中华劳动卫生职业病杂志
中華勞動衛生職業病雜誌
중화노동위생직업병잡지
CHINESE JOURNAL OF INDUSTRIAL HYGIENE AND OCCUPATIONAL DISEASES
2011年
1期
33-38
,共6页
许海燕%陈瑞瑞%蔡晓妍%何德富
許海燕%陳瑞瑞%蔡曉妍%何德富
허해연%진서서%채효연%하덕부
百草枯%代森锰%帕金森病%纹状体%电生理学
百草枯%代森錳%帕金森病%紋狀體%電生理學
백초고%대삼맹%파금삼병%문상체%전생이학
Paraquat%Maneb%Parkinson disease%Corpus striatum%Electrophysiology
目的 观察百草枯(paraquat,PQ)和代森锰(maneb,MB)联合染毒对大鼠运动行为和黑质纹状体系统神经元形态及电活动的影响,以探讨这两种农药与帕金森病(Parkinson's disease,PD)发病的关系.方法 37只大鼠随机分为对照组(11只)、PQ组(PQ 10mg/kg,13只)、PQ(10mg/kg)和MB(30 mg/kg)联合染毒组(PQ+MB组13只),每周2次腹腔注射,染毒6周,观察动物在斜板试验、网格试验和开阔试验中运动行为的变化情况;HE染色观察黑质神经元形态;利用细胞外电生理学方法记录纹状体神经元自发电活动.结果 与对照组或同组染毒前比较,PQ组及PQ+MB组大鼠从斜板上下滑次数增加,在网格上移动潜伏期延长,在开阔试验中自发运动减少,差异均有统计学意义(P<0.05或P<0.01).染毒后PQ组及PQ+MB组大鼠黑质致密部神经元出现受损形态改变,PQ组及PQ+MB组细胞密度分别为(82.17±12.91)和(41.15±6.44)个/mm2,与对照组[(143.10±20.85)个/mm2]比较,差异有统计学意义(P<0.01).PQ组纹状体神经元的平均放电频率为(5.97±7.30)Hz,PQ+MB组为(6.95±9.87)Hz,较对照组[(1.78±5.05)Hz]明显提高,差异均有统计学意义(P<0.01);PQ+MB组神经元混合簇状放电比例(22.3%)较对照组(9.8%)和PQ组(5.6%)明显增加,差异有统计学意义(P<0.05,P<0.01).结论 MB能加重PQ对大鼠黑质纹状体系统的损伤效应,表明这两种农药的协同毒性作用与PD发病相关联.
目的 觀察百草枯(paraquat,PQ)和代森錳(maneb,MB)聯閤染毒對大鼠運動行為和黑質紋狀體繫統神經元形態及電活動的影響,以探討這兩種農藥與帕金森病(Parkinson's disease,PD)髮病的關繫.方法 37隻大鼠隨機分為對照組(11隻)、PQ組(PQ 10mg/kg,13隻)、PQ(10mg/kg)和MB(30 mg/kg)聯閤染毒組(PQ+MB組13隻),每週2次腹腔註射,染毒6週,觀察動物在斜闆試驗、網格試驗和開闊試驗中運動行為的變化情況;HE染色觀察黑質神經元形態;利用細胞外電生理學方法記錄紋狀體神經元自髮電活動.結果 與對照組或同組染毒前比較,PQ組及PQ+MB組大鼠從斜闆上下滑次數增加,在網格上移動潛伏期延長,在開闊試驗中自髮運動減少,差異均有統計學意義(P<0.05或P<0.01).染毒後PQ組及PQ+MB組大鼠黑質緻密部神經元齣現受損形態改變,PQ組及PQ+MB組細胞密度分彆為(82.17±12.91)和(41.15±6.44)箇/mm2,與對照組[(143.10±20.85)箇/mm2]比較,差異有統計學意義(P<0.01).PQ組紋狀體神經元的平均放電頻率為(5.97±7.30)Hz,PQ+MB組為(6.95±9.87)Hz,較對照組[(1.78±5.05)Hz]明顯提高,差異均有統計學意義(P<0.01);PQ+MB組神經元混閤簇狀放電比例(22.3%)較對照組(9.8%)和PQ組(5.6%)明顯增加,差異有統計學意義(P<0.05,P<0.01).結論 MB能加重PQ對大鼠黑質紋狀體繫統的損傷效應,錶明這兩種農藥的協同毒性作用與PD髮病相關聯.
