极地竞赛：高纵横比形状和异质环境如何限制巨噬细胞吞噬丝状大肠杆菌。

The race to the pole: how high-aspect ratio shape and heterogeneous environments limit phagocytosis of filamentous Escherichia coli bacteria by macrophages.

机构信息

Laboratory for Biologically Oriented Materials, Department of Health Sciences and Technology, ETH Zurich, CH-8093 Zurich, Switzerland.

出版信息

Nano Lett. 2012 Jun 13;12(6):2901-5. doi: 10.1021/nl3004896. Epub 2012 May 31.

DOI:10.1021/nl3004896

PMID:22591454

Abstract

While bioengineers ask how the shape of diagnostic and therapeutic particles impacts their pharmacological efficiency, biodistribution, and toxicity, microbiologists suggested that morphological adaptations enable pathogens to perhaps evade the immune response. Here, a shape-dependent process is described that limits phagocytosis of filamentous Escherichia coli bacteria by macrophages: successful uptake requires access to one of the terminal bacterial filament poles. By exploiting micropatterned surfaces, we further demonstrate that microenvironmental heterogeneities can slow or inhibit phagocytosis. A comparison to existing literature reveals a common shape-controlled uptake mechanism for both high-aspect ratio filamentous bacteria and engineered particles.

摘要

当生物工程师们在探讨诊断和治疗颗粒的形状如何影响其药理效率、生物分布和毒性时，微生物学家则提出形态适应使病原体能够逃避免疫反应。在这里，描述了一个依赖形状的过程，该过程限制了巨噬细胞对丝状大肠杆菌的吞噬作用：成功摄取需要接触到细菌丝状末端的一个杆。通过利用微图案化表面，我们进一步证明了微环境的异质性可以减缓或抑制吞噬作用。与现有文献的比较揭示了高宽比丝状细菌和工程颗粒的共同形状控制摄取机制。

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极地竞赛：高纵横比形状和异质环境如何限制巨噬细胞吞噬丝状大肠杆菌。

The race to the pole: how high-aspect ratio shape and heterogeneous environments limit phagocytosis of filamentous Escherichia coli bacteria by macrophages.

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极地竞赛：高纵横比形状和异质环境如何限制巨噬细胞吞噬丝状大肠杆菌。

The race to the pole: how high-aspect ratio shape and heterogeneous environments limit phagocytosis of filamentous Escherichia coli bacteria by macrophages.

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