Cross-Talk Between Body Iron Stores and Diabetes: Iron Stores are Associated with Activity and Microsatellite Polymorphism of the Heme Oxygenase and Type 2 Diabetes

To assess the relationship between the length of (GT) _n repeats in HO-1 gene promoter and heme oxygenase (HO) enzymatic activity in mononuclear cells with iron (Fe) stores in type 2 diabetic mellitus (DM2) patients and metabolic syndrome (MS) subjects, we studied 163 patients with DM2, 185 with MS, and 120 controls subjects. We evaluated iron status (hemoglobin and serum Fe, ferritin, and transferrin receptor), and we determined the length of (GT) _n repeats in HO-1 gene promoter by capillary electrophoresis and HO enzymatic activity in mononuclear cells and assessed the relationship between these results and Fe stores. Only 1/163, 6/185, and 7/120 had iron deficiency anemia in DM2 patients, MS subjects, and controls, respectively. No iron overload (ferritin >200 μg/L) was detected in all the subjects studied. DM2 patients had higher iron deposits, total body iron, and heme oxygenase activity (a suggestion of high oxidative stress condition) than MS subjects and controls. In DM2, we found a positive association between serum iron and HO activity. There were no difference in allelic frequency between the three groups; however, among DM2 and MS patients, the frequency of short/medium (SM) genotype of (GT) _n repetition was increased and medium/medium (MM) genotype of (GT) _n repetition was lower than controls. These results imply that DM2 patients and individuals with MS carrying SM repeats might have higher susceptibility to develop diabetes consequences. This increased susceptibility could be Fe-mediated oxidative stress.     

Metabolic syndrome in type 1 diabetes mellitus. Does it have any impact on the course of pregnancy?

To determine whether the symptoms of metabolic syndrome (MS), if accompanied by oxidative stress (OS), in type 1 diabetes mellitus (DM) patients could affect the course of pregnancy and the perinatal outcome. Oxidized low density lipoproteins (ox-LDL) and total lipid peroxides (TLP) were studied in 98 pregnant women with type 1 DM in the I(st) and III(rd) trimesters. 24% of the participants met the criteria of MS. Vascular complications were significantly more frequent in the MS-group (41.9% vs. 17.4% in the non-MS group, p<0.05). No differences in the markers of OS between the MS and the non-MS groups were noted in either the I(st) or the III(rd) trimester. A significant gestational rise in Per-Ox was found in both groups. Chronic hypertension was associated with significant differences in ox-LDL levels in both the I(st) and III(rd) trimester. No differences in perinatal outcome, as measured by abnormal birth weight or poor neonatal status (Apgar score<6, umbilical venous and/or arterial pH<7.20), were found. Conclusions: 1) MS in type 1 DM is associated with some changes in markers of oxidative stress, but it poses no additional risk to the course of pregnancy and perinatal outcome in properly controlled and treated pregnant women with type 1 DM. 2) Maternal hypertension is the only component of MS in diabetic pregnancy that is associated with significant changes in markers of oxidative stress. 3) MS is significantly more frequent in diabetic pregnant women with co-existing vascular complications and obesity.     

Interrelationship between oxidative stress,DNA damage and cancer risk in diabetes (Type 2) in Riyadh,KSA

Type 2 Diabetes Mellitus (T2DM) is the most widely known type of disorder of the endocrine system marked by hyperglycemia resulting either due to deficiency of insulin and or resistance. Persistent hyperglycemia induces oxidative stress and is suggested to play a prominent role in the pathophysiology underlying T2DM. Besides, oxidative stress can result in DNA damage leading to high cancer risk. Current study aimed to evaluate status of oxidative damage, damage to DNA and cancer biomarkers in regard to increased glucose in T2DM patients and to correlate the glycemic state with cancer. A total of 150 subjects consisting of control (50) and T2DM patients (1 0 0) were enrolled. Additionally, three tertiles were created among the two groups based on levels of HbA1c (Tertile I = 5.37 ± 0.34, n = 50; Tertile II = 6.74 ± 0.20, n = 50; Tertile III = 9.21 ± 1.47, n = 50). Oxidative stress parameters including malondialedehyde (MDA) and antioxidant enzymes were measured. Damage to DNA was analyzed by measuring the levels of DNA damage adduct-8 hydroxy deoxy Guanosine (8-OHdG). To detect cancer resulting from oxidative stress, cancer biomarkers CEA, AFP, CA125, CA-15, CA19-9, prolactin were measured in these subjects. All measurements were analysed by SPSS software. Levels of MDA and antioxidant enzymes altered significantly in T2DM group at p < 0.001 and p < 0.05 level of significance. Significant DNA damage accompanied with elevated levels of CEA, CA19-9 and decreased CA125, AFP and prolactin were noted in T2DM group. CA 19-9 and CEA levels increased at p < 0.05, whereas levels of prolactin decreased significantly (p < 0.001) in T2DM group compared to control. Additionally the mean values of DNA damage adduct 8-OHdG differ significantly at P < 0.01 between the two groups. However, no significant correlation in oxidative stress parameter, antioxidant enzymes, DNA damage and neither with the highest tertile of HbA1c (>7.5%) was noted. Based on the results obtained in the present study, we conclude that there is considerable change in oxidative stress and DNA damage in T2DM patients. Hence, assumption that the oxidative stress could cause cancer in T2DM as a result of hyperglycemic state was not speculated in this study.     

