Catalase/superoxide dismutase (SOD) and catalase/paraoxonase (PON) ratios may implicate poor glycemic control

WOS: 000169749700007PubMed ID: 11440784Background. Previous studies suggest that elevated oxidative stress implicates poor glycemic control resulting in the development of diabetic complications. By evaluating the relationship between paraoxonase (PON) and antioxidant enzyme activities and glycemic control in diabetic patients with and without complications, we investigated whether there is a role of PON and/or antioxidant status in glycemic control. Methods. A total of 107 patients with type 2 diabetes mellitus (DM) was included in the study. Seventy-five patients had complications including microangiopathy, proliferative retinopathy, and/or nephropathy while 32 had no complications. The control group consisted of 29 age- and sex-matched healthy persons. Serum superoxide dismutase (SOD) and catalase activities were measured according to Sun and Goth, respectively. Basal and salt-stimulated paraoxonase activities and arylesterase activity were determined using the method of Eckerson et al. Results. There was an increase in the catalase activity and a decrease in the basal and salt-stimulated PON activity of patients when compared with controls, while no significant difference was observed in SOD activity. PON phenotypes had no effect on any parameter in patient and control groups. The ratio of catalase/SOD was 2.44 +/- 7.10 and 0.17 +/- 0.09 in diabetics and controls, respectively (p = 0.004); this was associated with an elevation in HbA1c levels. On the other hand, catalase/PON ratio was also enhanced in diabetic patients (2.8 +/- 5.2), showing a relationship with HbA1c levels compared to controls (0.29 +/- 0.3, p = 0.000). Conclusions. The data of this study reveal that enhanced catalase/SOD acid catalase /PON ratios that are correlated with HbA1c levels are observed in diabetic patients; thus, these ratios may be used as markers of poor glycemic control and as risk factors in the development of diabetic complications. (C) 2001 IMSS. Published by Elsevier Science Inc

Effect of organophosphate intoxication on human serum paraoxonase

WOS: 000176936200004PubMed ID: 12141395Recently, interindividual variations in serum paraoxonase (PON1) activity and the differences in its metabolic activity towards different organophosphates (OPs) caused by the coding region polymorphisms L55M and Q192R have been found to be important risk factors in susceptibility to OP poisoning. In this study, we investigated the effect of PON1 on the outcome of acute OP intoxication and the effect of acute OP intoxication on PON1. Twenty-eight OP-poisoned patients and 66 healthy volunteers were studied. Patients were evaluated for the clinical manifestations of OP intoxication as well as PON1 activity, PON1 mass and PON1 polymorphisms. Butyrylcholine-esterase (BChE) activity was 50% lower (2276+/-738 U/L versus 5037 1553 U/L, P<0.01) while PON1 activity was 30% lower (114.2+/-67.4 nmol/mL/min versus 152.9+/-78.9 nmol/mL/min, P<0.05) in patients than in controls. We observed that the PON1 and BChE activities of eight of the original subjects returned to normal levels when they were reinvestigated six months after exposure. The frequency of the PON192Q allele was significantly higher in patients than controls (85.7% versus 59.7%, chi(2)=6.745, P=0.034). QQ/MM individuals had the lowest activity towards paraoxon, while RR/LL individuals had the highest activity. Our data indicate that interindividual differences in PON1 activity and the PON1-55 and -192 polymorphisms are important risk factors in susceptibility to acute OP poisoning; therefore, identifying an individual's PON1 alloenzymes may play an important role in the treatment of patients suffering from OP intoxication

PON1 activities and oxidative markers of LDL in patients with angiographic ally proven coronary artery disease

WOS: 000185423500006PubMed ID: 12957728Background: There is growing evidence that ox-LDL plays an important role during the atherosclerosis process and PON1 can significantly inhibit generation of lipid peroxidation during LDL oxidation and thus play a role in the in vivo protection by HDL against atherosclerosis. Methods: Twenty-four healthy volunteers and one-hundred and one patients were taken into study, sixty-eight patients had coronary artery disease which was confirmed by coronary angiography. Serum PON1, erythrocyte superoxide dismutase and catalase activities, oxidative markers of LDL were determined along with the routine biochemical parameters in all groups. Results: The indicators of oxidative stress were higher in the patients compared with the controls. No statistically significant difference in any of parameters were observed between the patients who had obstruction with different degrees except for erythrocyte TBARS [24.5 nmol/g Hb in patients with one vessel disease (VD) (n=22), 29.6 nmol/g Hb in patients with two VD (n=26) and 33.5 nmol/g Hb in patients with three VD (n=20)]. Basal and stimulated diene levels were higher in patients who had more diseased vessels than those who had less. Conclusion: The increase in erythrocyte TBARS and CRP levels with the severity of disease supports the reports that showed the inflammatory and oxidative nature of atherosclerosis. In the light of the fact that the well-known classical risk factors for atherosclerosis are closely associated with increased oxidative stress, we propose that the elevation in TBARS levels might be a more marked indicator for the degree of atherosclerosis than the insufficiency in antioxidant enzymes such as SOD and PON1. (C) 2003 Elsevier Ireland Ltd. All rights reserved