a Research Group Microbial Immunology, Leibniz Institute for Natural Product Research and Infection Biology, Hans-Knöll-Institute (HKI) , Jena , Germany.
b Division of Hygiene and Medical Microbiology , Medical University of Innsbruck , Austria.
Virulence. 2017 Nov 17;8(8):1657-1667. doi: 10.1080/21505594.2017.1360460. Epub 2017 Aug 24.
Mucormycosis is a rare fungal infection; however, the number of cases increased during the last decades. The main risk factors are immunosuppression and uncontrolled diabetes mellitus. Although Lichtheimia species represent a common cause of mucormycosis in Europe, virulence and pathogenesis of this genus has not been investigated in detail yet. Using murine pulmonary infection models, we found that immunosuppression is essential for establishment of infection. The disease was characterized by necrosis, angioinvasion, thrombosis, and the lethal course of infection was associated with systemic activation of platelets. Furthermore, dissemination to internal organs was frequently observed. While the virulence potential of individual L. corymbifera and L. ramosa isolates differed, pathogenicity of both species was comparable. Although ketoacidosis promoted Rhizopus infection in mice, it did not predispose mice to infection with Lichtheimia in the absence of additional immunosuppression. This might partially explain the dominance of Rhizopus as cause of mucormycosis in countries with high prevalence of ketoacidotic patients.
毛霉病是一种罕见的真菌感染;然而,在过去几十年中,病例数量有所增加。主要的危险因素是免疫抑制和未控制的糖尿病。虽然希木龙属物种是欧洲毛霉病的常见病因,但该属的毒力和发病机制尚未详细研究。通过小鼠肺部感染模型,我们发现免疫抑制是感染建立的必要条件。该疾病的特征为坏死、血管侵袭、血栓形成,感染的致命过程与血小板的全身激活有关。此外,还经常观察到向内部器官的传播。虽然个别珊瑚状希木龙和 Ramosa 希木龙分离株的毒力潜力不同,但两种物种的致病性相当。虽然酮症酸中毒促进了根霉属在小鼠中的感染,但在没有额外免疫抑制的情况下,它不会使小鼠易感染希木龙属。这可能部分解释了在酸中毒患者高发的国家中,根霉属作为毛霉病病原体占主导地位的原因。
