Intermittent Pili-Mediated Forces Fluidize Neisseria meningitidis Aggregates Promoting Vascular Colonization

Bonazzi Daria; Lo Schiavo Valentina; Machata Silke; Djafer-Cherif Ilyas; Nivoit Pierre; Manriquez Valeria; Tanimoto Hirokazu; Husson Julien; Henry Nelly; Chate Hugues; Voituriez Raphael; Dumenil Guillaume

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Intermittent Pili-Mediated Forces Fluidize Neisseria meningitidis Aggregates Promoting Vascular Colonization

机译：间歇性pili介导的力流化Neisseria Meningitidis促进血管结肠的聚集体

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Neisseria meningitidis, a bacterium responsible for meningitis and septicemia, proliferates and eventually fills the lumen of blood capillaries with multicellular aggregates. The impact of this aggregation process and its specific properties are unknown. We first show that aggregative properties are necessary for efficient infection and study their underlying physical mechanisms. Micropipette aspiration and single-cell tracking unravel unique features of an atypical fluidized phase, with single-cell diffusion exceeding that of isolated cells. A quantitative description of the bacterial pair interactions combined with active matter physics-based modeling show that this behavior relies on type IV pili active dynamics that mediate alternating phases of bacteria fast mutual approach, contact, and release. These peculiar fluid properties proved necessary to adjust to the geometry of capillaries upon bacterial proliferation. Intermittent attractive forces thus generate a fluidized phase that allows for efficient colonization of the blood capillary network during infection.

机译：Menisseria Meningitidis，一种负责脑膜炎和败血症的细菌，增殖，最终用多细胞聚集体填充血细胞的内腔。该聚合过程及其特定性质的影响是未知的。我们首先表明有效感染的聚集性能是必要的，并研究其潜在的物理机制。微型型特抽吸和单细胞跟踪揭开非典型流化相的独特特征，具有超细传播超过分离的细胞。细菌对相互作用的定量描述与主动性物理学的建模结合，表明这种行为依赖于介于介导细菌快速互相接触，接触和释放的交替阶段的IV型pili活性动态。这些特殊的液体性质被证明是在细菌增殖时适应毛细血管的几何形状。因此，间歇性吸引力产生流化阶段，其允许在感染期间有效地定植血液毛细血管网络。

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《Cell》 |2018年第1期|共29页
作者
Bonazzi Daria; Lo Schiavo Valentina; Machata Silke; Djafer-Cherif Ilyas; Nivoit Pierre; Manriquez Valeria; Tanimoto Hirokazu; Husson Julien; Henry Nelly; Chate Hugues; Voituriez Raphael; Dumenil Guillaume;
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作者单位

INSERM Inst Pasteur Pathogenesis Vasc Infect Unit F-75015 Paris France;

INSERM Inst Pasteur Pathogenesis Vasc Infect Unit F-75015 Paris France;

INSERM Inst Pasteur Pathogenesis Vasc Infect Unit F-75015 Paris France;

Univ Paris Saclay CNRS CEA Serv Phys Etat Condense F-91191 Gif Sur Yvette France;

INSERM Inst Pasteur Pathogenesis Vasc Infect Unit F-75015 Paris France;

INSERM Inst Pasteur Pathogenesis Vasc Infect Unit F-75015 Paris France;

Inst Jacques Monod F-75013 Paris France;

Ecole Polytech CNRS UMR7646 Lab Hydrodynam LadHyX Dept Mech F-91128 Palaiseau France;

Univ Paris 06 CNRS UMR 3231 Lab Jean Perrin F-75005 Paris France;

Univ Paris Saclay CNRS CEA Serv Phys Etat Condense F-91191 Gif Sur Yvette France;

Univ Paris 06 CNRS UMR 3231 Lab Jean Perrin F-75005 Paris France;

INSERM Inst Pasteur Pathogenesis Vasc Infect Unit F-75015 Paris France;

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正文语种 eng
中图分类细胞生物学;
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1. Intermittent Pili-Mediated Forces Fluidize Neisseria meningitidis Aggregates Promoting Vascular Colonization [J] . Bonazzi Daria, Lo Schiavo Valentina, Machata Silke, Cell . 2018,第1期

机译：间歇性pili介导的力流化Neisseria Meningitidis促进血管结肠的聚集体
2. Vascular colonization by Neisseria meningitidis [J] . Melican K., Dumenil G. Current opinion in microbiology . 2012,第1期

机译：脑膜炎奈瑟氏球菌引起的血管定植
3. Neisseria meningitidis colonization of the brain endothelium and cerebrospinal fluid invasion [J] . Florence Miller, Hervé Lécuyer, Olivier Join-Lambert, Cellular microbiology . 2013,第4期

机译：脑膜炎奈瑟菌脑血管内皮定植和脑脊液浸润
4. Effect of Expansive Additive on Mechanical Properties of High-Fluidity Ductile-Fiber-Reinforced Cementitious Composite Using Recycled Fine Aggregate [C] . Takumi ANZAI, Ken Watanabe International Ocean and Polar Engineering Conference;International Society of Offshore and Polar Engineers . 2020

机译：膨胀添加剂对高流动性延性 - 纤维增强水泥复合材料的影响，使用再生精细聚集体
5. Computational Modelling of Fluid Mechanical Forces on Vascular Endothelial Cells and Ultrasound Characterization of Vascular Network [D] . Khare, Tanmay Mohan. 2020

机译：血管内皮细胞流体机械力的计算模型及血管网络超声特性
6. Pathogenic Neisseria meningitidis utilizes CD147 for vascular colonization [O] . Sandra C Bernard, Nandi Simpson, Olivier Join-Lambert, -1

机译：脑膜炎奈瑟菌致病菌利用CD147进行血管定植
7. Neisseria meningitidis colonization of the brain endothelium and cerebrospinal fluid invasion. : N. meningitidis infection of the brain endothelium [O] . Miller, Florence, Lécuyer, Hervé, Join-Lambert, Olivier, 2012

机译：脑膜炎奈瑟氏球菌定植于脑内皮细胞并侵袭脑脊液。脑膜炎奈瑟氏球菌感染脑内皮细胞

Intermittent Pili-Mediated Forces Fluidize Neisseria meningitidis Aggregates Promoting Vascular Colonization

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