Eryptosis and oxidative damage in type 2 diabetic mellitus patients with chronic kidney disease

It has been suggested that oxidative stress may participate in the progression of diabetes and its complications. Long-term complications of type 2 diabetes mellitus (T2DM) include retinopathy, atherosclerosis, shortened life span of erythrocytes, nephropathy, and chronic kidney disease (CKD). Oxidative damage has been associated with erythrocyte apoptosis induction in other pathological conditions. Our aim was to study the presence of eryptosis and its possible relationship with oxidative damage in patients with T2DM without CKD (T2DM/CKD(-)) and in patients with T2DM and CKD (T2DM/CKD(+)).Oxidative damage of lipids erythrocytes were increased in diabetic patients. The highest lipoperoxidation was found in T2DM/CKD(+). Likewise, the lower plasma total antioxidant capacity, GSH/GSSG ratio, and GSH in erythrocytes were found in T2DM/CKD(+) patients. A negative correlation was found between plasma total antioxidant capacity and oxidative damage. Phosphatidylserine (PS) externalization was measured in erythrocytes to evaluate eryptosis. Annexin binding in erythrocytes of T2DM/CKD(+) patients was higher than in healthy subjects and T2DM/CKD(-) patients. A positive correlation between lipoperoxidation and PS externalization in erythrocytes was found. This work showed that the erythrocytes of diabetic patients have increased oxidative damage, a reduction of antioxidant systems and more erythrocyte PS externalization. The duration of diabetes and the presence of CKD increase both oxidative damage and eryptosis. It is possible that a longer time of evolution induces an increase in erythrocyte oxidative damage and the consumption of blood antioxidant systems, adding to the osmotic stress in CKD and so contributes to an increase in PS externalization in diabetic patients.     

Antioxidant alpha-tocopherol ameliorates glycemic control of GK rats, a model of type 2 diabetes

We have shown recently that oxidative stress by chronic hyperglycemia damages the pancreatic beta-cells of GK rats, a model of non-obese type 2 diabetes, which may worsen diabetic condition and suggested the administration of antioxidants as a supportive therapy. To determine if natural antioxidant alpha-tocopherol (vitamin E) has beneficial effects on the glycemic control of type 2 diabetes, GK rats were fed a diet containing 0, 20 or 500 mg/kg diet alpha-tocopherol. Intraperitoneal glucose tolerance test revealed a significant increment of insulin secretion at 30 min and a significant decrement of blood glucose levels at 30 and 120 min after glucose loading in the GK rats fed with high alpha-tocopherol diet. The levels of glycated hemoglobin A1c, an indicator of glycemic control, were also reduced. Vitamin E supplementation clearly ameliorated diabetic control of GK rats, suggesting the importance of not only dietary supplementation of natural antioxidants but also other antioxidative intervention as a supportive therapy of type 2 diabetic patients.     

