志贺毒素通过内皮补体激活靶向足细胞，引起溶血尿毒综合征。

Shiga toxin targets the podocyte causing hemolytic uremic syndrome through endothelial complement activation.

机构信息

Bristol Renal, Bristol Medical School, University of Bristol, Bristol BS1 3NY, UK; The Hospital for Sick Children, Toronto, ON MG5 1X8, Canada; University of Manchester, Manchester M13 9PT, UK.

Bristol Renal, Bristol Medical School, University of Bristol, Bristol BS1 3NY, UK.

出版信息

Med. 2023 Nov 10;4(11):761-777.e8. doi: 10.1016/j.medj.2023.09.002. Epub 2023 Oct 19.

DOI:10.1016/j.medj.2023.09.002

PMID:37863058

Abstract

BACKGROUND

Shiga toxin (Stx)-producing Escherichia coli hemolytic uremic syndrome (STEC-HUS) is the leading cause of acute kidney injury in children, with an associated mortality of up to 5%. The mechanisms underlying STEC-HUS and why the glomerular microvasculature is so susceptible to injury following systemic Stx infection are unclear.

METHODS

Transgenic mice were engineered to express the Stx receptor (Gb3) exclusively in their kidney podocytes (Pod-Gb3) and challenged with systemic Stx. Human glomerular cell models and kidney biopsies from patients with STEC-HUS were also studied.

FINDINGS

Stx-challenged Pod-Gb3 mice developed STEC-HUS. This was mediated by a reduction in podocyte vascular endothelial growth factor A (VEGF-A), which led to loss of glomerular endothelial cell (GEnC) glycocalyx, a reduction in GEnC inhibitory complement factor H binding, and local activation of the complement pathway. Early therapeutic inhibition of the terminal complement pathway with a C5 inhibitor rescued this podocyte-driven, Stx-induced HUS phenotype.

CONCLUSIONS

This study potentially explains why systemic Stx exposure targets the glomerulus and supports the early use of terminal complement pathway inhibition in this devastating disease.

FUNDING

This work was supported by the UK Medical Research Council (MRC) (grant nos. G0901987 and MR/K010492/1) and Kidney Research UK (grant nos. TF_007_20151127, RP42/2012, and SP/FSGS1/2013). The Mary Lyon Center is part of the MRC Harwell Institute and is funded by the MRC (A410).

摘要

背景

产志贺毒素（Stx）大肠杆菌溶血性尿毒症综合征（STEC-HUS）是儿童急性肾损伤的主要原因，其相关死亡率高达 5%。STEC-HUS 的发病机制以及为什么肾小球微血管在全身性 Stx 感染后如此容易受到损伤尚不清楚。

方法

通过基因工程使小鼠的肾脏足细胞（Pod-Gb3）特异性表达 Stx 受体（Gb3），然后用全身性 Stx 进行挑战。还研究了人类肾小球细胞模型和 STEC-HUS 患者的肾脏活检。

发现

用 Stx 进行挑战的 Pod-Gb3 小鼠发生了 STEC-HUS。这是通过减少足细胞血管内皮生长因子 A（VEGF-A）介导的，导致肾小球内皮细胞（GEnC）糖萼丢失、GEnC 抑制性补体因子 H 结合减少以及补体途径的局部激活。早期用 C5 抑制剂抑制终末补体途径可挽救这种由足细胞驱动、Stx 诱导的 HUS 表型。

结论

这项研究可能解释了为什么全身性 Stx 暴露会靶向肾小球，并支持在这种毁灭性疾病中早期使用终末补体途径抑制。

资助

这项工作得到了英国医学研究理事会（MRC）（授予号 G0901987 和 MR/K010492/1）和英国肾脏研究协会（ Kidney Research UK）（授予号 TF_007_20151127、RP42/2012 和 SP/FSGS1/2013）的支持。玛丽·莱昂中心是 MRC 哈威尔研究所的一部分，由 MRC 资助（A410）。

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志贺毒素通过内皮补体激活靶向足细胞，引起溶血尿毒综合征。

Shiga toxin targets the podocyte causing hemolytic uremic syndrome through endothelial complement activation.

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

CONCLUSIONS

FUNDING

背景

方法

发现

结论

资助

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