목적 관찰백초고(paraquat,PQ)화대삼맹(maneb,MB)연합염독대대서운동행위화흑질문상체계통신경원형태급전활동적영향,이탐토저량충농약여파금삼병(Parkinson's disease,PD)발병적관계.방법 37지대서수궤분위대조조(11지)、PQ조(PQ 10mg/kg,13지)、PQ(10mg/kg)화MB(30 mg/kg)연합염독조(PQ+MB조13지),매주2차복강주사,염독6주,관찰동물재사판시험、망격시험화개활시험중운동행위적변화정황;HE염색관찰흑질신경원형태;이용세포외전생이학방법기록문상체신경원자발전활동.결과 여대조조혹동조염독전비교,PQ조급PQ+MB조대서종사판상하활차수증가,재망격상이동잠복기연장,재개활시험중자발운동감소,차이균유통계학의의(P<0.05혹P<0.01).염독후PQ조급PQ+MB조대서흑질치밀부신경원출현수손형태개변,PQ조급PQ+MB조세포밀도분별위(82.17±12.91)화(41.15±6.44)개/mm2,여대조조[(143.10±20.85)개/mm2]비교,차이유통계학의의(P<0.01).PQ조문상체신경원적평균방전빈솔위(5.97±7.30)Hz,PQ+MB조위(6.95±9.87)Hz,교대조조[(1.78±5.05)Hz]명현제고,차이균유통계학의의(P<0.01);PQ+MB조신경원혼합족상방전비례(22.3%)교대조조(9.8%)화PQ조(5.6%)명현증가,차이유통계학의의(P<0.05,P<0.01).결론 MB능가중PQ대대서흑질문상체계통적손상효응,표명저량충농약적협동독성작용여PD발병상관련.
Objective To investigate the effects of exposure of paraquat and maneb on the behavior,the morphology and electrical activity of the Substantianigra and striatum, and to discuss the relationship between this two pesticides and Parkinson's disease. Methods 37 rats were divided randomly into 3 groups:control group(n=11 ), paraquat ( 10 mg/kg) group (n=13) and combinative group of paraquat ( 10 mg/kg) and maneb(30 mg/kg)(n= 13 ), and were exposed twice a week for 6 weeks by intraperitoneal injection. The behavior of animals in the declined-plane, the vertical-grid and the open-field test were observed. The morphology of substantia nigral neurons were investigated by HE pathology. The spontaneous discharge of striatum neurons were recorded after exposure. Results Compared to the control group and the pre-exposure group, both the numbers of animals sliding down from the declined-plane and the latency of rats' moving on the vertical-grid significantly increased, and the animals' autonomic movement decreased significantly (P<0.05,P<0.001). After the combinative exposure, the neurons of the Substantial nigra pars compacta (SN Pc ) were progressively impaired, the cell density of the paraquat group [(82.17±12.91 ) n/mm2] and the combined group [(41.15±6.44 )n/mm2] were lower than that in control group( 143.10±20.85 n/mm2) (P<0.01). In the paraquat group(5.97±7.30 Hz) and the combined group [(6.95±9.87 ) Hz], the average discharge rates of the striatum neurons were increased significantly compared to the control group [( 1.78±5.05 ) Hz] (P<0.01).The bursting discharge was increased significantly in the combined group(22.3% ) compared to the control group(9.8% ) and the paraquat group (5.6%) (P<0.05,P<0.01). Conclusion The co-exposure of paraquat and maneb could induce similar symptoms to Parkinsonism syndrome of rats such as rigidity, moving reduction and etc, and the combined exposure had a certain enhanced effect compared to alone paraquat exposure. The combinative exposure of paraquat and maneb could cause neural loss in SNPc and it is involved with the enhanced electrophysiological activity in striatum. The synergy toxicity of paraquat and maneb in nigrostriatal system is related to Parkinson's disease.