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

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作者:Bowen Emily E, Hurcombe Jennifer A, Barrington Fern, Keir Lindsay S, Farmer Louise K, Wherlock Matthew D, Ortiz-Sandoval Carolina G, Bruno Valentina, Bohorquez-Hernandez Arlette, Diatlov Daniel, Rostam-Shirazi Niyousha, Wells Sara, Stewart Michelle, Teboul Lydia, Lay Abigail C, Butler Matthew J, Pope Robert J P, Larkai Eva M S, Morgan B Paul, Moppett John, Satchell Simon C, Welsh Gavin I, Walker Patrick D, Licht Christoph, Saleem Moin A, Coward Richard J M
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).

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