Andrew P. Levy

Haptoglobin phenotype and coronary artery collaterals in diabetic patients.

Cross-cultural epidemiological studies of incident cardiovascular disease in the diabetic patient have demonstrated marked differences in susceptibility that may be due to a genetic factor. The coronary artery collateral circulation is the chief determinant of the size of a myocardial infarction and is highly variable between patients. We recently demonstrated that a functional allelic polymorphism in the haptoglobin gene is correlated with a number of diabetic vascular complications. We thus set out to test the hypothesis that haptoglobin phenotype is associated with collateral formation in the setting of diabetes. We correlated the Hp phenotype (1-1, 2-1 or 2-2) as determined by polyacrylamide electrophoresis with the presence or absence of coronary collaterals by angiography in 82 consecutive diabetic patients and 138 consecutive non-diabetic patients undergoing catheterization. We found that diabetic patients with the Hp phenotype 2-1 were more likely to have collaterals than diabetic patients with the Hp phenotype 2-2 (P=0.007). There was no correlation between Hp phenotypes and the presence of collaterals in non-diabetic patients. Hp phenotype thus appears to be associated with the development of the coronary collateral circulation in diabetic patients with coronary artery disease. Haptoglobin 2-2 may predispose to less compensation for coronary artery stenosis in diabetic patients, and thereby portend a worse prognosis.

Rate of Nitric Oxide Scavenging by hemoglobin bound to haptoglobin

Cell-free hemoglobin, released from the red cell, may play a major role in regulating the bioavailability of nitric oxide. The abundant serum protein haptoglobin, rapidly binds to free hemoglobin forming a stable complex accelerating its clearance. The haptoglobin gene is polymorphic with two classes of alleles denoted 1 and 2. We have previously demonstrated that the haptoglobin 1 protein-hemoglobin complex is cleared twice as fast as the haptoglobin 2 protein-hemoglobin complex. In this report, we explored whether haptoglobin binding to hemoglobin reduces the rate of nitric oxide scavenging using time-resolved absorption spectroscopy. We found that both the haptoglobin 1 and haptoglobin 2 protein complexes react with nitric oxide at the same rate as unbound cell-free hemoglobin. To confirm these results we developed a novel assay where free hemoglobin and hemoglobin bound to haptoglobin competed in the reaction with NO. The relative rate of the NO reaction was then determined by examining the amount of reacted species using analytical ultracentrifugation. Since complexation of hemoglobin with haptoglobin does not reduce NO scavenging, we propose that the haptoglobin genotype may influence nitric oxide bioavailability by determining the clearance rate of the haptoglobin-hemoglobin complex. We provide computer simulations showing that a twofold difference in the rate of uptake of the haptoglobin-hemoglobin complex by macrophages significantly affects nitric oxide bioavailability thereby providing a plausible explanation for why there is more vasospasm after subarachnoid hemorrhage in individuals and transgenic mice homozygous for the Hp 2 allele.

Hypoxic Regulation of VEGF mRNA Stability by RNA-binding Proteins

Vascular endothelial growth factor (VEGF), is a potent angiogenic factor whose expression is dramatically induced by hypoxia. We have previously demonstrated that the induction of VEGF by hypoxia is in large part the result of an increased stability of VEGF mRNA. The stabilization of VEGF mRNA by hypoxia is mediated by the binding of sequence-specific RNA-binding proteins. This review focuses on one such protein, HuR, an RNA-binding protein which we have recently shown is critical for the hypoxic stabilization of VEGF mRNA.

Haptoglobin phenotype as a predictor of restenosis after percutaneous transluminal coronary angioplasty

We have demonstrated that a genetic polymorphism in the antioxidant protein haptoglobin is important in determining which patients develop restenosis after percutaneous transluminal coronary angioplasty. Knowledge of the haptoglobin phenotype may be useful in the assessment and utilization of new therapies to reduce restenosis, particularly in patients who are homozygous for the haptoglobin 2 allele.

Haptoglobin genotype and cardiovascular outcomes in diabetes mellitus — natural history of the disease and the effect of vitamin E treatment. Meta-analysis of the medical literature

BACKGROUNDnDiabetes mellitus carries a high risk for vascular events. Diabetics with different haptoglobin (Hp) types may carry different risk profiles, and may respond differently to vitamin E treatment. We aim to summarize the evidence about cardiovascular risk in diabetic patients, according to their Hp type, and the effect of vitamin E treatment on these sub-groups.nnnMETHODSnWe searched MEDLINE and on-going trials databases until February 2011; gray literature; reference lists of identified articles; and experts. Two investigators screened and selected studies that prospectively followed cardiovascular outcomes in diabetic patients with different Hp types (natural history analysis), and randomized controlled trials reporting the effect of vitamin E on cardiovascular outcomes in diabetics, in which Hp typing was performed (interventional analysis).nnnRESULTSnFive and three studies, comprising 1829 and 2110 patients, were eligible for the natural history and the interventional analyses, respectively. The percentage of diabetic patients experiencing non-fatal MI, stroke, or cardiovascular death was significantly higher in the Hp 2-2 population (odds ratio (OR) 2.03 (95% confidence interval (CI) 1.46 to 2.81)). In patients with Hp 2-2 genotype, the OR for a combined endpoint was 0.66 in favor of the vitamin E treated group (95% CI 0.48 to 0.9). This effect was not shown in other Hp types.nnnCONCLUSIONnHp type 2-2 carries a high risk of cardiovascular events in diabetic patients. A pharmacogenomic approach towards treatment of diabetic patients with vitamin E may be warranted.

Haptoglobin genotype and its role in determining heme-iron mediated vascular disease.

