A soft tick vector of Babesia sp. YLG in Yellow-legged gull (Larus michahellis) nests

Claire Bonsergent, Marion Vittecoq, Carole Leray, Maggy Jouglin, Marie Buysse, Karen D. McCoy, Laurence Malandrin
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Abstract

Babesia sp. YLG has recently been described in Yellow-legged gull (Larus michahellis) chicks and belongs to the Peircei clade in the new classification of Piroplasms. Here, we studied Babesia sp. YLG vectorial transmission by ticks in the simplified environment of a single seabird breeding colony where the Yellow-legged gull is the sole vertebrate host, Ornithodoros maritimus (syn. Alectorobius maritimus) the sole tick species, and Babesia sp. YLG is the only blood parasite species detected in chicks of the colony. We collected ticks over four years, maintained certain individuals through moulting or oviposition, and dissected fresh ticks to isolate different organs and test for the presence of the parasite using molecular assays. We report the first strong evidence of a Piroplasmidae transmitted by a soft tick. Indeed, Babesia sp. YLG DNA was detected in the salivary glands of nymphs, females and males, a necessary organ to infect for transmission to a new vertebrate host. Parasite DNA was also found in tick ovaries, which could indicate possible transovarial transmission. Our detection of Babesia sp. YLG DNA in several male testes and in endospermatophores, and notably in a parasite-free female (uninfected ovaries and salivary glands), raise the interesting possibility of sexual transmission from infected males to uninfected females. Future work in this system will now need to focus on the degree to which the parasite can be maintained locally by ticks and the epidemiological consequences of infection for both O. maritimus and its avian host.
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黄脚鸥巢中巴贝斯虫YLG软蜱媒介的研究
巴贝斯虫sp. YLG最近在黄腿鸥(Larus michahellis)幼雏中被发现,属于梨浆虫新分类Peircei分支。本研究在单一海鸟繁殖地的简化环境中,以黄腿鸥为唯一脊椎动物寄主,海洋鸟(Ornithodoros maritimus)为唯一蜱类,雏鸟中检出唯一血寄生虫巴贝斯虫(Babesia sp. YLG)。我们在四年的时间里收集蜱虫,通过换毛或产卵来维持某些个体,并解剖新鲜蜱虫以分离不同的器官,并使用分子分析方法检测寄生虫的存在。我们报告了由软蜱传播的梨质虫的第一个有力证据。事实上,在雌雄若虫的唾液腺中检测到巴贝斯虫的YLG DNA,这是传播给新的脊椎动物宿主的必要器官。在蜱的卵巢中也发现了寄生虫DNA,这可能提示可能的经卵巢传播。我们在几个雄性睾丸和胚乳囊中检测到巴贝斯虫YLG DNA,特别是在一只未感染寄生虫的雌性(未感染的卵巢和唾液腺)中,提出了从感染的雄性到未感染的雌性的性传播的有趣可能性。该系统今后的工作现在需要关注蜱虫在当地维持寄生虫的程度,以及海洋弓形虫及其鸟类宿主感染的流行病学后果。
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