Your search keyword '"Glomerular Hypertrophy"' showing total 3 results

1. Inverse correlation between vascular endothelial growth factor back-filtration and capillary filtration pressures

Author

Kuppe, Christoph, Rohlfs, Wilko, Grepl, Martin, Schulte, Kevin, Veron, Delma, Elger, Marlies, Sanden, Silja Kerstin, Saritas, Turgay, Andrae, Johanna, Betsholtz, Christer, Trautwein, Christian, Hausmann, Ralf, Quaggin, Susan, Bachmann, Sebastian, Kriz, Wilhelm, Tufro, Alda, Floege, Jürgen, Moeller, Marcus J., Kuppe, Christoph, Rohlfs, Wilko, Grepl, Martin, Schulte, Kevin, Veron, Delma, Elger, Marlies, Sanden, Silja Kerstin, Saritas, Turgay, Andrae, Johanna, Betsholtz, Christer, Trautwein, Christian, Hausmann, Ralf, Quaggin, Susan, Bachmann, Sebastian, Kriz, Wilhelm, Tufro, Alda, Floege, Jürgen, and Moeller, Marcus J.

Abstract

Background: Vascular endothelial growth factor A (VEGF) is an essential growth factor during glomerular development and postnatal homeostasis. VEGF is secreted in high amounts by podocytes into the primary urine, back-filtered across the glomerular capillary wall to act on endothelial cells. So far it has been assumed that VEGF back-filtration is driven at a constant rate exclusively by diffusion. Methods: In the present work, glomerular VEGF back-filtration was investigated in vivo using a novel extended model based on endothelial fenestrations as surrogate marker for local VEGF concentrations. Single nephron glomerular filtration rate (SNGFR) and/or local filtration flux were manipulated by partial renal mass ablation, tubular ablation, and in transgenic mouse models of systemic or podocytic VEGF overexpression or reduction. Results: Our study shows positive correlations between VEGF back-filtration and SNGFR as well as effective filtration rate under physiological conditions along individual glomerular capillaries in rodents and humans. Conclusion: Our results suggest that an additional force drives VEGF back-filtration, potentially regulated by SNGFR.

Published

2018

2. Glomerular hypertrophy in subjects with low nephron number: contributions of sex, body size and race

Author

Puelles,VG, Douglas-Denton,RN, Zimanyi,MA, Armitage,JA, Hughson,MD, Kerr,PG, Bertram,JF, Puelles,VG, Douglas-Denton,RN, Zimanyi,MA, Armitage,JA, Hughson,MD, Kerr,PG, and Bertram,JF

Abstract

Background. We have shown that low nephron number (Nglom) is a strong determinant of individual glomerular volume (IGV) in male Americans. However, whether the same pattern is present in female Americans remains unclear. The contributions of body surface area (BSA) and race to IGV in the context of Nglom also require further evaluation. Methods. Kidneys without overt renal disease were collected at autopsy in Mississippi, USA. The extremes of female Nglom were used to define high and low N glom for both sexes. Nglom and IGV were estimated by design-based stereology. A total of 24 African and Caucasian American females (n = 12 per race; 6 per Nglom extreme) were included. These subjects were subsequently matched to 24 comparable males by age and Nglom and to 18 additional males by age, Nglom and BSA. Results. IGV average and variance were very similar in female African and Caucasian Americans with high and low Nglom. Males with low Nglom from both races showed greater IGV average and variance than comparable females matched by age and Nglom. These differences in IGV between sexes were not observed in Caucasian Americans with low Nglom that were matched by age, Nglom and BSA. In contrast, glomeruli from African Americans were larger than those from Caucasian Americans, especially in subjects with high Nglom. Conclusions. While female Americans with low Nglom did not show glomerular hypertrophy, comparable males with low Nglom showed marked glomerular hypertrophy that was closely associated with high BSA. Glomerular size in African Americans may be confounded by multiple additional factors. © The Author 2014. Published by Oxford University Press on behalf of ERA-EDTA. All rights reserved.

Published

2014

3. C-Peptide : The missing link in diabetic nephropathy?

Author

Nordquist, Lina, Wahren, John, Nordquist, Lina, and Wahren, John

Abstract

Proinsulin C-peptide has been found to exert beneficial effects in many tissues affected by diabetic microvascular complications, including the kidneys. Glomerular hyperfiltration and microalbuminuria are early markers of diabetic nephropathy. C-peptide at physiological concentrations effectively reduces diabetes-induced glomerular hyperfiltration via constriction of the afferent arteriole, dilation of the efferent arteriole, and inhibition of tubular reabsorption in experimental models of type 1 diabetes. The glomerular hypertrophy and mesangial matrix expansion seen in early diabetes can be reduced or prevented by C-peptide administration, possibly via interference with TGF-beta1 and TNFalpha signaling. Several of C-peptide's reno-protective effects have been confirmed in human studies; reduced glomerular hyperfiltration and diminished urinary albumin excretion have been documented in type 1 diabetes patients receiving replacement doses of C-peptide for periods of up to 3 months. In this review, we critically summarize the current state of knowledge regarding C-peptide's renal effects, and discuss possible mechanisms of its beneficial effects in diabetic nephropathy.

Published

2009