實驗結束時,SEM濃度依次為肌肉>鰓>甲殼>血淋巴>肝胰腺,消除半衰期為肌肉(5.89 d)>甲殼(4.66 d)>鰓(2.95 d)>血淋巴(2.70 d)>肝胰腺(1.47 d),肝胰腺中SEM消除最快,肌肉中消除最慢,藥物殘留時間較長。與對照組相比,給藥組肝胰腺中乙氧基香豆素-O-脫乙基酶(ECOD)和氨基比林-N-脫甲基酶(APND)活性均呈現先下降後上升的趨勢,停藥3 h時,ECOD活性極顯著低于對照組(P<0.01),酶活性被最大程度抑製,隨後齣現上升趨勢,併分彆于48、72、96、120、240 h時,ECOD活性均極顯著高于對照組(P<0.01);APND在停藥6 h和9 h時活性最低,被抑製效應最大(P<0.01),240 h時極顯著高于對照組(P<0.01),之後APND活性降低併趨嚮對照組水平。結果錶明,SEM在中國對蝦體內消除緩慢,消除半衰期較長,併對ECOD、APND酶活性有影響,推測ECOD、APND參與呋喃西林在中國對蝦體內的代謝消除。
중국대하(Fenneropenaeus chinensis)이30 mg/kg체중제량투위부남서림약이5 d후,검측대하각조직중부남서림대사물안기뇨(Semicarbazide, SEM)농도화간이선중적약물대사매활성。결과현시,간이선중약물기시화체봉농도최대,원원고우기타각조직。20 d실험결속시,SEM농도의차위기육>새>갑각>혈림파>간이선,소제반쇠기위기육(5.89 d)>갑각(4.66 d)>새(2.95 d)>혈림파(2.70 d)>간이선(1.47 d),간이선중SEM소제최쾌,기육중소제최만,약물잔류시간교장。여대조조상비,급약조간이선중을양기향두소-O-탈을기매(ECOD)화안기비림-N-탈갑기매(APND)활성균정현선하강후상승적추세,정약3 h시,ECOD활성겁현저저우대조조(P<0.01),매활성피최대정도억제,수후출현상승추세,병분별우48、72、96、120、240 h시,ECOD활성균겁현저고우대조조(P<0.01);APND재정약6 h화9 h시활성최저,피억제효응최대(P<0.01),240 h시겁현저고우대조조(P<0.01),지후APND활성강저병추향대조조수평。결과표명,SEM재중국대하체내소제완만,소제반쇠기교장,병대ECOD、APND매활성유영향,추측ECOD、APND삼여부남서림재중국대하체내적대사소제。
In this study we explored the elimination rules of semicarbazide (SEM) and its effect on the activities of hepatopancreas enzymes in Fenneropenaeus chinensis. Experimental shrimps were fed with a diet supplemented with nitrofurazone for five days before they were randomly selected from the tank and sampled in different days after the last oral administration. The concentrations of SEM in the hemolymph,hepatopancreas, gill, muscle and carapace were measured with LC-MS/MS, and the activities of ethoxylcumarin odethylase (ECOD) and aminopyrine N-demethylase (APND) in the hepatopancreas were examined with UV spectrophotometry and fluorospectrophotometry. The results showed that 1 h post treatment, the mean concentrations of SEM in the shrimp tissues were in the order of hepatopancreas>gill>carapace>muscle>plasma. At the end of the 20th day post treatment, SEM was still detectable in all tissues and the order of the concentration was muscle>gill>carapace>plasma> hepatopancreas. The half life of the elimination phase in the muscle, carapace, gill, plasma and hepatopancreas was 5.89 d, 4.66 d, 2.95 d, 2.70 d and 1.47 d respectively. Our results indicated that the elimination of SEM was the fastest in the hepatopancreas and the slowest in the muscle, and that SEM remained in the body ofF. chinensis for long. Compared to the control, the activities of ECOD and APND in the experimental group were first reduced, followed by an increase, and finally returned to the normal levels. The activity of ECOD in the experimental group was significantly lower than the control 1 h post treatment (P<0.05), and the statistical significance was even greater than 3 h post treatment (P<0.01). Afterward the activity was enhanced and became significantly higher than the control at 48 h, 72 h, 96 h, 120 h, and 240 h (P<0.01) post treatment. The activity of APND was significantly lower than the control at 6 h and 9 h (P<0.01) but obviously higher at 96 h (P<0.05) and 240 h (P<0.01), and the final level was lower than the control at 480 h. These data suggested that SEM was eliminated slowly inF. chinensisand had an impact on the activities of ECOD and APND. Moreover, ECOD and APND may be involved in the metabolism of nitrofurazone.