Carbamoylation of amino acids and proteins in uremia

Carbamoylation of amino acids and proteins in uremia. Cyanate spontaneously transformed from urea increases as renal function decreased. Acting as a potential toxin, the active form of cyanate, isocyanic acid, carbamoylates amino acids, proteins, and other molecules, changing their structure, charge, and function. The resulting in vivo carbamoylation can modify the molecular activity of enzymes, cofactors, hormones, low-density lipoproteins, antibodies, receptors, and transport proteins. Antibodies specific for ε-amino-carbamoyl-lysine (homocitrulline) located carbamoylated proteins in situ in neutrophils, monocytes, and erythrocytes. Carbamoylated proteins were found in renal tissue from uremic patients but not in normal transplanted kidneys. The irreversible reaction with cyanate converts free amino acids (F-AAs) to carbamoyl-amino acids (C-AAs). The Carbamoylation Index (CI), C-AA/F-AA, quantifies the decrease of the F-AA pool for each essential amino acid. C-AAs contribute, in part, to malnutrition of uremia. C-AAs interfered with protein synthesis to lower14C hemoglobin synthesis in human reticulocytes and osteocalcin synthesis in rat osteosarcoma-derived tissue culture. Insulin-sensitive glucose uptake was decreased 33% in cultured rat adipocytes by α-amino-carbamoyl-asparagine. ε-Amino carbamoylation occurs primarily in F-AA, while e-amino carbamoylation of lysine in protein occurs continuously during the protein life span. Protein catabolism releases ε-amino-carbamoyl-lysine. Quantitation of α versus ε carbamoylation may yield a more sensitive measurement of protein intake versus protein catabolism, and could be useful in decisions concerning the time to initiate dialysis or subsequent changes in dialysis prescription. Carbamoylated molecules can block, enhance, or be excluded from metabolic pathways, thereby influencing the fate of noncarbamoylated molecules. Although not an “all-or-none” phenomenon, urea-derived cyanate and its actions are contributing causes of toxicity in uremia.