江苏农业学报
江囌農業學報
강소농업학보
JIANGSU JOURNAL OF AGRICULTURAL SCIENCES
2015年
3期
552-557
,共6页
黄秀枝%蔡瑷安%尚战峰%贤振华
黃秀枝%蔡璦安%尚戰峰%賢振華
황수지%채애안%상전봉%현진화
甲氨基阿维菌素%福寿螺%超氧化物歧化酶%过氧化氢酶%酚氧化酶%显微结构
甲氨基阿維菌素%福壽螺%超氧化物歧化酶%過氧化氫酶%酚氧化酶%顯微結構
갑안기아유균소%복수라%초양화물기화매%과양화경매%분양화매%현미결구
methylamino abamectin%Pomacea canaliculata%liver%SOD%CAT%PO%microstructure
为明确甲氨基阿维菌素对福寿螺肝脏的损伤机制,测定了不同浓度甲氨基阿维菌素对福寿螺肝脏抗氧化酶活性的影响,并比较了正常福寿螺和用药福寿螺肝脏的组织结构。甲氨基阿维菌素胁迫下,福寿螺肝脏超氧化物歧化酶( SOD)、酚氧化酶( PO)、过氧化氢酶( CAT)活性均出现了波动,呈先升高后降低的趋势,暴露48 h时,除低浓度组福寿螺肝脏SOD活性与对照组无显著差异外,各浓度组福寿螺肝脏SOD、CAT、PO酶活性均显著低于空白对照组,说明短时间甲氨基阿维菌素胁迫作用下,福寿螺体内抗氧化酶的保护作用被激活,但随着胁迫时间延长,抗氧化酶活性下降。甲氨基阿维菌素作用后,福寿螺肝脏结缔组织血管中出现少量淤血,随着暴露时间延长和浓度增加,结缔组织内出现弥漫性淤血甚至坏死现象,细胞变性、畸形、坏死甚至溶解。推测甲氨基阿维菌素通过破坏福寿螺肝脏抗氧化酶功能产生氧化损伤,发挥毒性作用,从而损害其结构和功能。
為明確甲氨基阿維菌素對福壽螺肝髒的損傷機製,測定瞭不同濃度甲氨基阿維菌素對福壽螺肝髒抗氧化酶活性的影響,併比較瞭正常福壽螺和用藥福壽螺肝髒的組織結構。甲氨基阿維菌素脅迫下,福壽螺肝髒超氧化物歧化酶( SOD)、酚氧化酶( PO)、過氧化氫酶( CAT)活性均齣現瞭波動,呈先升高後降低的趨勢,暴露48 h時,除低濃度組福壽螺肝髒SOD活性與對照組無顯著差異外,各濃度組福壽螺肝髒SOD、CAT、PO酶活性均顯著低于空白對照組,說明短時間甲氨基阿維菌素脅迫作用下,福壽螺體內抗氧化酶的保護作用被激活,但隨著脅迫時間延長,抗氧化酶活性下降。甲氨基阿維菌素作用後,福壽螺肝髒結締組織血管中齣現少量淤血,隨著暴露時間延長和濃度增加,結締組織內齣現瀰漫性淤血甚至壞死現象,細胞變性、畸形、壞死甚至溶解。推測甲氨基阿維菌素通過破壞福壽螺肝髒抗氧化酶功能產生氧化損傷,髮揮毒性作用,從而損害其結構和功能。
위명학갑안기아유균소대복수라간장적손상궤제,측정료불동농도갑안기아유균소대복수라간장항양화매활성적영향,병비교료정상복수라화용약복수라간장적조직결구。갑안기아유균소협박하,복수라간장초양화물기화매( SOD)、분양화매( PO)、과양화경매( CAT)활성균출현료파동,정선승고후강저적추세,폭로48 h시,제저농도조복수라간장SOD활성여대조조무현저차이외,각농도조복수라간장SOD、CAT、PO매활성균현저저우공백대조조,설명단시간갑안기아유균소협박작용하,복수라체내항양화매적보호작용피격활,단수착협박시간연장,항양화매활성하강。갑안기아유균소작용후,복수라간장결체조직혈관중출현소량어혈,수착폭로시간연장화농도증가,결체조직내출현미만성어혈심지배사현상,세포변성、기형、배사심지용해。추측갑안기아유균소통과파배복수라간장항양화매공능산생양화손상,발휘독성작용,종이손해기결구화공능。
To explain the injury mechanism of methylamino abamectin exposure to the liver of Pomacea canaliculata, the acute toxicities of different concentrations of methylamino abamectin for P. canaliculata were measured, the changes of antioxidant enzyme activities were detected, and the microstructures of liver of treated and untreated P. canaliculata were compared. The treated P. canaliculata went up first in the activities of SOD, CAT, and PO in liver and then down, indica-ting that enzyme activities were induced by methylamino abamectin initially and were inhibited over time. A small amount of blood stasis was observed in the liver tissue of P. canaliculata in a short period of exposure time. However, high-concentra-tion and long-time stress of methylamino abamectin induced diffuse coagulation even acute necrosis of liver connective tissue, and cell degeneration, malformation, necrosis and cytolysis. The results suggested that oxidative damage might be a causal factor for methylamino abamec-tin toxicity to P. canaliculata.
