1.
Advanced glycation end products derived from serum albumin modification by glucose (AGE-1) reflect clustering of lipid-associated metabolic abnormalities and are decreased in patients treated with acarbose: A cross-sectional study.
Bronowicka-Szydełko, A, Krzystek-Korpacka, M, Kuzan, A, Gostomska-Pampuch, K, Gacka, M, Jakobsche-Policht, U, Adamiec, R, Gamian, A
Advances in clinical and experimental medicine : official organ Wroclaw Medical University. 2020;(3):275-284
Abstract
BACKGROUND Advanced glycation end products (AGEs) are formed during protein modification by a reduction of sugars or reactive aldehydes. Depending on the pathology, various AGEs may be formed. They are stable compounds and are considered as potential diseases markers. OBJECTIVES The objective of this study was to assess glucose-mediated albumin modification that yields non-standard epitopes of AGEs (AGE-1) in diabetes and in associated metabolic abnormalities. MATERIAL AND METHODS The AGE-1, expressed as median AGE-1 level and AGE-1 positivity, was determined in 246 individuals (198 with prediabetes/diabetes) using a new slot-dot-blot method (allowing for detection of barely traceable analytes) and related to the presence of diabetes-associated metabolic abnormalities and complications, and treatment. RESULTS The AGE-1 level was higher in patients with prediabetes/diabetes than in controls. Its elevation was associated with metabolic syndrome (MetS), obesity, hyperlipidemia, and non-alcoholic fatty liver disease (NAFLD) but not with diabetic control or microand macroangiopathy, except for atherosclerotic plaques formation in carotid arteries. The AGE-1-positive patients had higher triglycerides and lower high-density lipoprotein (HDL)-cholesterol. In patients untreated with aspirin, AGE-1 positivity was associated with higher C-reactive protein (CRP) level. Treatment with aspirin, sulfonylureas and gliptins was associated with higher AGE-1 level and with dyslipidemia medications with higher AGE-1 positivity. In patients with abnormal glucose metabolism, acarbose treatment was associated with lower AGE-1 positivity. Multivariate analysis showed MetS, carotid artery plaques, NAFLD, and treatment with aspirin and acarbose to be independently associated with AGE-1 positivity. CONCLUSIONS Unlike standard AGEs, AGE-1 is more tightly associated with abnormalities in lipid than glucose metabolism, and lower in patients treated with acarbose but not with other antidiabetics.
2.
Glycated serum albumin: a potential disease marker and an intermediate index of diabetes control.
Raghav, A, Ahmad, J
Diabetes & metabolic syndrome. 2014;(4):245-51
Abstract
Glycation is a non-enzymatic spontaneous process in proteins which has remarkable impact on its physical and functional aspect. This alteration with addition of carbohydrate residue to human serum albumin leads to several pathological events such as diabetic nephropathy, neuropathy, retinopathy and cardiovascular complications. Human serum albumin is the major protein and is most susceptible to non-enzymatic glycation. Structural and biological properties of functional albumin alter due to the addition of reducing carbohydrate to free amino terminal residues vivo. These irreversible changes in functional albumin are stable which makes this modified albumin as new gold standard future diagnostic marker in diabetes associated complications. Glycated albumin can be used to determine the glycemic control due to short half life than erythrocytes which makes it an alternate reliable disease marker in diabetes. In this review, Human serum albumin glycation has been overviewed, stating concept of glycation and sites that are prone to this modifications. Impact of non-enzymatic addition of carbohydrate to albumin's structural and biological properties has also been elaborated. Accurate measurements of glycated albumin with implications of new highly sensitive techniques have also been described briefly. Interestingly human serum albumin imposed glycation can serve as future tool not for diagnosing diabetes but also its potential in assessment of diabetes associated complications.
3.
Lipoprotein profile, plasma ischemia modified albumin and LDL density change in the course of postprandial lipemia. Insights from the LIPGENE study.