Reducing oxidative stress in patients with type 2 diabetes mellitus: A primary care call to action

Background: Oxidative stress is believed to be the primary cause of the microvascular and macrovascular complications of type 2 diabetes mellitus (DM).Objective: This paper examines the evidence linking oxidative stress with long-term complications of type 2 DM and explores methods to minimize its effect.Methods: A literature search was performed to identify relevant studies for this review. Articles published in English from 2000 to 2008 were identified through searches of PubMed, Diabetes Care, and Google using the search terms oxidative stress, postprandial hyperglycemia, ACCORD Trial, and endothelial cell dysfunction.Results: The literature search identified 423 articles. Although chronic hyperglycemia can be effectively monitored and targeted using glycosylated hemoglobin concentrations, postprandial glucose levels are also important. Postprandial glucose excursions are exhibited by almost all patients with type 2 DM and are independent risk factors for cardiovascular morbidity and mortality. Furthermore, glucose fluctuations during the postprandial period elicit more oxidative stress than chronic, sustained hyperglycemia and can lead to endothelial dysfunction, vascular inflammation, and microvascular complications. In turn, endothelial dysfunction has been implicated in the development of vascular pathologies such as atherosclerosis. Pharmacologic interventions (eg, rapid-acting insulin analogues that target post-prandial glucose excursions) reduce oxidative stress and vascular inflammation and improve endothelial dysfunction.Conclusions: Given the important role of oxidative stress in the development of complications of type 2 DM, physi-cians should consider methods to reduce oxidative stress that may occur during both acute (postprandial) and chronic hyperglycemia. One critical aspect is to reduce postprandial glucose levels to <180 mg/dL while lowering fasting glucose levels to <110 mg/dL. By coaching patients to reach these goals, physicians and other health care professionals can minimize the risk of long-term complications of type 2 DM.     

Vasculopathy in type 2 diabetes mellitus: role of specific angiogenic modulators

Type 2 diabetes mellitus (T2DM) is largely defined by hyperglycemia that promotes vascular complications. Abnormal angiogenesis has been claimed to have a role in this disease. This study aimed to investigate serum levels of both conventional and other markers of angiogenesis not well studied before in diabetes, and to correlate findings with age of the patients, glycemic control, presence of microvascular complications, and oxidative stress. Thirty-eight patients with T2DM and 13 age- and sex-matched healthy persons representing controls were recruited. Serum levels of basic fibroblast growth factor (b-FGF) was measured by immunosorbent assay kit; advanced glycosylation end products, platelet-derived endothelial cell growth factor (PD-ECGF), cathepsin-D (CD), gangliosides, hyaluronic acid (HA), nitric oxide (NO), lipid peroxides (LPER), superoxide dismutase, and total thiols by chemical methods; and copper (Cu) by atomic absorption flame photometry. Advanced glycosylation end products and angiogenic factors (b-FGF, PD-ECGF, CD, gangliosides, HA, and Cu) were significantly higher in patients than controls. Oxidative stress markers, NO, and LPER were significantly higher while total thiols were significantly lower in patients than controls. These changes were more pronounced with age, poor glycemic control, and presence of microvascular complications. Angiogenesis dysfunction coinciding with elevated levels of many angiogenic growth factors may point to their malfunctioning due to oxidative stress and/or protein glycation at the factor and the receptor levels. This necessitates further investigations.     

Hyperglycemia-induced oxidative stress in diabetic complications

Reactive oxygen species are increased by hyperglycemia. Hyperglycemia, which occurs during diabetes (both type 1 and type 2) and, to a lesser extent, during insulin resistance, causes oxidative stress. Free fatty acids, which may be elevated during inadequate glycemic control, may also be contributory. In this review, we will discuss the role of oxidative stress in diabetic complications. Oxidative stress may be important in diabetes, not just because of its role in the development of complications, but because persistent hyperglycemia, secondary to insulin resistance, may induce oxidative stress and contribute to beta cell destruction in type 2 diabetes. The focus of this review will be on the role of oxidative stress in the etiology of diabetic complications.     

Levels of heavy metals and their binding protein metallothionein in type 2 diabetics with kidney disease

Hyperglycemia, a major metabolic disturbance present in diabetes, promotes oxidative stress. Activation of antioxidant defense is an important mechanism to prevent cell damage. Levels of heavy metals and their binding proteins can contribute to oxidative stress. Antiradical capacity and levels of metallothionein (MT), metals (zinc and copper), and selected antioxidants (bilirubin, cysteine, and glutathione) were determined in 70 type 2 diabetes mellitus (T2DM) subjects and 80 healthy subjects of Caucasian origin. Single nucleotide polymorphism (rs28366003) in MT gene was detected. Antiradical capacity, conjugated bilirubin, and copper were significantly increased in diabetics, whereas MT and glutathione were decreased. Genotype AA of rs28366003 was associated with higher zinc levels in the diabetic group. The studied parameters were not influenced by renal function. This is the first study comprehensively investigating differences in MT and metals relevant to oxidative stress in T2DM. Ascertained differences indicate increased oxidative stress in T2DM accompanied by abnormalities in non‐enzymatic antioxidant defense systems.     

