布氏锥虫的一种糖基化突变体将体外的群体运动缺陷与体内采采蝇定殖受损联系起来。
A Glycosylation Mutant of Trypanosoma brucei Links Social Motility Defects In Vitro to Impaired Colonization of Tsetse Flies In Vivo.
作者信息
Imhof Simon, Vu Xuan Lan, Bütikofer Peter, Roditi Isabel
机构信息
Institute of Cell Biology, University of Bern, Bern, Switzerland Graduate School of Cellular and Biomedical Sciences, University of Bern, Bern, Switzerland.
Institute of Cell Biology, University of Bern, Bern, Switzerland.
出版信息
Eukaryot Cell. 2015 Jun;14(6):588-92. doi: 10.1128/EC.00023-15. Epub 2015 Apr 10.
Abstract
Transmission of African trypanosomes by tsetse flies requires that the parasites migrate out of the midgut lumen and colonize the ectoperitrophic space. Early procyclic culture forms correspond to trypanosomes in the lumen; on agarose plates they exhibit social motility, migrating en masse as radial projections from an inoculation site. We show that an Rft1(-/-) mutant needs to reach a greater threshold number before migration begins, and that it forms fewer projections than its wild-type parent. The mutant is also up to 4 times less efficient at establishing midgut infections. Ectopic expression of Rft1 rescues social motility defects and restores the ability to colonize the fly. These results are consistent with social motility reflecting movement to the ectoperitrophic space, implicate N-glycans in the signaling cascades for migration in vivo and in vitro, and provide the first evidence that parasite-parasite interactions determine the success of transmission by the insect host.
摘要
采采蝇传播非洲锥虫需要寄生虫从中肠腔迁移出来并定殖于外营养空间。早期前循环培养形式对应于肠腔内的锥虫;在琼脂糖平板上,它们表现出群体运动性,作为从接种位点发出的放射状突起整体迁移。我们发现,Rft1(-/-)突变体在迁移开始前需要达到更高的阈值数量,并且其形成的突起比野生型亲本少。该突变体建立中肠感染的效率也低至四倍。Rft1的异位表达挽救了群体运动缺陷并恢复了定殖于苍蝇的能力。这些结果与群体运动反映向外营养空间的移动一致,表明N-聚糖参与体内和体外迁移的信号级联反应,并提供了第一个证据,证明寄生虫-寄生虫相互作用决定了昆虫宿主传播的成功。
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