Impaired EphA4 signaling leads to congenital hydronephrosis, renal injury, and hypertension

Experimental hydronephrosis induced by partial ureteral obstruction at 3 wk of age causes hypertension and renal impairment in adult rats and mice. Signaling by Ephrin receptors (Eph) and their ligands (ephrins) importantly regulates embryonic development. Genetically modified mice, where the cytopl...

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Bibliographic Details
Published in:American journal of physiology. Renal physiology 2013-07, Vol.305 (1), p.F71-F79
Main Authors: Sällström, Johan, Peuckert, Christiane, Gao, Xiang, Larsson, Erik, Nilsson, Anders, Jensen, Boye L, Onozato, Maristela L, Persson, A Erik G, Kullander, Klas, Carlström, Mattias
Format: Article
Language:English
Subjects:
Animals
Blood Pressure
Blood Pressure Monitoring, Ambulatory - methods
Cytoplasm
Disease Models, Animal
Disease Progression
ephrin
Female
Fibrosis
gene modified mice
Glomerular Filtration Rate
human disorder
Hydronephrosis - diagnosis
Hydronephrosis - enzymology
Hydronephrosis - genetics
Hydronephrosis - pathology
Hydronephrosis - physiopathology
Hypertension
Hypertension - diagnosis
Hypertension - enzymology
Hypertension - genetics
Hypertension - pathology
Hypertension - physiopathology
Kidney - blood supply
Kidney - enzymology
Kidney - pathology
Kidney - physiopathology
Kidney diseases
Male
Medicin och hälsovetenskap
Mice
Mice, Inbred C57BL
Mice, Knockout
Morphology
receptor
Receptor, EphA4 - genetics
Receptor, EphA4 - metabolism
Renal Plasma Flow
Renin - blood
Rodents
Signal Transduction
Sodium Chloride, Dietary - administration & dosage
Telemetry
Ultrasonography, Doppler
Ureter - enzymology
Ureter - pathology
ureteral obstruction
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Summary:Experimental hydronephrosis induced by partial ureteral obstruction at 3 wk of age causes hypertension and renal impairment in adult rats and mice. Signaling by Ephrin receptors (Eph) and their ligands (ephrins) importantly regulates embryonic development. Genetically modified mice, where the cytoplasmic domain of the EphA4 receptor has been substituted by enhanced green fluorescent protein (EphA4gf/gf), develop spontaneous hydronephrosis and provide a model for further studies of the disorder. The present study aimed to determine if animals with congenital hydronephrosis develop hypertension and renal injuries, similar to that of experimental hydronephrosis. Ultrasound and Doppler techniques were used to visualize renal impairment in the adult mice. Telemetric blood pressure measurements were performed in EphA4gf/gf mice and littermate controls (EphA4+/+) during normal (0.7% NaCl)- and high (4% NaCl)-sodium conditions. Renal excretion, renal plasma flow, and glomerular filtration were studied, and histology and morphology of the kidneys and ureters were performed. EphA4gf/gf mice developed variable degrees of hydronephrosis that correlated with their blood pressure level. In contrast to EphA4+/+, the EphA4gf/gf mice displayed salt-sensitive hypertension, reduced urine concentrating ability, reduced renal plasma flow, and lower glomerular filtration rate. Kidneys from EphA4gf/gf mice showed increased renal injuries, as evidenced by fibrosis, inflammation, and glomerular and tubular changes. In conclusion, congenital hydronephrosis causes hypertension and renal damage, similar to that observed in experimentally induced hydronephrosis. This study further reinforces the supposed causal link between hydronephrosis and later development of hypertension in humans.
ISSN:1931-857X
1522-1466
1522-1466
DOI:10.1152/ajprenal.00694.2012