The Rationale for Prandial Glycemic Control in Diabetes Mellitus

Background:Diabetes mellitus (DM) is of epidemic proportions worldwide, and its microvascular and macrovascular complications have been well described. Achieving glycemic control has been demonstrated to reduce patients' risk of developing these complications.Objective:The objective of this article was to examine how prandial hyperglycemia-especially postprandial hyperglycemia (PPHG)-affects overall glycemic control and the complications of DM and to discuss the pharmacologic agents available to reduce PPHG.Methods:Materials used for this article were identified through a MEDLINE search of the literature (1975–2006). English-language randomized, controlled, prospective, cohort, and observational studies were chosen using the search terms postprandial hyperglycemia, oxidative stress, cardiovascular disease, macrovascular disease, microvascular disease, lipidemia, and coagulation.Results:Data show that controlling prandial hyperglycemia reduces the risk of cardiovascular disease (CVD) andmicrovascular complications, lowers glycosylated hemoglobin levels, causes less oxidative stress, and leads to a more favorable coagulation and postprandial lipidemia profile. Guidelines for targeting PPHG are becoming standard, and various pharmacologic agents (eg, a-glucosidase inhibitors, amylin analogues, incretin mimetics, rapid-acting insulins and insulin analogues, meglitinide analogues) that target PPHG may also improve overall glycemic control and reduce CVD risk.Conclusions:Although the level of hyperglycemia that leads to microvascular and macrovascular complications inpatients with DM remains to be elucidated, it appears prudent to address prandial hyperglycemia, especially PPHG, rather than focus solely on fasting glucose levels. Clinicians should consider incorporating agents that lower PPHG in their treatment of patients with DM.     

Accelerated aging as evidenced by increased telomere shortening and mitochondrial DNA depletion in patients with type 2 diabetes

Although shortened telomeres were shown associated with several risk factors of diabetes, there is lack of data on their relationship with mitochondrial dysfunction. Therefore, we compared the relationship between telomere length and mitochondrial DNA (mtDNA) content in patients with type 2 diabetes mellitus (T2DM; n = 145) and in subjects with normal glucose tolerance (NGT; n = 145). Subjects were randomly recruited from the Chennai Urban Rural Epidemiology Study. mtDNA content and telomere length were assessed by Real-Time PCR. Malonodialdehyde, a marker of lipid peroxidation was measured by thiobarbituric acid reactive substances (TBARS) using fluorescence methodology. Adiponectin levels were measured by radioimmunoassay. Oxidative stress as determined by lipid peroxidation (TBARS) was significantly (p < 0.001) higher in patients with T2DM compared to NGT subjects. In contrast, the mean telomere length, adiponectin and mtDNA content were significantly (p < 0.001) lower in patients with T2DM compared to NGT subjects. Telomere length was positively correlated with adiponectin, HDL, mtDNA content and good glycemic/lipid control and negatively correlated with adiposity and insulin resistance. On regression analysis, shortened telomeres showed significant association with T2DM even after adjusting for waist circumference, insulin resistance, triglyceride, HDL, adiponectin, mtDNA & TBARS. mtDNA depletion showed significant association with T2DM after adjusting for waist circumference and adiponectin but lost its significance when further adjusted for telomere length, TBARS and insulin resistance. Our study emphasizes the clustering of accelerated aging features viz., shortened telomeres, decreased mtDNA content, hypoadiponectinemia, low HDL, and increased oxidative stress in Asian Indian type 2 diabetes patients.     

