Nephrologists possess few treatments to prevent chronic glomerular disease from progressing to renal failure. The limited efficacy of these treatments prompts continuing efforts to identify the mechanisms responsible for disease progression. In chronic glomerular disease, the role of progression is strongly correlated with the amount of proteinuria. Recent studies have suggested that proteinuria causes tubular and then interstitial injury. The goal of the proposed studies is to better understand the mechanisms by which increasing glomerular protein filtration effects the tubule. Understanding of these mechanisms should ultimately facilitate design of therapies to slow renal disease progression.
The first aim i s to assess the effect of increased protein filtration on proximal tubule endocytic function. Filtered proteins are taken up into tubule cells by endocytosis. Endocytic function, however, has not been studied in proteinuric animals. The proposed studies will employ morphometric techniques to determine whether the tubule responds to increased glomerular protein filtration by increasing the rate of endocytic membrane cycling. Additional studies will examine the effect of increased protein filtration on key molecular components of the endocytic apparatus.
The second aim i s to examine whether tubular injury can be limited by blocking endocytosis of filtered proteins. At present, pharmacologic therapies to block endocytosis are not available. Studies to test the contribution of endocytosis in tubular injury will therefore be carried out in mice. The development of renal disease will be assessed in recently developed mouse strains in which tubular protein endocytosis has been reduced by gene knockouts.
The third aim i s to determine whether interstitial inflammation exacerbates tubular injury initiated by increased protein filtration. Tubular injury in proteinuric renal disease is invariably accompanied by interstitial infiltration of T cells and macrophages. The proposed studies will determine whether blocking chemokine signals responsible for cellular infiltration reduces the extent of tubular injury and interstitial fibrosis. These studies, like those of endocytosis, will employ knockout mice to assess the importance of potential mediators of injury which are not yet subject to pharmacologic manipulation.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK052841-07
Application #
6745532
Study Section
General Medicine B Study Section (GMB)
Program Officer
Flessner, Michael Francis
Project Start
1997-09-01
Project End
2007-03-31
Budget Start
2004-04-01
Budget End
2005-03-31
Support Year
7
Fiscal Year
2004
Total Cost
$185,292
Indirect Cost
Name
Stanford University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
009214214
City
Stanford
State
CA
Country
United States
Zip Code
94305
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Rudnicki, Michael; Eder, Susanne; Schratzberger, Gabriele et al. (2004) Reliability of t7-based mRNA linear amplification validated by gene expression analysis of human kidney cells using cDNA microarrays. Nephron Exp Nephrol 97:e86-95
Meyer, Timothy W (2003) Tubular injury in glomerular disease. Kidney Int 63:774-87
Rasch, Ruth; Nyengaard, Jens R; Marcussen, Niels et al. (2002) Renal structural abnormalities following recovery from acute puromycin nephrosis. Kidney Int 62:496-506
Mackie, Fiona E; Meyer, Timothy W; Campbell, Duncan J (2002) Effects of antihypertensive therapy on intrarenal angiotensin and bradykinin levels in experimental renal insufficiency. Kidney Int 61:555-63
Javaid, B; Olson, J L; Meyer, T W (2001) Glomerular injury and tubular loss in adriamycin nephrosis. J Am Soc Nephrol 12:1391-400
Mackie, F E; Campbell, D J; Meyer, T W (2001) Intrarenal angiotensin and bradykinin peptide levels in the remnant kidney model of renal insufficiency. Kidney Int 59:1458-65

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