Animal Disease Research Unit, USDA-ARS, 3003 ADBF, WSU, Pullman, WA 99164-6630, USA ; Department of Veterinary Microbiology and Pathology, Washington State University, Pullman, WA 99164-7040, USA.
Centro de Malária e Outras Doenças Tropicais, Instituto de Higiene e Medicina Tropical, Rua da Junqueira 100, 1349-008 Lisboa, Portugal.
Int J Parasitol Drugs Drug Resist. 2013 Feb 1;3:59-68. doi: 10.1016/j.ijpddr.2013.01.003. eCollection 2013 Dec.
Bovine babesiosis, caused by Babesia bovis, is a global tick borne hemoprotozoan parasite disease characterized by fever, anemia, weight losses and ultimately death. Several babesicidal drugs that have been in use in cattle for years have proven to be only partially effective and the development of alternative chemotherapeutics that are highly specific and have low toxicity against babesiosis is needed. Trifluralin derivatives specifically bind alpha-tubulin in plants and protozoa parasites causing growth inhibition. A set of 12 trifluralin analogues (TFLA) has previously been shown to be inhibitory for the growth of Leishmania species. The conservation of several key amino acids involved in the trifluralin binding site of alpha-tubulin among Leishmania sp. and B. bovis provides rationale for testing these compounds also as babesiacides. The previously tested Leishmania inhibitory, TFLA 1-12 minus TFLA 5, in addition to three novel TFLA (termed TFLA 13-15), were tested against in vitro cultured B. bovis parasites. While all of the TFLA tested in the study showed inhibition of B. bovis growth in vitro TFLA 7, TFLA 10 and TFLA 13, were the most effective inhibitors with estimated IC50 (μM) at 72 h of 8.5 ± 0.3; 9.2 ± 0.2; 8.9 ± 0.7, respectively for the biologically attenuated cloned B. bovis Mo7 strain, and 13.6 ± 1.5; 18.7 ± 1.6; 10.6 ± 1.9, respectively for the virulent B. bovis T3Bo strain. The differences found between the two strains were not statistically significant. Importantly, these drugs displayed low levels of toxicity for the host erythrocytes and bovine renal arterial endothelial cells at the doses tested. The demonstrated ability of trifluralin analogues to inhibit in vitro growth of B. bovis parasites combined with their low toxicity for host cells suggests that these compounds may be further developed as novel alternatives for the treatment of bovine babesiosis.
牛巴贝斯虫病是由巴贝斯虫引起的一种全球性蜱传血液原生动物寄生虫病,其特征为发热、贫血、体重减轻,最终死亡。多年来,兽医临床上有一些抗巴贝斯虫药物,但效果并不理想,因此需要开发对巴贝斯虫具有高度特异性且毒性低的替代化学疗法。氟乐灵衍生物特异性结合植物和原生动物寄生虫中的α-微管蛋白,从而抑制其生长。先前的研究表明,一组 12 种氟乐灵类似物(TFLA)对利什曼原虫的生长具有抑制作用。利什曼原虫和牛巴贝斯虫之间α-微管蛋白的氟乐灵结合位点涉及几个关键氨基酸的保守性,为这些化合物也作为抗巴贝斯虫药物进行测试提供了依据。先前测试过的对利什曼原虫具有抑制作用的 TFLA 1-12 减去 TFLA 5,以及三种新型 TFLA(称为 TFLA 13-15),都在体外培养的牛巴贝斯虫寄生虫中进行了测试。虽然研究中测试的所有 TFLA 均显示出体外抑制牛巴贝斯虫生长的作用,但 TFLA 7、TFLA 10 和 TFLA 13 的抑制效果最为显著,其估计的 72 h IC50(μM)分别为 8.5±0.3、9.2±0.2 和 8.9±0.7,针对生物减毒的克隆牛巴贝斯虫 Mo7 株;以及 13.6±1.5、18.7±1.6 和 10.6±1.9,针对毒力较强的牛巴贝斯虫 T3Bo 株。这两种菌株之间的差异没有统计学意义。重要的是,在测试剂量下,这些药物对宿主红细胞和牛肾动脉内皮细胞的毒性较低。氟乐灵类似物能够抑制牛巴贝斯虫寄生虫的体外生长,同时对宿主细胞的毒性较低,这表明这些化合物可能进一步开发为治疗牛巴贝斯虫病的新型替代品。