Trace elements,oxidative stress and glycemic control in young people with type 1 diabetes mellitus

Trace elements and oxidative stress are associated with glycemic control and diabetic complications in type 1 diabetes mellitus. In this study, we analyzed the levels of serum copper, zinc, superoxide dismutase (SOD) activity, and malondialdehyde (MDA) and urinary MDA and 8-hydroxy-2′-deoxyguanosine (8-OHdG) in 33 type 1 diabetic patients with optimal and suboptimal glycemic control (HbA_1C < 9.0%) and 40 patients with poor glycemic control (HbA_1C ≥ 9%) and 27 age- and sex-matched non-diabetic controls to evaluate the differences between these markers in different glycemic control states. Diabetic patients, especially poor-glycemic-control subjects (HbA_1C ≥ 9%), exhibited significantly lower levels of serum zinc and increased levels of serum copper (and, therefore, increased serum copper-to-zinc ratios), serum SOD, blood MDA, and urinary MDA and 8-OHdG, relative to non-diabetic subjects. Furthermore, significant correlations existed in these patients between the serum copper, serum copper-to-zinc ratio, and urinary MDA (all p < 0.001) and the levels of urinary 8-OHdG (p = 0.007) and HbA_1C. Our results suggest that high serum copper levels and oxidative stress correlate with glycemic control. Therefore, strict glycemic control, decreased oxidative stress, and a lower copper concentration might prevent diabetic complications in patients with type 1 diabetes mellitus.     

Oxidative stress in myotonic dystrophy type 1

Myotonic dystrophy type 1 (DM1) is the most common form of muscular dystrophy affecting adults. The genetic basis of DM1 consists of a mutational expansion of a repetitive trinucleotide sequence (CTG). The number of triplets expansion divides patients in four categories related to the molecular changes (E1, E2, E3, E4). The pathogenic mechanisms of multi-systemic involvement of DM1 are still unclear. DM1 has been suspected to be due to premature aging, that is known to be sustained by increased free radicals levels and/or decreased antioxidants activities in neurodegenerative disorders. Recently, the gain-of-function at RNA level hypothesis has gained great attention, but oxidative stress might act in the disease progression. We have investigated 36 DM1 patients belonging to 22 unrelated families, 10 patients with other myotonic disorders (OMD) and 22 age-matched healthy controls from the clinical, biochemical and molecular point of view. Biochemical analysis detected blood levels of superoxide dismutase (SOD), malonilaldehyde (MDA), vitamin E (Vit E), hydroxyl radicals (OH) and total antioxidant system (TAS). Results revealed that DM1 patients showed significantly higher levels of SOD (+40%; MAL (+57%; RAD 2 (+106%; and TAS (+20%; than normal controls. Our data support the hypothesis of a pathogenic role of oxidative stress in DM1 and therefore confirm the detrimental role played by free radicals in this pathology and suggest the opportunity to undertake clinical trials with antioxidants in this disorder.     

口服活性AdipoRon对2型糖尿病小鼠肝脏氧化应激的干预作用

目的：研究口服活性AdipoRon对2型糖尿病小鼠肝脏氧化应激是否有干预作用,为临床应用提供基础资料。方法：将健康雄性C57BL/6小鼠分为正常组（n=8）,糖尿病组（n=8）,AdipoRon高剂量治疗组（n=8）,Adi-poRon低剂量治疗组（n=8）,以高脂饲料喂养6周后腹腔注射40 mg/kg链脲佐菌素（STZ）诱导2型糖尿病模型,用高、低剂量的口服活性AdipoRon分别对治疗组灌胃治疗10 d后,检测相关生化指标,Western-blot法检测肝脏组织中IRS-1蛋白的表达;实时荧光定量PCR检测胰腺组织中PDX-1 mRNA的表达。结果：DM组小鼠血糖值明显高于NC组（P < 0.05）,DM+L组和DM+H组小鼠血糖值显著低于DM组。DM组小鼠肝脏组织中超氧化物歧化酶（SOD）、过氧化氢酶（CAT）活性显著低于NC组（P < 0.05）,丙二醛（MDA）及一氧化氮合酶（NOS）活性显著高于NC组（P <0.05）;DM+L组和DM+H组SOD、CAT活性明显高于DM组（P < 0.05）,MDA及NOS活性显著低于DM组（P <0.05）。肝脏组织中IRS-1的蛋白表达及胰腺PDX-1 mRNA表达显著升高,存在统计学意义（P < 0.05）。结论：口服活性AdipoRon对糖尿病小鼠肝脏组织氧化应激有一定的干预作用,能降低小鼠的血糖水平。     

Advanced glycosylated end products-mediated activation of polymorphonuclear neutrophils in diabetes mellitus and associated oxidative stress

