S9.4c不同的环境输入介导白色念珠菌细胞表面β-葡聚糖暴露的变化，从而影响全身感染期间的组织定植

IF 1.4 Q4 MYCOLOGY

Medical mycology journal Pub Date : 2022-09-01 DOI:10.1093/mmy/myac072.S9.4c

A. Pradhan, Qinxi Ma, Emer Hickey, G. Avelar, D. Larcombe, J. Bain, Delma S. Childers, I. Dambuza, I. Leaves, L. J. de Assis, M. Netea, Gordon D. Brown, L. Erwig, N. Gow, A. J. Brown

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引用次数: 0

摘要

摘要/ Abstract摘要:白色念珠菌对宿主生态位的适应影响其细胞表面关键病原体相关分子模式(PAMPs)的暴露，从而影响免疫系统对白色念珠菌细胞的检测。以β-(1,3)-葡聚糖为重点，我们筛选了影响这种免疫刺激PAMP在白色念珠菌细胞表面暴露的宿主输入。我们使用了荧光显微镜、流式细胞术和细胞因子检测的组合，然后使用透射电子显微镜和延时视频显微镜更详细地分析了白色念珠菌与吞噬细胞相互作用的某些条件。我们发现，某些营养物质、微量营养素限制、应激和抗真菌药物会触发β-葡聚糖掩膜，而其他输入，如氮源和群体感应分子，对β-葡聚糖暴露的影响有限。特别是，宿主或细菌来源的l-乳酸、缺氧或铁限制会诱导β-葡聚糖掩蔽，从而导致吞噬反应的衰减[Nature Micro, 16 238;mBio 9, e01318-18;自然通讯，10,53[15]。乳酸信号通过Gpr1以钙调磷酸酶不依赖的方式激活Crz1，而缺氧信号通过线粒体ROS，铁限制信号通过Ftr1和Sef1。β-葡聚糖掩蔽也依赖于通过cAMP-PKA途径的下游信号传导。我们得出结论，白色念珠菌已经进化到利用一系列特定的宿主来源的信号来调节主要PAMP在其细胞表面的暴露，以试图逃避吞噬。利用条形码测序在体内直接竞争分析中，我们发现对特定β-葡聚糖掩蔽信号的预适应会影响该真菌在小鼠模型中全身感染期间定植特定组织的能力。这加强了β-葡聚糖掩蔽促进白色念珠菌感染的观点。

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S9.4c Diverse environmental inputs mediate changes in β-glucan exposure at the Candida albicans cell surface thereby influencing tissue colonisation during systemic infection

Abstract S9.4 Free oral presentations (late breaking), September 23, 2022, 4:45 PM - 6:15 PM Candida albicans adaptation to host niches affects the exposure of key pathogen-associated molecular patterns (PAMPs) on its cell surface and, consequently, the detection of C. albicans cells by the immune system. Focusing on β-(1,3)-glucan, we screened for host inputs that influence the exposure of this immune-stimulatory PAMP on the C. albicans cell surface. We used a combination of fluorescent microscopy, flow cytometry, and cytokine assays, and then analyzed certain conditions in more detail using transmission electron microscopy and time-lapse video microscopy of C. albicans-phagocyte interactions. We found that some nutrients, micronutrient limitation, stresses, and antifungal drugs trigger β-glucan masking, whereas other inputs, such as nitrogen sources and quorum sensing molecules, exert limited effects on β-glucan exposure. In particular, host- or bacterial-derived L-lactate, hypoxia, or iron limitation induce β-glucan masking, and this leads to attenuation of phagocytic responses [Nature Micro 2, 16 238; mBio 9, e01318-18; Nature Comms 10, 5315]. Lactate signals through Gpr1 to activate Crz1 in a calcineurin-independent manner, whereas hypoxia signals via mitochondrial ROS, and iron limitation signals through Ftr1 and Sef1. β-glucan masking also depends upon downstream signaling via the cAMP-PKA pathway. We conclude that C. albicans has evolved to exploit a range of specific host-derived signals to modulate the exposure of a major PAMP at its cell surface in an attempt to evade phagocytic uptake. Using barcode-sequencing in direct competition assays in vivo, we showed that preadaptation to specific β-glucan masking signals affects the ability of this fungus to colonize particular tissues during systemic infection in a murine model. This reinforces the view that β-glucan masking promotes C. albicans infection.

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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.