Laura E. Burt scite author profile

Renal function is impaired by chronic ipsilateral partial UUO, which reduces the number of nephrons, and leads to progressive renal pelvic dilatation. Tubular atrophy and interstitial fibrosis develop prior to significant renal pelvic dilatation. Correlation of clinically measurable parameters with renal morphometry or imaging studies in this model may lead to new approaches to the management of congenital UPJ obstruction.

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Renal vascular endothelial growth factor in neonatal obstructive nephropathy. I. Endogenous VEGF

Burt

Forbes²,

Thornhill³

et al. 2007

American Journal of Physiology-Renal Physiology

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Obstructive nephropathy constitutes a major cause of renal impairment in children. Chronic unilateral ureteral obstruction (UUO) impairs maturation of the developing kidney and leads to tubular apoptosis and interstitial inflammation. Vascular endothelial growth factor (VEGF) is involved in recovery from various forms of renal injury. We questioned whether the renal expression of endogenous VEGF and its receptor (VEGFR2/Flk-1) is modified by UUO in early development. Neonatal rats were subjected to partial or complete UUO or sham operation. The distribution of immunoreactive VEGF in each kidney was examined after 7, 14, or 28 days. Adult rats were also subjected to sham operation or complete UUO. Tubular VEGF increased between 14 and 28 days in sham-operated rats and in some partially obstructed neonatal rats but decreased with complete UUO. Parallel changes were found by Western blotting, but not by RT-PCR. Immunoreactive VEGF colocalized with mitochondria in proximal and distal tubules and also appeared in type A intercalated cells, glomerular vascular endothelium, and podocytes. While neonatal microvascular renal VEGFR2 receptor staining was strongly positive regardless of UUO, staining was weak in sham-operated adults but increased following UUO. Parallel changes in VEGFR2 expression were verified by RT-PCR and Western blotting. We conclude that endogenous renal VEGF is developmentally regulated in the neonatal rat and is differentially regulated by partial and complete UUO. Following UUO in the adult, the VEGF receptor is upregulated. Endogenous VEGF may serve an adaptive role in responding to tubular injury caused by UUO and may modulate adaptation by the contralateral kidney.

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Angiotensin AT₁-receptor inhibition exacerbates renal injury resulting from partial unilateral ureteral obstruction in the neonatal rat

Coleman¹,

Minor²,

Burt³

et al. 2007

American Journal of Physiology-Renal Physiology

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Coleman CM, Minor JJ, Burt LE, Thornhill BA, Forbes MS, Chevalier RL. Angiotensin AT1-receptor inhibition exacerbates renal injury resulting from partial unilateral ureteral obstruction in the neonatal rat. Am J Physiol Renal Physiol 293: F262-F268, 2007. First published April 18, 2007; doi:10.1152/ajprenal.00071.2007.-The renin-angiotensin system is activated in the developing kidney and is necessary for normal renal development, but is further activated by unilateral ureteral obstruction (UUO). During nephrogenesis, there is a switch from a preponderance of angiotensin AT2 to AT1 receptors in the rat. We examined the renal cellular response to angiotensin II receptor inhibition in the neonatal rat subjected to partial UUO under anesthesia within 48 h of birth. Group I ("early") received saline vehicle, losartan (AT1 inhibitor), or PD-123319 (AT2 inhibitor) during the completion of nephrogenesis in the first 10 days of life. Group II ("late") received each of the three treatments throughout the subsequent 10 days of life. Kidneys were harvested at 21 days, and the distribution of renin, apoptosis, macrophages, ␣-smooth muscle actin, and collagen was determined. Losartan and PD-123319 each increased vascular renin distribution in both kidneys. Partial UUO reduced growth and increased apoptosis, macrophages, ␣-smooth muscle actin, and collagen in the obstructed kidney. Early losartan treatment further increased ␣-smooth muscle actin and collagen in the obstructed kidney and induced apoptosis, macrophages, and collagen in the contralateral kidney. Late losartan treatment had no effect on any of the parameters in either kidney, and PD-123319 had no effect on either kidney. We conclude that selective inhibition of AT1 receptors during nephrogenesis (but not during subsequent renal maturation) exacerbates injury to the obstructed kidney and also injures the contralateral kidney. These results suggest that angiotensin II receptor blockers should be avoided in the developing hydronephrotic kidney.hydronephrosis; nephrogenesis; apoptosis; ␣-smooth muscle actin; collagen CONGENITAL URINARY TRACT OBSTRUCTION is a major cause of chronic renal insufficiency in infants and children (43). Despite intrauterine diagnosis and prompt evaluation and management of the neonate, the combination of fetal urinary tract maldevelopment and the consequences of urinary obstruction on the developing kidney lead to renal injury that is present even at the time of birth. Prevention of progression of renal injury in these infants is even more critical than in older patients with renal disorders.The renin-angiotensin system (RAS) has been shown to play a significant role in the progression of virtually all renal disorders, and pharmacological inhibition of angiotensin II is a widely accepted therapy for attenuating or preventing renal deterioration. Since the RAS is activated to a greater extent neonatally than at older ages, and urinary tract obstruction itself markedly activates the RAS, the rationale for angiotensin II inhibition in this set...

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Renal vascular endothelial growth factor in neonatal obstructive nephropathy. II. Exogenous VEGF

Burt¹,

Forbes²,

Thornhill³

et al. 2007

American Journal of Physiology-Renal Physiology

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Chronic unilateral ureteral obstruction (UUO) in the neonatal rat causes delayed renal maturation, tubular apoptosis, and interstitial inflammation. Vascular endothelial growth factor (VEGF) acts as a survival factor for tubular cells and reduces renal injury in several models of renal disease. To determine whether exogenous VEGF attenuates renal injury from UUO, rats were subjected within the first 48 h of life to sham operation, partial UUO, or complete UUO. Saline vehicle or VEGF(121) (50 mg/kg) was injected twice daily for 7 days, after which kidneys were harvested for histological study. The density of peritubular capillaries was measured with platelet-endothelial cell adhesion molecule-1 immunostaining, proliferating nuclei were detected by proliferating-cell nuclear antigen staining, apoptosis by the transferase-mediated dUTP nick end-labeling technique, macrophages by ED-1 immunostaining, and collagen by Sirius red staining. Glomerular number and maturation index were also determined in each group. Following chronic complete UUO in the neonatal rat, peritubular capillary density was significantly decreased. Cortical capillary density was further reduced by exogenous VEGF in the partially obstructed kidney. While UUO also decreased glomerular number and delayed glomerular maturation, exogenous VEGF exerted no additional effects. Cellular proliferation and tubular apoptosis increased in proportion to the severity of obstruction, but exogenous VEGF had no additional effects on proliferation, tubular apoptosis, or macrophage infiltration. However, VEGF reduced interstitial apoptosis in the kidney with partial UUO. We conclude that VEGF does not have salutary effects on the renal lesions caused by chronic UUO in the neonatal rat and may actually worsen obstructive nephropathy by aggravating the interstitial lesions.

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Laura E. Burt

Variable chronic partial ureteral obstruction in the neonatal rat: A new model of ureteropelvic junction obstruction1

Renal vascular endothelial growth factor in neonatal obstructive nephropathy. I. Endogenous VEGF

Angiotensin AT₁-receptor inhibition exacerbates renal injury resulting from partial unilateral ureteral obstruction in the neonatal rat

Renal vascular endothelial growth factor in neonatal obstructive nephropathy. II. Exogenous VEGF

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