墨西哥人 DTU I 克氏锥虫株的微卫星和小外显子分析及其对硝呋替莫和苯并咪唑的敏感性。
Microsatellite and mini-exon analysis of Mexican human DTU I Trypanosoma cruzi strains and their susceptibility to nifurtimox and benznidazole.
机构信息
Departamento de Inmunología, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México .
出版信息
Vector Borne Zoonotic Dis. 2013 Mar;13(3):181-7. doi: 10.1089/vbz.2012.1072. Epub 2013 Feb 19.
Chagas disease is caused by the protozoan parasite Trypanosoma cruzi, and it affects as many as 10 million people in North and South America, where it represents a major public health problem. T. cruzi is a parasite with high genetic diversity, and it has been grouped into 6 discrete typing units (DTUs), designated as T. cruzi I (TcI) to T. cruzi VI (TcVI). Mexican isolates from humans and from vector insects have been primarily found to be TcI, and these isolates are likely to be the strains that cause the clinical manifestations observed in Mexico. However, genetic characterization and drug susceptibility assays are limited in Mexican TcI strains. In this work, 24 Mexican T. cruzi strains, obtained primarily from humans, were studied with 7 locus microsatellites and mini-exon gene by PCR. Also, drug susceptibility was evaluated by growth and mobility assays. All of the human strains belonged to TcI, and they could be further grouped through microsatellite analysis into 2 subgroups (microsatellite genotypes 1 and 2), which were not related to the host clinical status or biological origin of the strain. Two strains, both from wild mammals, belonged to the TcII-TcVI groups; these strains and the CL Brener strain constituted microsatellite genotype 3. The number of alleles in each locus was lower than reported for South American strains, and a departure from the Hardy-Weinberg equilibrium was observed. The susceptibility of these strains to nifurtimox and benznidazole was heterogeneous. T. cruzi strains characterized as microsatellite genotypes 2 and 3 were significantly more susceptible to benznidazole than strains of microsatellite genotype 1. Only 1 Mexican strain resistant to both drugs was found in this study.
恰加斯病由原生动物寄生虫克氏锥虫引起,影响着北美和南美多达 1000 万人,是该地区主要的公共卫生问题。克氏锥虫具有高度的遗传多样性,已被分为 6 个离散的 typing units(DTUs),分别命名为克氏锥虫 I(TcI)至克氏锥虫 VI(TcVI)。从人类和媒介昆虫中分离到的墨西哥分离株主要为 TcI,这些分离株可能是引起墨西哥观察到的临床表现的菌株。然而,对墨西哥 TcI 株的遗传特征和药敏试验的研究有限。在这项工作中,通过 PCR 用 7 个微卫星和 mini-exon 基因对 24 株主要从人类获得的墨西哥克氏锥虫株进行了研究。同时,通过生长和迁移试验评估了药物敏感性。所有人类菌株均属于 TcI,通过微卫星分析可进一步分为 2 个亚群(微卫星基因型 1 和 2),这与宿主的临床状况或菌株的生物学来源无关。来自野生哺乳动物的 2 株菌株属于 TcII-TcVI 组;这些菌株和 CL Brener 菌株构成了微卫星基因型 3。每个基因座的等位基因数低于南美洲菌株的报道,并且观察到偏离 Hardy-Weinberg 平衡。这些菌株对 nifurtimox 和 benznidazole 的敏感性存在异质性。被表征为微卫星基因型 2 和 3 的克氏锥虫菌株对 benznidazole 的敏感性明显高于微卫星基因型 1 的菌株。在这项研究中仅发现了 1 株对这两种药物均耐药的墨西哥菌株。
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