Dubey J P, Velmurugan G V, Ulrich V, Gill J, Carstensen M, Sundar N, Kwok O C H, Thulliez P, Majumdar D, Su C
United States Department of Agriculture, Agricultural Research Service, Animal and Natural Resources Institute, Beltsville, MD 20705-2350, USA.
Int J Parasitol. 2008 Jul;38(8-9):1057-63. doi: 10.1016/j.ijpara.2007.11.010. Epub 2007 Dec 5.
Clinical toxoplasmosis is most severe in congenitally-infected hosts. In humans, transmission of Toxoplasma gondii from the mother to the foetus is considered to be most efficient during the last trimester of pregnancy but clinical congenital toxoplasmosis is more severe if transmission occurs during the first trimester. However, there are no data on the rate of congenital transmission of T. gondii with respect to gestational age in any host during natural infection. In the present study, attempts were made to isolate T. gondii by bioassay in mice inoculated with tissues from foetuses of 88 naturally-exposed white-tailed deer from Iowa and Minnesota. Viable T. gondii was isolated from foetuses of six of 61 deer in early pregnancy (45-85 days of gestation) from Iowa and foetuses of nine of 27 deer from Minnesota in mid-gestation (130-150 days) of a gestational period of 7 months. The 15 T. gondii isolates obtained from foetal deer were PCR-restriction fragment length polymorphism genotyped using polymorphisms at 10 nuclear markers including SAG1, SAG2, SAG3, BTUB, GRA6, c22-8, c29-2, L358, PK1 and an apicoplast marker, Apico. Five genotypes were revealed, including the clonal Type II and III lineages, and three non-clonal genotypes. DNA sequencing analysis of representative isolates at loci SAG2, c22-8, L358 and PK1 revealed that the three non-clonal genotypes are closely related to the clonal Type I, II and III lineages. It is very likely that these non-clonal genotypes were derived from genetic crosses among the three clonal Type I, II and III lineages. The most common genotype was Type II, commonly found in humans in North America and Europe, suggesting the possible link of transmission from game animals to humans.
临床弓形虫病在先天性感染宿主中最为严重。在人类中,孕期最后三个月弓形虫从母亲传给胎儿的传播效率被认为最高,但如果在孕早期发生传播,临床先天性弓形虫病则更为严重。然而,在自然感染过程中,尚无关于任何宿主中弓形虫先天性传播率与胎龄关系的数据。在本研究中,尝试通过生物测定法从接种了来自爱荷华州和明尼苏达州88只自然暴露的白尾鹿胎儿组织的小鼠中分离弓形虫。从爱荷华州61只怀孕早期(妊娠45 - 85天)的鹿的胎儿以及明尼苏达州27只处于妊娠期7个月的中期妊娠(130 - 150天)的鹿的胎儿中,分别有6只和9只分离出了活的弓形虫。从鹿胎儿中获得的15株弓形虫分离株,使用包括SAG1、SAG2、SAG3、BTUB、GRA6、c22 - 8、c29 - 2、L358、PK1和一个顶质体标记Apico在内的10个核标记的多态性进行PCR - 限制性片段长度多态性基因分型。共揭示了5种基因型,包括克隆性II型和III型谱系,以及3种非克隆基因型。对代表性分离株在SAG2、c22 - 8、L358和PK1位点的DNA测序分析表明,这3种非克隆基因型与克隆性I型、II型和III型谱系密切相关。很可能这些非克隆基因型源自3种克隆性I型、II型和III型谱系之间的基因杂交。最常见的基因型是II型,在北美和欧洲的人类中普遍存在,这表明了从野生动物传播给人类的可能联系。
