权益分类	功能权益	普通用户	{{item.name}}会员
{{category.name}}	{{benefitItem.name}}

Quorum Sensing Dependent Interactions with Biofilms and Innate Immunity Defenses

群体感应与生物膜和先天免疫防御的相互作用

基本信息

批准号：
10412904
负责人：
ALEXANDER R HORSWILL
金额：
--
依托单位：
VA EASTERN COLORADO HEALTH CARE SYSTEM
依托单位国家：
美国
项目类别：
财政年份：
2015
资助国家：
美国
起止时间：
2015-07-01 至 2023-09-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10412904
关键词：
Address Adherence Adult Antibiotic Resistance Antimicrobial Resistance Biology Blood Circulation Cells Clinical Communities Defect Desiccation Development Disease Distal Environment Genus staphylococcus Healthcare Systems Hospitalization Host Defense Human Image Immune Immune Evasion Immune response Immunity Infection Infectious Skin Diseases Kinetics Life Style Lipids Medical Methicillin Microbial Biofilms Microscopy Military Personnel Modeling Molecular Genetics Monitor Mus Nasal cavity Natural Immunity Outpatients Patients Persons Play Population Research Personnel Resistance Risk Factors Rodent Role Site Skin Skin Tissue Skin colonization Soft Tissue Infections Staphylococcus aureus Staphylococcus aureus infection Structure System Systemic infection Therapeutic United States Department of Veterans Affairs Unsaturated Fatty Acids Urease Veterans Virulence Factors active duty acute infection antimicrobial peptide chronic infection commensal microbes defense response improved in vitro Model infection burden infection risk insight methicillin resistant Staphylococcus aureus mutant opportunistic pathogen pH Homeostasis pathogen prevent quorum sensing real-time images response service member single-cell RNA sequencing transcriptome sequencing

项目摘要

Staphylococcus aureus is an opportunistic pathogen that causes a broad spectrum of acute and chronic infections. Antibiotic resistance is a growing challenge and methicillin-resistant S. aureus (MRSA) infections are more difficult to treat, resulting in increased burden for both patients and healthcare systems. S. aureus causes the majority of skin infections in civilians and the military, but how this pathogen colonizes the skin is unknown. In recent microscopy studies on skin explants, S. aureus developed biofilm communities during skin colonization, and these biofilms were found to produce virulence factors under control of the agr quorum-sensing system. In our preliminary studies, we found that MRSA strains lacking agr show striking defects in skin explant colonization, and in rodent skin colonization models. Our central hypothesis is that MRSA quorum-sensing is essential for skin colonization and evasion of host defenses. Additionally, we believe quorum-sensing plays a critical role in the transition from skin to systemic infection. In Specific Aim 1, we will determine the role of quorum- sensing during MRSA skin colonization. We hypothesize that MRSA strains use agr-regulated factors to colonize the skin. To address this hypothesis, we will compare MRSA WT and ∆agr mutant strains using in vitro models of adherence and compare them in a mouse skin colonization model. We will also identify agr- regulated factors required for colonization and determine whether known biofilm factors are important. Lastly, we will perform RNAseq to obtain a broader assessment of MRSA regulated functions on skin. In Specific Aim 2, we will determine the contribution of quorum-sensing to MRSA immune evasion on the skin. We hypothesize that MRSA evades skin immunity using agr-regulated factors. Toward this end, we will determine the role of quorum-sensing in the induction and resistance to antimicrobial peptides and assess the quorum-sensing response to skin unsaturated fatty acids. We will also determine whether MRSA urease and other agr-regulated factors contribute to pH homeostasis, and we will evaluate the host skin response by single-cell RNAseq. In Specific Aim 3, we will assess the function of quorum-sensing in dissemination from colonization. We hypothesize that the MRSA quorum-sensing is required for systemic dissemination from the skin. To further investigate this mechanism, we will determine the requirement for MRSA quorum-sensing function and agr-regulated factors in skin dissemination to distal sites. We will also perform real-time imaging of infections and determine the quorum-sensing contribution to evasion of host immunity. An improved understanding of how MRSA colonizes the skin and transitions to infection could open avenues to developing therapeutic strategies for minimizing the skin infection burden.

金黄色葡萄球菌是一种条件致病菌，可引起广谱急性和慢性感染.抗生素耐药性是一个日益增长的挑战，耐甲氧西林的S。金黄色葡萄球菌（MRSA）感染是更难治疗，导致患者和医疗保健系统的负担增加。S.金黄色葡萄球菌大多数平民和军队的皮肤感染，但这种病原体如何在皮肤上定植尚不清楚。在最近对皮肤外植体的显微镜研究中，S。金黄色葡萄球菌在皮肤定殖期间形成生物膜群落，并且发现这些生物膜在AGR群体感应系统的控制下产生毒力因子。在我们的初步研究发现，缺乏agr的MRSA菌株在皮肤外植体定殖中显示出显著的缺陷，和啮齿动物皮肤定殖模型中。我们的中心假设是MRSA群体感应是必不可少的皮肤定植和逃避宿主防御。此外，我们相信群体感应在在从皮肤到全身感染的转变中起作用。在具体目标1中，我们将确定法定人数的作用- 在MRSA皮肤定殖期间感测。我们假设MRSA菌株使用agr调节因子，殖民皮肤。为了解决这一假设，我们将比较MRSA WT和Escheragr突变株，粘附的体外模型，并在小鼠皮肤定植模型中比较它们。我们还将确定agr- 调节定植所需的因子，并确定已知的生物膜因子是否重要。最后，我们将进行RNAseq以获得对皮肤上MRSA调节功能的更广泛评估。具体目标 2，我们将确定群体感应对皮肤上MRSA免疫逃避的贡献。我们假设 MRSA利用agr调节因子逃避皮肤免疫。为此，我们将确定群体感应在抗菌肽诱导和耐药性中的作用，并评估群体感应对皮肤不饱和脂肪酸的反应。我们还将确定是否MRSA尿素酶和其他agr调节这些因素有助于pH稳态，我们将通过单细胞RNAseq评估宿主皮肤反应。在具体目标3，我们将评估群体感应在殖民传播中的作用。我们假设MRSA群体感应是从皮肤全身传播所必需的。到进一步研究这种机制，我们将确定MRSA群体感应功能的要求， agr调节因子在皮肤播散到远端部位中的作用我们还将对感染进行实时成像并确定群体感应对逃避宿主免疫的贡献。更好地理解 MRSA在皮肤上定植并转化为感染可能为开发治疗策略开辟道路以最小化皮肤感染负担。