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Am J Physiol Renal Physiol
2023 Sep 01;3253:F328-F344. doi: 10.1152/ajprenal.00267.2022.
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IL-6 mediates the hepatic acute phase response after prerenal azotemia in a clinically defined murine model.
Okamura K
,
Lu S
,
He Z
,
Altmann C
,
Montford JR
,
Li AS
,
Lucia MS
,
Orlicky DJ
,
Weiser-Evans M
,
Faubel S
.
Abstract
Prerenal azotemia (PRA) is a major cause of acute kidney injury and uncommonly studied in preclinical models. We sought to develop and characterize a novel model of PRA that meets the clinical definition: acute loss of glomerular filtration rate (GFR) that returns to baseline with resuscitation. Adult male C57BL/6J wild-type (WT) and IL-6-/- mice were studied. Intraperitoneal furosemide (4 mg) or vehicle was administered at time = 0 and 3 h to induce PRA from volume loss. Resuscitation began at 6 h with 1 mL intraperitoneal saline for four times for 36 h. Six hours after furosemide administration, measured glomerular filtration rate was 25% of baseline and returned to baseline after saline resuscitation at 48 h. After 6 h of PRA, plasma interleukin (IL)-6 was significantly increased, kidney and liver histology were normal, kidney and liver lactate were normal, and kidney injury molecule-1 immunofluorescence was negative. There were 327 differentially regulated genes upregulated in the liver, and the acute phase response was the most significantly upregulated pathway; 84 of the upregulated genes (25%) were suppressed in IL-6-/- mice, and the acute phase response was the most significantly suppressed pathway. Significantly upregulated genes and their proteins were also investigated and included serum amyloid A2, serum amyloid A1, lipocalin 2, chemokine (C-X-C motif) ligand 1, and haptoglobin; hepatic gene expression and plasma protein levels were all increased in wild-type PRA and were all reduced in IL-6-/- PRA. This work demonstrates previously unknown systemic effects of PRA that includes IL-6-mediated upregulation of the hepatic acute phase response.NEW & NOTEWORTHY Prerenal azotemia (PRA) accounts for a third of acute kidney injury (AKI) cases yet is rarely studied in preclinical models. We developed a clinically defined murine model of prerenal azotemia characterized by a 75% decrease in measured glomerular filtration rate (GFR), return of measured glomerular filtration rate to baseline with resuscitation, and absent tubular injury. Numerous systemic effects were observed, such as increased plasma interleukin-6 (IL-6) and upregulation of the hepatic acute phase response.
Adelibieke,
Indoxyl sulfate induces IL-6 expression in vascular endothelial and smooth muscle cells through OAT3-mediated uptake and activation of AhR/NF-κB pathway.
2014, Pubmed
Adelibieke,
Indoxyl sulfate induces IL-6 expression in vascular endothelial and smooth muscle cells through OAT3-mediated uptake and activation of AhR/NF-κB pathway.
2014,
Pubmed
Ahuja,
Circulating IL-6 mediates lung injury via CXCL1 production after acute kidney injury in mice.
2012,
Pubmed
Al-Jaghbeer,
Clinical Decision Support for In-Hospital AKI.
2018,
Pubmed
Anders,
HTSeq--a Python framework to work with high-throughput sequencing data.
2015,
Pubmed
Andres-Hernando,
Cytokine production increases and cytokine clearance decreases in mice with bilateral nephrectomy.
2012,
Pubmed
Andres-Hernando,
Circulating IL-6 upregulates IL-10 production in splenic CD4+ T cells and limits acute kidney injury-induced lung inflammation.
2017,
Pubmed
Andrés-Hernando,
Splenectomy exacerbates lung injury after ischemic acute kidney injury in mice.
2011,
Pubmed
Bocci,
Interleukins. Clinical pharmacokinetics and practical implications.
1991,
Pubmed
Castell,
Plasma clearance, organ distribution and target cells of interleukin-6/hepatocyte-stimulating factor in the rat.
1988,
Pubmed
Cho,
Role of inflammation in the pathogenesis of cardiorenal syndrome in a rat myocardial infarction model.
2013,
Pubmed
Chouchani,
Ischaemic accumulation of succinate controls reperfusion injury through mitochondrial ROS.
2014,
Pubmed
D'Alessandro,
Early hemorrhage triggers metabolic responses that build up during prolonged shock.
2015,
Pubmed
Danecek,
Twelve years of SAMtools and BCFtools.
2021,
Pubmed
Dear,
Dendrimer-enhanced MRI as a diagnostic and prognostic biomarker of sepsis-induced acute renal failure in aged mice.
2005,
Pubmed
Dennen,
Urine interleukin-6 is an early biomarker of acute kidney injury in children undergoing cardiac surgery.
2010,
Pubmed
Dent,
Plasma neutrophil gelatinase-associated lipocalin predicts acute kidney injury, morbidity and mortality after pediatric cardiac surgery: a prospective uncontrolled cohort study.
2007,
Pubmed
Doi,
Mild elevation of urinary biomarkers in prerenal acute kidney injury.
