S5.3b Fungal spores: Initiators of colonization and infection

IF 1.4 Q4 MYCOLOGY

Medical mycology journal Pub Date : 2022-09-01 DOI:10.1093/mmy/myac072.S5.3b

Tim J. H. Baltussen, Tom van den Brule, J. Dijksterhuis

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引用次数: 0

Abstract

Abstract S5.3 Cellular pleomorphism and fungal virulence, September 22, 2022, 3:00 PM - 4:30 PM Fungi produce asexual and sexual spores for reproduction and distribution, which can be both in space and time. Distribution in space occurs, by air movement, but also, by water or other vectors such as living organisms. Filamentous fungi from the division Ascomycota that belong to the order Eurotiales produce asexual spores called conidia. Conidia are moderately stress-tolerant cells and are able to survive unfavorable conditions such as thermal stress, dehydration, osmotic pressure, oxidative stress, variations in pH, and UV. For example, conidia of the fungus Penicillium chrysogenum are isolated worldwide and must be regarded as cosmopolitan. In many cases, conidia might ‘land’ closely to the location of production, but still many spores making into the higher air layers. There is indirect evidence that spores may be able to travel large distances through the air. For example, Aspergillus sydowii conidia have been suggested to travel over thousands of kilometers from the Sahara Desert to the Caribbean reefs. Distribution in time is occurring as stress-resistant cells remain dormant at one location for an extended period, awaiting conditions that are more favorable for growth. Some ascospores (sexual spores) are extremely stress-resistant and dormant for very long periods. Other species show extended dormancy in a dried state. As microbial species are inherently variable, stress resistance varies between strains from the same species. For example, conidial heat resistance (D60) of various strains of the fungus Paecilomyces variotii ranged between 3.5 to 27.6 min. This intraspecific variation could have profound consequences on diagnostics, virulence, and antifungal treatment in clinical settings. For conidial germination in most filamentous fungi, the presence of nutrients such as inorganic salts, sugars, and amino acids is required. The swelling phase of conidia is also called isotropic growth. Swollen conidia direct the growth to one side of the cell to grow in a polarized fashion, which leads to the formation of a germ tube (polarized growth). There is a notable drop in stress resistance during isotropic and polarized growth and genes expressed during these stages might represent novel targets for fungal infection.

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S5.3b真菌孢子:定植和感染的启动者

摘要S5.3细胞多形性和真菌毒力，September 22, 2022, 3:00 - 4:30 PM真菌产生无性和有性孢子进行繁殖和分布，这在空间和时间上都是可以的。通过空气运动，但也通过水或其他媒介，如生物体，在空间中分布。子囊菌纲的丝状真菌产生无性孢子，称为分生孢子。分生孢子是中等抗逆性细胞，能够在热应激、脱水、渗透压、氧化应激、pH值变化和紫外线等不利条件下生存。例如，真菌青霉菌(Penicillium chrysogenum)的分生孢子在世界范围内被分离，必须被视为世界性的。在许多情况下，分生孢子可能“降落”在靠近生产地点的地方，但仍然有许多孢子进入更高的空气层。有间接证据表明，孢子可以通过空气传播很远的距离。例如，sydowii分生孢子曲霉(Aspergillus sydowii conidia)被认为从撒哈拉沙漠到加勒比海珊瑚礁旅行了数千公里。当抗压力细胞在一个地方长时间休眠，等待更有利于生长的条件时，时间分布就发生了。有些子囊孢子(性孢子)具有极强的抗逆性，休眠时间很长。其他种类在干燥状态下表现出长时间的休眠。由于微生物物种本身是可变的，同一物种的菌株之间的抗逆性也不同。例如，多种拟青霉的分生孢子耐热性(D60)在3.5至27.6分钟之间。这种种内变异可能对临床诊断、毒力和抗真菌治疗产生深远影响。对于大多数丝状真菌的分生孢子萌发，需要无机盐、糖和氨基酸等营养物质的存在。分生孢子的膨胀期也称为各向同性生长。肿胀的分生孢子引导生长到细胞的一侧，以极化的方式生长，从而形成胚管(极化生长)。在各向同性和极化生长期间，抗逆性显著下降，在这些阶段表达的基因可能是真菌感染的新靶点。

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来源期刊

Medical mycology journal Medicine-Infectious Diseases

CiteScore

1.80

自引率

10.00%

发文量

期刊介绍： The Medical Mycology Journal is published by and is the official organ of the Japanese Society for Medical Mycology. The Journal publishes original papers, reviews, and brief reports on topics related to medical and veterinary mycology.