Direct acute tubular damage contributes to Shigatoxin-mediated kidney failure

The pathogenesis and therapy of Shigatoxin 2 (Stx2)‐mediated kidney failure remain controversial. Our aim was to test whether, during an infection with Stx2‐producing E. coli (STEC), Stx2 exerts direct effects on renal tubular epithelium and thereby possibly contributes to acute renal failure. Mice...

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Bibliographic Details
Published in:The Journal of pathology 2014-09, Vol.234 (1), p.120-133
Main Authors: Porubsky, Stefan, Federico, Giuseppina, Müthing, Johannes, Jennemann, Richard, Gretz, Norbert, Büttner, Stefan, Obermüller, Nicholas, Jung, Oliver, Hauser, Ingeborg A, Gröne, Elisabeth, Geiger, Helmut, Gröne, Hermann-Josef, Betz, Christoph
Format: Article
Language:English
Subjects:
Acute Kidney Injury - microbiology
Acute Kidney Injury - pathology
Acute Kidney Injury - therapy
acute renal failure
acute tubular damage
Adult
Animals
Biopsy
CD77
Cell Line
Cohort Studies
Creatinine - metabolism
Disease Models, Animal
electron microscopy
Epithelium - microbiology
Epithelium - pathology
Escherichia coli Infections - microbiology
Escherichia coli Infections - pathology
Escherichia coli Infections - therapy
Female
globoside (Gb3
globoside (Gb3, CD77)
Globosides - metabolism
Humans
Kidney Tubules - microbiology
Kidney Tubules - pathology
Male
Mice
Mice, Inbred C57BL
Original Papers
Shiga Toxin 2 - genetics
Shiga Toxin 2 - metabolism
Shiga-Toxigenic Escherichia coli - pathogenicity
Shigatoxin
Shigatoxin-producing Escherichia coli (STEC)
Thrombotic Microangiopathies
thrombotic microangiopathy
Treatment Outcome
Young Adult
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Summary:The pathogenesis and therapy of Shigatoxin 2 (Stx2)‐mediated kidney failure remain controversial. Our aim was to test whether, during an infection with Stx2‐producing E. coli (STEC), Stx2 exerts direct effects on renal tubular epithelium and thereby possibly contributes to acute renal failure. Mice represent a suitable model because they, like humans, express the Stx2‐receptor Gb3 in the tubular epithelium but, in contrast to humans, not in glomerular endothelia, and are thus free of glomerular thrombotic microangiopathy (TMA). In wild‐type mice, Stx2 caused acute tubular dysfunction with consequent electrolyte disturbance, which was most likely the cause of death. Tubule‐specific depletion of Gb3 protected the mice from acute renal failure. In vitro, Stx2 induced secretion of proinflammatory cytokines and apoptosis in human tubular epithelial cells, thus implicating a direct effect of Stx2 on the tubular epithelium. To correlate these results to human disease, kidney biopsies and outcome were analysed in patients with Stx2‐associated kidney failure (n = 11, aged 22–44 years). The majority of kidney biopsies showed different stages of an ongoing TMA; however, no glomerular complement activation could be demonstrated. All biopsies, including those without TMA, showed severe acute tubular damage. Due to these findings, patients were treated with supportive therapy without complement‐inhibiting antibodies (eculizumab) or immunoadsorption. Despite the severity of the initial disease [creatinine 6.34 (1.31–17.60) mg/dl, lactate dehydrogenase 1944 (753–2792) U/l, platelets 33 (19–124)/nl and haemoglobin 6.2 (5.2–7.8) g/dl; median (range)], all patients were discharged after 33 (range 19–43) days with no neurological symptoms and no dialysis requirement [creatinine 1.39 (range 0.84–2.86) mg/dl]. The creatinine decreased further to 0.90 (range 0.66–1.27) mg/dl after 24 months. Based on these data, one may surmise that acute tubular damage represents a separate pathophysiological mechanism, importantly contributing to Stx2‐mediated acute kidney failure. Specifically in young adults, an excellent outcome can be achieved by supportive therapy only. © 2014 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland.
ISSN:0022-3417
1096-9896
DOI:10.1002/path.4388