Organic Matrix Derived from Host–Microbe Interplay Contributes to Pathological Renal Biomineralization

IF 4.8 Q2 NANOSCIENCE & NANOTECHNOLOGY
Yushi Bai, Yongmei Wang, Misun Kang, Claire M. Gabe, Sudarshan Srirangapatanam, Austin Edwards, Marshall Stoller, Stefan J. Green, Shaul Aloni, Nobumichi Tamura, Elia Beniash, Markus Hardt and Sunita P. Ho*, 
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Abstract

Matrix stones are a rare form of kidney stones. They feature a high percentage of hydrogel-like organic matter, and their formation is closely associated with urinary tract infections. Herein, comprehensive materials and biochemical approaches were taken to map the organic–inorganic interface and gather insights into the host–microbe interplay in pathological renal biomineralization. Surgically extracted soft and slimy matrix stones were examined using micro-X-ray computed tomography and various microspectroscopy techniques. Higher-mineral-density laminae were positive for calcium-bound Alizarin red. Lower-mineral-density laminae revealed periodic acid-Schiff-positive organic filamentous networks of varied thickness. These organic filamentous networks, which featured a high polysaccharide content, were enriched with zinc, carbon, and sulfur elements. Neutrophil extracellular traps (NETs) along with immune response-related proteins, including calprotectin, myeloperoxidase, CD63, and CD86, also were identified in the filamentous networks. Expressions of NETs and upregulation of polysaccharide-rich mucin secretion are proposed as a part of the host immune defense to “trap” pathogens. These host−microbe derived organic matrices can facilitate heterogeneous nucleation and precipitation of inorganic particulates, resulting in macroscale aggregates known as “matrix stones”. These insights into the plausible aggregation of constituents through host–microbe interplay underscore the unique “double-edged sword” effect of the host immune response to pathogens and the resulting renal biominerals.

Abstract Image

来源于宿主-微生物相互作用的有机基质有助于病理肾生物矿化
基质结石是一种罕见的肾结石。它们具有高比例的水凝胶状有机物,其形成与尿路感染密切相关。在此,我们采用了综合材料和生物化学方法来绘制有机-无机界面图,并深入了解病理性肾脏生物矿化中宿主-微生物的相互作用。使用X射线计算机断层扫描和各种显微光谱技术对外科提取的软质和黏液基质结石进行检查。矿物密度较高的薄片对钙结合的茜素红呈阳性。矿物密度较低的薄片显示不同厚度的周期性酸席夫阳性有机丝状网络。这些具有高多糖含量的有机丝状网络富含锌、碳和硫元素。在丝状网络中还发现了中性粒细胞外陷阱(NETs)以及免疫反应相关蛋白,包括钙卫蛋白、髓过氧化物酶、CD63和CD86。NET的表达和富含多糖的粘蛋白分泌的上调被认为是宿主“捕获”病原体的免疫防御的一部分。这些宿主微生物衍生的有机基质可以促进无机颗粒的非均匀成核和沉淀,从而产生被称为“基质石”的宏观聚集体。这些通过宿主-微生物相互作用对成分可能聚集的见解强调了宿主对病原体的免疫反应以及由此产生的肾脏生物矿化的独特“双刃剑”效应。
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来源期刊
ACS Nanoscience Au
ACS Nanoscience Au 材料科学、纳米科学-
CiteScore
4.20
自引率
0.00%
发文量
0
期刊介绍: ACS Nanoscience Au is an open access journal that publishes original fundamental and applied research on nanoscience and nanotechnology research at the interfaces of chemistry biology medicine materials science physics and engineering.The journal publishes short letters comprehensive articles reviews and perspectives on all aspects of nanoscience and nanotechnology:synthesis assembly characterization theory modeling and simulation of nanostructures nanomaterials and nanoscale devicesdesign fabrication and applications of organic inorganic polymer hybrid and biological nanostructuresexperimental and theoretical studies of nanoscale chemical physical and biological phenomenamethods and tools for nanoscience and nanotechnologyself- and directed-assemblyzero- one- and two-dimensional materialsnanostructures and nano-engineered devices with advanced performancenanobiotechnologynanomedicine and nanotoxicologyACS Nanoscience Au also publishes original experimental and theoretical research of an applied nature that integrates knowledge in the areas of materials engineering physics bioscience and chemistry into important applications of nanomaterials.
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