Two important consequences of hyperglycemia in diabetes are development of oxidative stress and formation of advanced glycation end products (AGE) which are known to be associated with diabetic complications. Relationship between AGE formation and development of oxidative stress (OS) is yet to be established. In the present study, the involvement of AGE in PMN-mediated ROS generation and the associated OS were investigated in type 2 diabetic mellitus (DM) patients. We assessed OS parameters (serum MDA, FRAP and GSH), PMN oxidative functions (respiratory burst and superoxide production) and total serum AGE in 90 subjects divided equally in three groups--control group, Group I consisting of type 2 diabetic patients without microvascular complications and Group II consisting of type 2 diabetic patients with microvascular complications. PMNs isolated from both groups (I and II) exhibited higher level of respiratory burst (RB) and produced increased amount of superoxide anion as compared to the controls. The increase was more pronounced in diabetes with complications, as compared to those without. Serum malondialdehyde (MDA) level was elevated, whereas glutathione (GSH) and ferric reducing ability of plasma (FRAP) levels were significantly reduced in diabetes as compared to the controls, suggesting the presence of oxidative stress in DM. A positive correlation between PMN oxidative function and OS parameters suggested the involvement of PMN in the development of OS in DM. Serum AGE level was also elevated in diabetic groups as compared to the controls. Further, the positive correlation between serum AGE level and PMN oxidative function suggested the involvement of AGE in increased RB and generation of reactive oxygen species (ROS) by resting diabetic PMN. The results of the study indicate that AGE-PMN interaction possibly upregulates NADPH oxidase, leading to enhanced ROS generation and thus contributes to the pathogenesis in diabetes.     

Serum IL-18 levels in patients with type 1 diabetes: relations to metabolic control and microvascular complications

The study was designed to examine serum IL-18 level and its relation to metabolic control parameters and microvascular complications in type 1 diabetes mellitus (DM). Sixty two patients with type 1 DM and 30 healthy individuals were enrolled in the study. Serum IL-18 levels of patients with type 1 DM were significantly increased compared to controls (293.4+/-133.4 vs 211.2+/-63.9 pg/ml, P=0.003). Patients with poor glycemic control had higher levels of IL-18 than patients with well glycemic control (329.9+/-141.0 vs 226.3+/-89.6 pg/ml, P=0.02). There was no significant difference between the serum IL-18 levels of patients with microvascular complications and those of patients without microvascular complications (307.6+/-127.6 vs 293.2+/-145.6 pg/ml, P>0.05). IL-18 correlated positively with HbA(1c) (r=0.32, P=0.01) and postprandial blood glucose (PPBG) (r=0.26, P=0.02); and negatively with HDL-cholesterol (HDL-C) (r=-0.38, P=0.007). By linear regression analysis, PPBG was determined as the most explanatory parameter for the alterations in serum IL-18 levels (P=0.02). High levels of IL-18 in patients with type 1 DM is related to short and long term glycemic control and HDL-C levels but not to microvascular complications.     

Gamma-tocopherol supplementation alone and in combination with alpha-tocopherol alters biomarkers of oxidative stress and inflammation in subjects with metabolic syndrome

Metabolic syndrome (MetS) is associated with increased incidence of diabetes and cardiovascular disease (CVD). Prospective clinical trials with alpha-tocopherol (AT) have not yielded positive results. Because AT supplementation decreases circulating gamma-tocopherol (GT), we evaluated supplementation with GT (800 mg/day), AT (800 mg/day), the combination or placebo for 6 weeks alone AT and GT concentrations, biomarkers of oxidative stress, and inflammation in subjects with MetS (n=20/group). Plasma AT and GT levels increased following supplementation with AT alone or GT alone or in combination. AT supplementation significantly decreased GT levels. Urinary alpha- and gamma-CEHC, metabolites of the respective Ts, also increased correspondingly, i.e., alpha-CEHC with AT and gamma-CEHC with GT supplementation, compared to placebo. HsCRP levels significantly decreased in the combined AT+GT group. LPS-activated whole blood release of IL-1 and IL-6 did not change. There was a significant decrease in TNF with AT alone or in combination with GT. Plasma MDA/HNE and lipid peroxides were significantly decreased with AT, GT, or in combination. Nitrotyrosine levels were significantly decreased only with GT or GT+AT but not with AT compared to placebo. Thus, the combination of AT and GT supplementation appears to be superior to either supplementation alone on biomarkers of oxidative stress and inflammation and needs to be tested in prospective clinical trials to elucidate its utility in CVD prevention.