2012,
Pubmed
Fox,
Metabolomics assessment reveals oxidative stress and altered energy production in the heart after ischemic acute kidney injury in mice.
2019,
Pubmed
Gruys,
Acute phase reaction and acute phase proteins.
2005,
Pubmed
Hassoun,
Ischemic acute kidney injury induces a distant organ functional and genomic response distinguishable from bilateral nephrectomy.
2007,
Pubmed
Hoke,
Acute renal failure after bilateral nephrectomy is associated with cytokine-mediated pulmonary injury.
2007,
Pubmed
Kelly,
Distant effects of experimental renal ischemia/reperfusion injury.
2003,
Pubmed
Kim,
HISAT: a fast spliced aligner with low memory requirements.
2015,
Pubmed
Kim,
Klotho and S100A8/A9 as Discriminative Markers between Pre-Renal and Intrinsic Acute Kidney Injury.
2016,
Pubmed
Klein,
Interleukin-6 mediates lung injury following ischemic acute kidney injury or bilateral nephrectomy.
2008,
Pubmed
Lanaspa,
Ketohexokinase C blockade ameliorates fructose-induced metabolic dysfunction in fructose-sensitive mice.
2018,
Pubmed
Law,
voom: Precision weights unlock linear model analysis tools for RNA-seq read counts.
2014,
Pubmed
Leaf,
Iron, Hepcidin, and Death in Human AKI.
2019,
Pubmed
Lewington,
Raising awareness of acute kidney injury: a global perspective of a silent killer.
2013,
Pubmed
Liaño,
Epidemiology of acute renal failure: a prospective, multicenter, community-based study. Madrid Acute Renal Failure Study Group.
1996,
Pubmed
Liu,
Serum interleukin-6 and interleukin-8 are early biomarkers of acute kidney injury and predict prolonged mechanical ventilation in children undergoing cardiac surgery: a case-control study.
2009,
Pubmed
Mitchell,
Hepatic necrosis caused by furosemide.
1974,
Pubmed
Monks,
Maternal obesity during lactation may protect offspring from high fat diet-induced metabolic dysfunction.
2018,
Pubmed
Muramatsu,
Early detection of cysteine rich protein 61 (CYR61, CCN1) in urine following renal ischemic reperfusion injury.
2002,
Pubmed
Nash,
Hospital-acquired renal insufficiency.
2002,
Pubmed
Nejat,
Some biomarkers of acute kidney injury are increased in pre-renal acute injury.
2012,
Pubmed
Ostermann,
Recommendations on Acute Kidney Injury Biomarkers From the Acute Disease Quality Initiative Consensus Conference: A Consensus Statement.
2020,
Pubmed
Paragas,
The Ngal reporter mouse detects the response of the kidney to injury in real time.
2011,
Pubmed
Parikh,
Postoperative biomarkers predict acute kidney injury and poor outcomes after adult cardiac surgery.
2011,
Pubmed
Park,
Paneth cell-mediated multiorgan dysfunction after acute kidney injury.
2012,
Pubmed
Roehr,
Flexbar 3.0 - SIMD and multicore parallelization.
2017,
Pubmed
Schreiber,
Transcutaneous measurement of renal function in conscious mice.
2012,
Pubmed
Shen,
Snapshots of nascent RNA reveal cell- and stimulus-specific responses to acute kidney injury.
2022,
Pubmed
Simmons,
Plasma cytokine levels predict mortality in patients with acute renal failure.
2004,
Pubmed
Skrypnyk,
IL-6-mediated hepatocyte production is the primary source of plasma and urine neutrophil gelatinase-associated lipocalin during acute kidney injury.
2020,
Pubmed
Soranno,
Matching Human Unilateral AKI, a Reverse Translational Approach to Investigate Kidney Recovery after Ischemia.
2019,
Pubmed
Takahashi,
Identification of Urinary Activin A as a Novel Biomarker Reflecting the Severity of Acute Kidney Injury.
2018,
Pubmed
Uchino,
An assessment of the RIFLE criteria for acute renal failure in hospitalized patients.
2006,
Pubmed
Uchino,
Transient azotaemia is associated with a high risk of death in hospitalized patients.
2010,
Pubmed
Walker,
Furosemide induced hepatotoxicity.
1981,
Pubmed
Wu,
clusterProfiler 4.0: A universal enrichment tool for interpreting omics data.
2021,
Pubmed
Xu,
Unique Transcriptional Programs Identify Subtypes of AKI.
2017,
Pubmed
Yu,
Aptamer-Based Proteomics Identifies Mortality-Associated Serum Biomarkers in Dialysis-Dependent AKI Patients.
2018,
Pubmed
Zager,
Quantitating the severity of proximal tubular brush border injury by a simple direct binding radioimmunoassay.
1982,
Pubmed
Zager,
Proximal tubule haptoglobin gene activation is an integral component of the acute kidney injury "stress response".
2012,
Pubmed
Zhou,
Exosomal Fetuin-A identified by proteomics: a novel urinary biomarker for detecting acute kidney injury.
2006,
Pubmed
Zuk,
Overcoming Translational Barriers in Acute Kidney Injury: A Report from an NIDDK Workshop.
2018,
Pubmed