低水平病原体感染和地理位置与山地哥伦比亚斑纹蛙(Rana luteiventris)皮肤微生物群相关联

IF 4.8 Q1 MICROBIOLOGY Current Research in Microbial Sciences Pub Date : 2023-12-09 DOI:10.1016/j.crmicr.2023.100213
Philip M. Campos , Michael K. Lucid , Shannon Ehlers , Jenifer B. Walke
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引用次数: 0

摘要

两栖动物的皮肤微生物组可以影响宿主对真菌病原体水蛭壶菌(Batrachochytrium dendroatidis, Bd)的易感性,同时也有可能被Bd改变。已知严重的Bd感染会改变两栖动物的皮肤微生物组;然而,在低感染强度的两栖动物中,微生物组的相互作用知之甚少。除了疾病动力学外,环境因素也可能影响微生物组。为了测试基于病原体感染和环境因素的细菌多样性模式,在两年的时间里,在爱达荷州北部和华盛顿州东北部取样了399只哥伦比亚斑点蛙(Rana luteiventris)。在376只青蛙中测量了Bd的患病率和强度,发现患病率为69%,但感染强度普遍较低(感染青蛙的平均感染强度为127个虫孢子当量)。采用16S rRNA基因扩增子测序对92只青蛙皮肤细菌群落进行了分析。结果表明,随着感染强度的增加,香农多样性和均匀度呈下降趋势。纬度与细菌丰富度和Faith的系统发育多样性测量相关,表明北方地区的多样性增加。β多样性(UniFrac)分析显示,感染和未感染青蛙的皮肤微生物组明显不同,感染强度对微生物组组成有显著影响。Site解释了大部分微生物组的变化(加权UniFrac: 57.5%),表明当地栖息地条件的组合解释了变化,因为只有一小部分变化可以单独由年、月、温度、海拔和纬度解释。在感染和未感染的青蛙中发现具有潜在bd抑制特性的细菌属的相对丰度不同,在感染的青蛙中观察到高的窄养单胞菌和低的假单胞菌的相对丰度。进一步的研究可能表明,皮肤微生物组成员的Bd抑制是否是观察到的低感染强度背后的影响因素,以及低Bd感染强度是否能够改变皮肤微生物组组成。
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Low-level pathogen infection and geographic location correlate with the skin microbiomes of Columbia spotted frogs (Rana luteiventris) in a montane landscape

The skin microbiome of amphibians can influence host susceptibility towards the fungal pathogen Batrachochytrium dendrobatidis (Bd), while simultaneously having the potential to be altered by Bd. Severe Bd infections are known to alter the amphibian skin microbiome; however, little is known about microbiome interactions in amphibians with low infection intensity. In addition to disease dynamics, environmental factors may influence the microbiome. To test for patterns in bacterial diversity based on pathogen infection and environmental factors, 399 Columbia spotted frogs (Rana luteiventris) were sampled throughout northern Idaho and northeastern Washington across two years. Bd prevalence and intensity were measured in 376 frogs, revealing a prevalence of 69%, but generally low infection intensity (Mean = 127 Bd zoospore equivalents among infected frogs). Skin bacterial communities were characterized in 92 frogs using 16S rRNA gene amplicon sequencing. Our results indicated correlations of decreasing Shannon diversity and evenness as infection intensity increased. Latitude was correlated with bacterial richness and Faith's Phylogenetic Diversity measures, indicating increased diversity in northern locations. Beta diversity (UniFrac) analyses revealed that skin microbiomes were distinct between infected and uninfected frogs, and infection intensity had a significant effect on microbiome composition. Site explained the majority of microbiome variation (weighted UniFrac: 57.5%), suggesting a combination of local habitat conditions explain variation, as only small proportions of variation could be explained by year, month, temperature, elevation, and latitude individually. Bacterial genera with potential for Bd-inhibitory properties were found with differential relative abundance in infected and uninfected frogs, with higher Stenotrophomonas and lower Pseudomonas relative abundance observed in infected frogs. Further study may indicate if Bd inhibition by members of the skin microbiome is an influence behind the low infection intensities observed and whether low Bd infection intensities are capable of altering skin microbiome composition.

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来源期刊
Current Research in Microbial Sciences
Current Research in Microbial Sciences Immunology and Microbiology-Immunology and Microbiology (miscellaneous)
CiteScore
7.90
自引率
0.00%
发文量
81
审稿时长
66 days
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