Haptoglobin (Hp) is a hemoglobin (Hb) binding protein whose major function is to prevent heme-iron mediated oxidation. The polymorphic nature of the Hp gene results in varying levels of antioxidant function associated with the protein products. Multiple clinical studies have now determined that the Hp 2-2 genotype is associated with an increased risk of developing vascular complications in patients suffering from diabetes. The mechanism for this phenomenon is a decrease in antioxidant capability associated with the Hp 2-2 protein. Specifically, heme iron associated with the Hp2-2/Hb complex is more redox active than other Hp type complexes and has been shown in a number of systems to lead to increased levels of oxidative stress in the form of oxidized lipids and decreased lipoprotein function. In addition, Hp 2-2/Hb complexes are cleared less efficiently from the circulation, leading to a buildup of iron in the plasma and in tissues. Recent analyses from clinical studies utilizing vitamin E treatment have shown beneficial results specifically in the diabetic Hp 2-2 genotype population. The use of vitamin E in the treatment of Hp 2-2 diabetics has the potential to greatly reduce medical costs and improve quality of life in the ever-growing diabetic population.

Vitamin E in the prevention of cardiovascular disease- the importance of proper patient selection

Vitamin E is a naturally occurring fat-soluble antioxidant which has been proposed as a treatment for both primary and secondary protection against cardiovascular (CV) events. Promising data from observational epidemiological studies associating higher vitamin E dietary intake with lower risk of CV events have not been validated in randomized controlled clinical trials assessing the effect of vitamin E on CV outcomes. While the pendulum of medical opinion has swung to suggest that high dose vitamin E supplements have no place in the treatment and prevention of CV disease, new data is emerging that allows identification of a specific target population for this treatment, namely patients with diabetes mellitus and the haptoglobin genotype 2-2. This review details the scientific basis and clinical evidence related to the effect of vitamin E on CV outcomes, and the importance of proper patient selection in gaining therapeutic benefit from this intervention.

Role of haptoglobin phenotype in end-stage kidney disease.

Background: We recently reported that haptoglobin (Hp) phenotype 1-1 is protective against the development of nephropathy in normal creatinine diabetics. In the present study, we sought to determine if Hp phenotype also plays a role in renal deterioration by determining Hp phenotypes in a consecutive series of patients with chronic renal failure (CRF) in hemodialysis (HD) and predialysis clinics. Methods: Three hundred and ninety-two patients on HD for less than 2 years and 182 predialysis patients (creatinine clearance time [CCT] <35 ml/min) were subjected to Hp phenotyping. Age, gender and presence of diabetes or hypertension were recorded. Patients were stratified according to age (above and below 60 years) and severity of renal dysfunction (CRF or HD). Results: We observed a markedly lower prevalence of the Hp 1-1 phenotype in HD patients under 60 years of age compared to patients with CRF or compared to the general population. This was not due to differences in the threshold for dialysis initiation among patients with different Hp types or to decreased survival of patients with Hp 1-1 prior to entering HD. In HD patients 60 years and over, Hp 1-1 prevalence was increased, as observed with other diseases in this age group. Conclusions: The prevalence of Hp 1-1 is decreased in HD patients less than 60 years of age. This may be due to a fundamental difference in the rate of renal deterioration in patients with different Hp types. In addition, Hp 1-1 may provide a protective effect against mortality in elderly patients.

Haptoglobin phenotype as a predictive factor of mortality in diabetic haemodialysis patients

Introduction: The mortality rate in diabetic dialysis patients (DDPs) is over 15% per year, with the cause of death most often attributed to cardiovascular disease (CVD) or bacterial infection (sepsis). Identification of genetic markers predictive of early mortality would be useful in the evaluation of therapies for the reduction of mortality rate in this population. Haptoglobin (Hp) is a polymorphic protein which appears to confer differential susceptibility to bacterial infection and CVD. We therefore proposed that Hp phenotype can predict mortality in DDPs. Methods: We tested this hypothesis prospectively in a longitudinal study of 392 dialysis patients from eight medical centres in Israel. Hp was determined by polyacrylamide gel electrophoresis. Patients were followed for all-cause mortality over a 3-year period. Results: We found that Hp phenotype was a significant predictor of mortality in DDPs stratified by age. In diabetic individuals over 60 years of age there was a decrease in mortality associated with the Hp 1-1 phenotype (P = 0.03). However, in younger DDPs the Hp 2-2 phenotype was associated with a decreased mortality rate (P = 0.003). Conclusion: Hp phenotype may be useful in the risk stratification algorithm and management of DDPs.

Patient selection and vitamin E treatment in diabetes mellitus

In diabetes, there is an increase in oxidative stress due to elevated glucose levels in the plasma. High glucose promotes glycosylation, of both plasma and cellular proteins, which particularly affects the endothelial-cell lining of the blood vessel wall and interferes with its normal function. Thus, diabetes mellitus patients suffer from a higher incidence of cardiovascular complications such as atherosclerosis as compared with the nondiabetic population. Haptoglobin (Hp) is a plasma protein that binds free hemoglobin and prevents heme–iron mediated oxidation. There are three different types of Hp, which differ in their antioxidant ability. Several clinical studies have shown that the Hp 2-2 genotype is associated with higher incidence of cardiovascular diseases among diabetics. Vitamin E, a low-cost, easy-to-use antioxidant, was found to decrease the risk of developing cardiovascular diseases in Hp 2-2 diabetic patients. This review summarizes several studies that show the importance of vitamin E supplementation in a specific subgroup of patients, diabetic individuals carrying the Hp 2-2 genotype.