CASI CLINICI – Case Reports
Volume:
Biochimica Clinica 2013; 37(6) 493-499
Pubblicato on-line:
DOI:
I prodotti derivati dalla carbamilazione come potenziali biomarcatori nell’insufficienza renale cronica e nell’aterosclerosi
AUTORI
1Laboratory of Pediatric Biology and Research and 2Department of Pediatrics (Nephrology Unit), American Memorial Hospital, University Hospital of Reims, France
3Laboratory of Biochemistry and Molecular Biology, Faculty of Medicine, Reims, France
Traduzione a cura di Andrea Mosca e Francesca Avemaria
ABSTRACT
Carbamylation-derived products: bioactive compounds and potential biomarkers in chronic renal failure and atherosclerosis
Carbamylation is a posttranslational modification of proteins resulting from the nonenzymatic reaction between isocyanic acid and specific free functional groups. This reaction alters protein structural and functional properties and thus contributes to molecular ageing. Many studies have shown the involvement of carbamylated proteins in diseases, especially in chronic renal failure and atherosclerosis. In this review we describe the biochemical basis of the carbamylation process and its role in protein molecular ageing. We summarize the current evidence of protein carbamylation involvement in disease, identify available biomarkers of the carbamylation process and their related analytical methods, and discuss the practical relevance of these biomarkers. Carbamylation-induced protein alterations are involved in the progression of various diseases, because carbamylation-derived products (CDPs) are bioactive compounds that trigger specific and inappropriate cellular responses. For instance, carbamylation may promote hormone and enzyme inactivation, and carbamylated proteins, as diverse as collagen or LDLs, induce characteristic biochemical events of atherosclerosis progression. CDPs are potential biomarkers to monitor diseases characterized by an increased rate of carbamylation (e.g., chronic renal failure and atherosclerosis). Different methods (e.g., liquid chromatography–tandem mass spectrometry and immunoassays) to measure specific carbamylated proteins or general markers of carbamylation, such as protein-bound homocitrulline, have been described. Their use in clinical practice must still be validated by appropriate clinical studies.
