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Review
. 2012;13(9):11288-11311.
doi: 10.3390/ijms130911288. Epub 2012 Sep 10.

Asymmetric dimethylarginine, endothelial dysfunction and renal disease

Luis Aldámiz-Echevarría  1 Fernando Andrade  1
Affiliations
Review

Asymmetric dimethylarginine, endothelial dysfunction and renal disease

Luis Aldámiz-Echevarría et al. Int J Mol Sci. 2012.

Abstract

l-Arginine (Arg) is oxidized to l-citrulline and nitric oxide (NO) by the action of endothelial nitric oxide synthase (NOS). In contrast, protein-incorporated Arg residues can be methylated with subsequent proteolysis giving rise to methylarginine compounds, such as asymmetric dimethylarginine (ADMA) that competes with Arg for binding to NOS. Most ADMA is degraded by dimethylarginine dimethyaminohydrolase (DDAH), distributed widely throughout the body and regulates ADMA levels and, therefore, NO synthesis. In recent years, several studies have suggested that increased ADMA levels are a marker of atherosclerotic change, and can be used to assess cardiovascular risk, consistent with ADMA being predominantly absorbed by endothelial cells. NO is an important messenger molecule involved in numerous biological processes, and its activity is essential to understand both pathogenic and therapeutic mechanisms in kidney disease and renal transplantation. NO production is reduced in renal patients because of their elevated ADMA levels with associated reduced DDAH activity. These factors contribute to endothelial dysfunction, oxidative stress and the progression of renal damage, but there are treatments that may effectively reduce ADMA levels in patients with kidney disease. Available data on ADMA levels in controls and renal patients, both in adults and children, also are summarized in this review.

Keywords: arginine (Arg); asymmetric dimethylarginine (ADMA); children; dimethylarginine dimethylaminohydrolase (DDAH); endothelial dysfunction; kidney; methylarginines; nitric oxide; oxidative stress; renal failure.

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Figures

Figure 1
Figure 1
Nitric oxide (NO) synthesis in vascular endothelium and its diffusion to smooth-muscle cells where soluble guanylyl cyclise (sGC) is stimulated resulting in enhanced synthesis of cyclic guanosine monophosphate (GMP).
Figure 2
Figure 2
(a) Arginine-nitric oxide metabolic pathway. The abbreviations stand for the following compounds: nitric oxide synthase (NOS), asymmetric dimethylarginine (ADMA), nitric oxide (NO), protein arginine methyltransferase (PRMT) and dimethylarginine dimethylaminohydrolase (DDAH); (b) Molecular diagram illustrating the inhibitory role of asymmetric dimethylarginine (ADMA) on nitric oxide (NO) production.
Figure 2
Figure 2
(a) Arginine-nitric oxide metabolic pathway. The abbreviations stand for the following compounds: nitric oxide synthase (NOS), asymmetric dimethylarginine (ADMA), nitric oxide (NO), protein arginine methyltransferase (PRMT) and dimethylarginine dimethylaminohydrolase (DDAH); (b) Molecular diagram illustrating the inhibitory role of asymmetric dimethylarginine (ADMA) on nitric oxide (NO) production.
Figure 3
Figure 3
Representation of the main properties and functions of normal endothelium.
See this image and copyright information in PMC

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