Hartwich, J, Leszczynska-Golabek, I, Kiec-Wilk, B, Siedlecka, D, Pérez-Martinez, P, Marin, C, López-Miranda, J, Tierney, A, Monagle, JM, Roche, HM, et al
Scandinavian journal of clinical and laboratory investigation. 2010;(3):201-8
Abstract
Postprandial lipemia is associated with elevated risk of cardiovascular disease. Very little data exists regarding postprandial response in subjects with metabolic syndrome (MetS). The current study was conducted within the LIPGENE EU Integrated Project. Patients were randomized to one of the four isocaloric fatty meals (Oral Fat Tolerance Tests, OFTT): (A) high-fat, saturated fatty acid (SFA)-rich (HFSA), (B) high-fat, monounsaturated fatty acid (MUFA)-rich (HFMUFA), (C) low-fat, high-complex carbohydrate with 1.24 g high oleic sunflower oil supplement (LFHCC) and (D) low-fat high-complex carbohydrate with 1.24 g long chain n-3 poly-unsaturated fatty acid (LC n-3 PUFA) supplement (LFHCCn-3). The total and incremental areas under the curve (tAUC and iAUC) of plasma lipid and lipoprotein, Ischemia Modified Albumin (IMA) and LDL density were examined in patients with MetS to define effect of OFTT. All types of OFTT transiently increased plasma triglyceride and LDL density (LDLdens). It was paralleled by temporal decrease in total cholesterol (TC), LDL cholesterol (LDL-C), and HDL cholesterol (HDL-C). This last effect was partly alleviated in LFHCCn-3 test. A reversible increase of IMA was statistically significant only in the course of HSFA and HMUFA tests. EPA and DHA supplement in combined high complex-carbohydrate meal may attenuate adverse effect of tested meal on LDL particle profile and plasma ischemia modified albumin. No expected associations between measures of central adiposity (waist, WHR), adipose tissue insulin resistance (Adipo-IR), and postprandial responses of TG, TC, LDL-C, HDL-C, LDLdens and IMA/Alb ratio were found in subgroup analysis.
4.
Albumin therapy in clinical practice.
Mendez, CM, McClain, CJ, Marsano, LS
Nutrition in clinical practice : official publication of the American Society for Parenteral and Enteral Nutrition. 2005;(3):314-20
Abstract
Albumin is the predominant product of hepatic protein synthesis and one of the more abundant plasma proteins. Among its multiple physiologic roles, it plays an essential part in the generation of colloid-oncotic pressure. In the United States, the indications for which albumin therapy are considered include hypovolemia or shock, burns, hypoalbuminemia, surgery or trauma, cardiopulmonary bypass, acute respiratory distress syndrome, hemodialysis, and sequestration of protein-rich fluids. The use of this relatively expensive therapy accounts for up to 30% of the total pharmacy budget in certain hospitals. The use of albumin therapy in different clinical situations and its influence in morbidity and mortality have been reviewed in multiple randomized controlled trials and meta-analyses. Despite frequent reviews, the use of albumin remains controversial in several clinical situations. At the same time, these valuable reviews seem to have documented the advantages of albumin therapy in the management of ascites and clarified the use of albumin in volume resuscitation. More studies have been recommended to investigate the use of albumin in different doses and its role in hypoalbuminemia. This article will provide an overview of albumin metabolism, use of albumin for volume expansion, the potential therapeutic role of albumin in liver disease, and the role of albumin therapy in nutrition.
5.
Changes of protein kinetics in nephrotic patients.
Castellino, P, Cataliotti, A
Current opinion in clinical nutrition and metabolic care. 2002;(1):51-4
Abstract
Nephrotic patients show various abnormalities in protein kinetics. Plasma albumin levels and the total plasma albumin pool are reduced. The rate of hepatic absolute and fractional albumin synthesis are increased. Transferrin synthesis is also increased. Fibrinogen levels are elevated in nephrotic syndrome because of an increase in the hepatic synthesis. Regulation of albumin and fibrinogen synthesis seems to be coordinated. A low protein diet has been proposed as a therapeutic tool in nephrotic patients--clinical studies have shown that such a diet reduces proteinuria and increases renal survival. Nephrotic patients can adapt to moderate protein restriction with no sign of malnutrition and maintenance of a neutral nitrogen balance. Albumin and fibrinogen synthesis are ameliorated by dietary protein restriction and these changes are correlated with the beneficial effect of the diet on proteinuria.