Angiotensin II-dependent persistent podocyte loss from destabilized glomeruli causes progression of end stage kidney disease

Angiotensin II-dependent persistent podocyte loss from destabilized glomeruli causes progression of end stage kidney disease

Podocyte depletion is a major mechanism driving glomerulosclerosis. Progression is the process by which progressive glomerulosclerosis leads to end stage kidney disease (ESKD). In order to determine mechanisms contributing to persistent podocyte loss, we used a human diphtheria toxin transgenic rat...

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Veröffentlicht in:Kidney international 2012-01, Vol.81 (1), p.40-55
Hauptverfasser: Fukuda, Akihiro, Wickman, Larysa T., Venkatareddy, Madhusudan P., Sato, Yuji, Chowdhury, Mahboob A., Wang, Su Q., Shedden, Kerby A., Dysko, Robert C., Wiggins, Jocelyn E., Wiggins, Roger C.
Format: Artikel
Sprache:eng
Schlagworte:
Angiotensin II - antagonists & inhibitors
Angiotensin II - metabolism
Animals
Antihypertensive Agents - pharmacology
Biological and medical sciences
Disease Models, Animal
Glomerulonephritis
glomerulosclerosis
Humans
Intracellular Signaling Peptides and Proteins - genetics
Kidney Failure, Chronic - drug therapy
Kidney Failure, Chronic - genetics
Kidney Failure, Chronic - metabolism
Kidney Failure, Chronic - pathology
Kidney Glomerulus - metabolism
Kidney Glomerulus - pathology
Male
Medical sciences
Membrane Proteins - genetics
Nephrology. Urinary tract diseases
Nephropathies. Renovascular diseases. Renal failure
podocyte
Podocytes - drug effects
Podocytes - metabolism
Podocytes - pathology
proteinuria
Rats
Rats, Inbred F344
Rats, Sprague-Dawley
Rats, Transgenic
renin–angiotensin system
RNA, Messenger - genetics
RNA, Messenger - metabolism
Urinary system involvement in other diseases. Miscellaneous
Urinary tract. Prostate gland
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Zusammenfassung:Podocyte depletion is a major mechanism driving glomerulosclerosis. Progression is the process by which progressive glomerulosclerosis leads to end stage kidney disease (ESKD). In order to determine mechanisms contributing to persistent podocyte loss, we used a human diphtheria toxin transgenic rat model. After initial diphtheria toxin-induced podocyte injury (over 30% loss in 4 weeks), glomeruli became destabilized, resulting in continued autonomous podocyte loss causing global podocyte depletion (ESKD) by 13 weeks. This was monitored by urine mRNA analysis and by quantitating podocytes in glomeruli. Similar patterns of podocyte depletion were found in the puromycin aminonucleoside and 5/6 nephrectomy rat models of progressive end-stage disease. Angiotensin II blockade (combined enalapril and losartan) restabilized the glomeruli, and prevented continuous podocyte loss and progression to ESKD. Discontinuing angiotensin II blockade resulted in recurrent glomerular destabilization, podocyte loss, and progression to ESKD. Reduction in blood pressure alone did not reduce proteinuria or prevent podocyte loss from destabilized glomeruli. The protective effect of angiotensin II blockade was entirely accounted for by reduced podocyte loss. Thus, an initiating event resulting in a critical degree of podocyte depletion can destabilize glomeruli and initiate a superimposed angiotensin II-dependent podocyte loss process that accelerates progression resulting in eventual global podocyte depletion and ESKD. These events can be monitored noninvasively in real-time through urine mRNA assays.
ISSN:0085-2538
1523-1755
DOI:10.1038/ki.2011.306