摘要
目的 探讨对氨基水杨酸钠(PAS-Na)对亚急性染锰大鼠基底核γ-氨基丁酸(GABA)、谷氨酸(Glu)、谷氨酰胺(Gln)和片氨酸(Gly)等氨基酸类神经递质水平的影响.方法 将40只SD大鼠按完全随机法分为染锰组、低剂量(L-)PAS-Na(PAS)治疗组、高剂量(H-)PAS治疗组和正常对照组,每组10只.给染锰、L-PAS和H-PAS治疗组腹腔注射MnCl2·4H2O 15 mg/kg,对照组腹腔注射等容量生理盐水,每日 1次,每周5 d,共4周.分别给L-PAS治疗组、H-PAS治疗组背部皮下注射PAS-Na 100、200mg/kg,其余组背部皮下注射等容量生理盐水,每日1次,连续3周和6周.用高效液相色谱荧光检测法测定大鼠基底核Glu、Gln、Gly及GABA含量.结果 PAS-Na治疗3周时,染锰组Gly[(0.165±0.022)μmol/g]含量比对照组[(0.271±0.074)μmol/g]低(t=4.65,P<0.05).PAS-Na治疗6周时,染锰组Glu、Gln和Gly含量[依次为(0.942±0.121)、(0.377±0.070)、(0.142±0.048)tμmol/g]均比对照组低[依次为(1.590±0.302)、(0.563±0.040)、(0.247±0.084)μmol/g;t值分别为7.72、5.85、4.30,P值均<0.05];L-PAS治疗组、H-PAS治疗组Glu、Gln和H-PAS组Gly含量[依次为(1.268±0.124)、(1.465±0.196)、(0.497±0.050)、(0.514±0.103)、(0.219±0.034)μmol/g]均比染锰组高(L-PAS组Glu、Gln与染锰组比较,t值分别为3.89、3.77,P值均<0.05;H-PAS组Glu、Gln、Gly与染锰组比较,t值分别为6.78、4.70、3.42,P值均<0.05).结论 锰对大鼠基底核Glu、Gln和Gly的毒作用明显,以对Gly的毒性影响出现较早,脱离锰暴露后其毒性影响仍然继续发展.PAS-Na对锰的Glu、Gln和Gly毒性影响可能有拮抗作用.
Objective To probe the effect of sodium para-aminosalicylate (PAS-Na) on concentration of amino acid neurotransmitters including glutamate ( Glu), glutamine ( Gln ), glycine (Gly) and gamma-aminobutyric acid (GABA) in basal ganglia of subacute manganese (Mn)-exposed rats. Methods Forty Sprague-Dawley male rats were randomly divided into the control, Mn-exposed, low dose PAS-Na (L-PAS) and high dose PAS-Na (H-PAS) groups. Rats in experiment groups received daily intraperitoneally injections of manganese chloride (MnCl2 · 4H2O, 15 mg/kg), while rats in control group received daily intraperitoneally injections of normal saline (NS),all at 5 days/week for 4 weeks. Then the rats in PAS groups followed by a daily subcutaneously dose of PAS-Na ( 100 and 200 mg/kg as the L-PAS and H-PAS groups,respectively) for another 3 and 6 weeks; while the rats in Mn-exposed and control group received NS. The concentrations of Glu,Gln,Gly and GABA in basal ganglia of rat was detected by the high performance liquid chromatography fluorescence detection technique. Results After treating with PAS-Na for 3 weeks, the concentration of Gly in the Mn-exposed rats decreased to (0. 165 ± 0.022)μmol/L ( control = (0. 271 ±0. 074 ) μmol/L, Mn vs control, t = 4. 65, P 〈 0. 05 ). After the further 6-week therapy with PAS-Na,the concentrations of Glu,Gln,Gly in the Mn-exposed rats were lower than those of the control rats ((0.942 ±0. 121 ), (0.377 ±0.070), (0. 142 ±0.048), ( 1.590 ± 0. 302), (0.563 ±0.040),(0. 247 ± 0. 084) μ mol/L; t = 7.72,5.85,4. 30, P 〈 0. 05 ); and also lower than in L-PAS and H-PAS groups, whose concentrations were seperately ( 1. 268 ± 0. 124 ) , ( 1. 465 ± 0. 196 ), ( 0. 497 ± 0. 050 ),(0. 514 ±0. 103 ), (0. 219 ±0. 034) μmol/L ( L-PAS Glu and Gln vs Mn ,t = 3. 87,3. 77 ,P 〈0. 05; H-PAS Glu ,Gln and Gly vs Mn ,t = 6. 78,4. 70,3.42, P 〈 0. 05 ). Conclusion The toxic effect of manganese on Glu
出处
《中华预防医学杂志》
CAS
CSCD
北大核心
2011年第5期422-425,共4页
Chinese Journal of Preventive Medicine
基金
基金项目:国家自然科学基金(81072320,30760210)
关键词
对氨基水杨酸钠
锰
大鼠
基底核
氨基酸类神经递质
Sodium p-aminosalicylate
Manganese
Rat
Basal ganglia
Amino acid neurotransmitter
