| 抗咯萘啶的伯氏疟原虫感染红细胞多胺量的测定 |
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| 引用本文: | 施晓华,叶秀玉,哈淑华,姚俊敏. 抗咯萘啶的伯氏疟原虫感染红细胞多胺量的测定[J]. 中国寄生虫学与寄生虫病杂志, 1998, 16(2): 109-112 |
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| 作者姓名: | 施晓华 叶秀玉 哈淑华 姚俊敏 |
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| 作者单位: | 中国预防医学科学院寄生虫病研究所 |
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| 基金项目: | 卫生部青年科学基金,中国预防医学科学院青年科研基金 |
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| 摘 要: | 目的:了解疟原虫的多胺代谢与咯萘啶(PND)抗药性的关系。方法:感染伯氏疟原虫ANKA株(PS)和由该株培育的中抗PND品系(PRA)及高抗PND品系(PRB)的昆明株小鼠于腹腔接种(ip)后d7取血,经薄层层析后用荧光分光光度法测定正常RBC、PS、PRA和PRB感染RBC的丁二胺(PTC)、精脒(SPD)和精胺(SPM)量。另有感染PS和PRB的小鼠于ip后d6分别1次灌胃(ig)PND5mg/kg和10mg/kg,d7取血,按上述方法测定给药后感染RBC的多胺量,并与不给药组比较。结果:PS感染RBC的多胺量均明显高于未感染疟原虫的正常RBC,而感染PRA和PRB的RBC多胺量又显著高于PS感染RBC,且多胺量的增高与抗性程度有关。经PND治疗后PS感染RBC的SPD和SPM较未治疗组显著下降,而PRB感染RBC则未见明显变化。结论:伯氏疟原虫对PND的抗药性与其多胺代谢有关。
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| 关 键 词: | 伯氏疟原虫 咯萘啶 抗药性 多胺 丁二胺 精胺 精脒 |
DETERMINATION OF POLYAMINES IN PYRONARIDINE SENSITIVE AND RESISTANT PLASMODIUM BERGHEI INFECTED ERYTHROCYTES * |
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| Shi Xiaohua,Ye Xiuyu,Cai Yue,Ha Shuhua,Yao Junmin. DETERMINATION OF POLYAMINES IN PYRONARIDINE SENSITIVE AND RESISTANT PLASMODIUM BERGHEI INFECTED ERYTHROCYTES *[J]. Chinese Journal of Parasitology and Parasitic Diseases, 1998, 16(2): 109-112 |
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| Authors: | Shi Xiaohua Ye Xiuyu Cai Yue Ha Shuhua Yao Junmin |
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| Affiliation: | Institute of Parasitic Diseases, Chinese Academy of Preventive Medicine, Shanghai 200025. |
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| Abstract: | AIM: To understand the relationship between polyamine metabolism and pyronaridine resistance of malaria parasites. METHODS: Kunming strain mice weighing 18 g-22 g were inoculated intraperitoneally with Plasmodium berghei ANKA strain (pyronaridine-sensitive, PS), and P. berghei ANKA strain low and high pyronaridine resistant lines (PRA and PRB), respectively. Seven days after inoculation, blood samples were collected and WBC in the blood were removed by the method of chromatography using SE-cellulose and Sephadex G25 (1:2). After thin layer chromatography, the contents of three polyamines, i.e. putrescine(PTC), spermidine (SPD), and spermine(SPM) in normal and infected erythrocytes were determined with fluorescence spectrometer. The changes of polyamine level in PS and PRB infected erythrocytes of mice treated by a single oral dose of PND 5 and 10 mg/kg respectively were also observed. RESULTS: The contents of PTC, SPD and SPM in PS infected erythrocytes were 47.5 +/- 28.6, 97.7 +/- 34.0 and 81.7 +/- 23.8 nmol/10(9) RBC (n = 9), respectively, being 1.5, 3.5, and 6.6 times of those appeared in the normal RBC (32.0 +/- 9.9, 28.2 +/- 12.3, and 12.4 +/- 15.0 nmol/10(9) RBC, n = 9), respectively. The differences between two groups were significant. Interestingly, when mice infected with pyronaridine resistant line PRA and PRB, the contents of PTC, SPD and SPM in the infected erythrocytes increased to 187.7 +/- 139.9, 258.3 +/- 137.9 and 142.8 +/- 143.8 nmol/10(9) RBC (n = 18), and 345.5 +/- 223.0, 435.8 +/- 265.4 and 189.4 +/- 171.7 noml/10(9) RBC, respectively. Except for SPM, PTC and SPD in the PRA and PRB infected erythrocytes were significantly higher than those in the PS and PRA infected erythrocytes, respectively, being 3.9, 2.6 and 1.8, 1.7 times of those appeared in PS and PRA infected erythrocytes. In PND treated group, SPD and SPM contents of PS infected erythrocytes were decreased by 31.6% and 47.3% compared with non-treated group, but the polyamine level of PRB infected erythrocytes did not significantly change after PND administration. CONCLUSION: The resistance of P. berghei to PND is related to the alteration of polyamine metabolism in the malarial parasites. |
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| Keywords: | ? Plasmodium berghei pyronaridine drug resist ance polyamine putrescine spermidine spermine |
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