A Čmoková, M Kolařík, J Guillot, V Risco-Castillo, F J Cabañes, P Nenoff, S Uhrlaß, R Dobiáš, N Mallátová, T Yaguchi, R Kano, I Kuklová, P Lysková, K Mencl, P Hamal, A Peano, V Hubka
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To answer these questions, we collected 161 isolates, performed phylogenetic and population-genetic analyses, determined mating-type, and characterised morphology and physiology. Multigene phylogeny and microsatellite analysis supported <i>T. erinacei</i> as a monophyletic species, in contrast to highly incongruent single-gene phylogenies. Two main subpopulations, one specific mainly to <i>Atelerix</i> and second to <i>Erinaceus</i> hosts, were identified inside <i>T. erinacei</i>, and slight differences in the size of microconidia and antifungal susceptibilities were observed among them. Although the process of speciation into two lineages is ongoing in <i>T. erinacei</i>, there is still gene flow between these populations. Thus, we present <i>T. erinacei</i> as a single species, with notable intraspecies variability in genotype and phenotype. The data from wild hedgehogs indicated that sexual reproduction in <i>T. erinacei</i> and de novo infection of hedgehogs from soil are probably rare events and that clonal horizontal spread strongly dominates. The molecular typing approach used in this study represents a suitable tool for further epidemiological surveillance of this emerging pathogen in both animals and humans. The results of this study also highlighted the need to use a multigene phylogeny ideally in combination with other independent molecular markers to understand the species boundaries of dermatophytes. <b>Citation</b>: Čmoková A, Kolařík M, Guillot J, et al. 2022. Host-driven subspeciation in the hedgehog fungus, Trichophyton erinacei, an emerging cause of human dermatophytosis. 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引用次数: 0
摘要
Erinacei 毛癣菌是刺猬皮肤癣菌病的主要病原体,在全球范围内也有越来越多的人类感染报告。这种病原体最初是在欧洲刺猬(Erinaceus europaeus)身上发现的,但也经常在非洲四趾刺猬(Atelerix albiventris)身上发现,非洲四趾刺猬是世界上很受欢迎的宠物动物。尽管这种病原体在临床实践中越来越重要,但人们对其分类和种群遗传学却知之甚少。值得注意的是,是否存在与不同宿主或地理区域相关的不同种群甚至隐性物种尚不清楚。为了回答这些问题,我们收集了 161 个分离株,进行了系统发育和种群遗传学分析,确定了交配型,并描述了形态学和生理学特征。多基因系统发育和微卫星分析支持 T. erinacei 为单系物种,而单基因系统发育极不一致。在 T. erinacei 中发现了两个主要亚群,一个主要特异于 Atelerix,另一个特异于 Erinaceus 宿主,它们之间的微菌丝大小和抗真菌敏感性略有不同。虽然 T. erinacei 的物种分化过程正在进行中,但这些种群之间仍存在基因流动。因此,我们将 T. erinacei 视为一个物种,其基因型和表型具有显著的种内变异性。来自野生刺猬的数据表明,T. erinacei的有性繁殖和刺猬从土壤中重新感染T. erinacei的情况可能很少发生,克隆水平传播占主导地位。本研究中使用的分子分型方法是进一步对这种新出现的病原体在动物和人类中的流行病学监测的合适工具。这项研究的结果还强调了使用多基因系统发育法结合其他独立分子标记来了解皮癣菌种界的必要性。引用:Čmoková A, Kolařík M, Guillot J, et al.刺猬毛癣菌的宿主驱动亚种分化,人类皮癣病的新病因。Persoonia 48: 203-218. https://doi.org/10.3767/persoonia.2022.48.06.
Host-driven subspeciation in the hedgehog fungus, Trichophyton erinacei, an emerging cause of human dermatophytosis.
Trichophyton erinacei is a main cause of dermatophytosis in hedgehogs and is increasingly reported from human infections worldwide. This pathogen was originally described in the European hedgehog (Erinaceus europaeus) but is also frequently found in the African four-toed hedgehog (Atelerix albiventris), a popular pet animal worldwide. Little is known about the taxonomy and population genetics of this pathogen despite its increasing importance in clinical practice. Notably, whether there are different populations or even cryptic species associated with different hosts or geographic regions is not known. To answer these questions, we collected 161 isolates, performed phylogenetic and population-genetic analyses, determined mating-type, and characterised morphology and physiology. Multigene phylogeny and microsatellite analysis supported T. erinacei as a monophyletic species, in contrast to highly incongruent single-gene phylogenies. Two main subpopulations, one specific mainly to Atelerix and second to Erinaceus hosts, were identified inside T. erinacei, and slight differences in the size of microconidia and antifungal susceptibilities were observed among them. Although the process of speciation into two lineages is ongoing in T. erinacei, there is still gene flow between these populations. Thus, we present T. erinacei as a single species, with notable intraspecies variability in genotype and phenotype. The data from wild hedgehogs indicated that sexual reproduction in T. erinacei and de novo infection of hedgehogs from soil are probably rare events and that clonal horizontal spread strongly dominates. The molecular typing approach used in this study represents a suitable tool for further epidemiological surveillance of this emerging pathogen in both animals and humans. The results of this study also highlighted the need to use a multigene phylogeny ideally in combination with other independent molecular markers to understand the species boundaries of dermatophytes. Citation: Čmoková A, Kolařík M, Guillot J, et al. 2022. Host-driven subspeciation in the hedgehog fungus, Trichophyton erinacei, an emerging cause of human dermatophytosis. Persoonia 48: 203-218. https://doi.org/10.3767/persoonia.2022.48.06.
期刊介绍:
Persoonia aspires to publish papers focusing on the molecular systematics and evolution of fungi. Additionally, it seeks to advance fungal taxonomy by employing a polythetic approach to elucidate the genuine phylogeny and relationships within the kingdom Fungi. The journal is dedicated to disseminating high-quality papers that unravel both known and novel fungal taxa at the DNA level. Moreover, it endeavors to provide fresh insights into evolutionary processes and relationships. The scope of papers considered encompasses research articles, along with topical and book reviews.