Effect of sulfonylurea therapy on plasma lipids and high-density lipoprotein composition in non-insulin-dependent diabetes mellitus

The role of lipids in the pathogenesis and treatment of type 2 diabetes and associated co-morbidities

In the past decade, the incidence of type 2 diabetes (T2D) has rapidly increased, along with the associated cardiovascular complications. Therefore, understanding the pathophysiology underlying T2D, the associated complications and the impact of therapeutics on the T2D development has critical importance for current and future therapeutics. The prevailing feature of T2D is hyperglycemia due to excessive hepatic glucose production, insulin resistance, and insufficient secretion of insulin by the pancreas. These contribute to increased fatty acid influx into the liver and muscle causing accumulation of lipid metabolites. These lipid metabolites cause dyslipidemia and non-alcoholic fatty liver disease, which ultimately contributes to the increased cardiovascular risk in T2D. Therefore, understanding the mechanisms of hepatic insulin resistance and the specific role of liver lipids is critical in selecting and designing the most effective therapeutics for T2D and the associated co-morbidities, including dyslipidemia and cardiovascular disease. Herein, we review the effects and molecular mechanisms of conventional anti-hyperglycemic and lipid-lowering drugs on glucose and lipid metabolism. [BMB Reports 2016; 49(3): 139-148].

Obesogens and male fertility

In the last decades, several studies evidenced a decrease in male fertility in developed countries. Although the aetiology of this trend in male reproductive health remains a matter of debate, environmental compounds that predispose to weight gain, namely obesogens, are appointed as contributors because of their action as endocrine disruptors. Obesogens favour adipogenesis by an imbalance of metabolic processes and can be found virtually everywhere. These compounds easily accumulate in tissues with high lipid content. Obesogens change the functioning of male reproductive axis, and, consequently, the testicular physiology and metabolism that are pivotal for spermatogenesis. The disruption of these tightly regulated metabolic pathways leads to adverse reproductive outcomes. Notably, adverse effects of obesogens may also promote disturbances in the metabolic performance of the following generations, through epigenetic modifications passed by male gametes. Thus, unveiling the molecular pathways by which obesogens induce toxicity that may end up in epigenetic modifications is imperative. Otherwise, a transgenerational susceptibility to metabolic diseases may be favoured. We present an up-to-date overview of the impact of obesogens on testicular physiology, with a particular focus on testicular metabolism. We also address the effects of obesogens on male reproductive parameters and the subsequent consequences for male fertility.

Associations between the use of metformin, sulphonylureas, or diet alone and cardiovascular outcomes in 6005 people with type 2 diabetes in the FIELD study

AIMS

We aimed to determine the associations between metformin or sulphonylurea monotherapy at study entry into the FIELD diabetes trial and (1) metabolic risk factors, (2) risk of a first major cardiovascular (CVD) outcome, and (3) the effect of each therapy on the risk-modifying effect of fenofibrate.

METHODS

Patients receiving metformin or sulphonylureas without insulin therapy were compared for the relative risk of CVD outcomes, adjusted for differences in baseline characteristics likely to affect risk.

RESULTS

Metformin-treated patients were likely to be younger, female, or obese. Metformin was associated with higher levels of lipids (other than LDL-C) and homocysteine (P<0.001). Sulphonylurea-treated patients had a longer history of diabetes and more CVD and microvascular disease. Sulphonylurea treatment was associated with higher plasma creatinine and lower plasma HDL-C (P<0.001). The risks of all CVD outcomes were higher for those on sulphonylureas than diet alone, but were nonsignificant after adjustment for the duration and intensity of diabetes and severity of risk factors. Metformin and sulphonylureas did not significantly influence the benefits of fenofibrate on CVD outcomes.

CONCLUSIONS

Apparent differences in the risk of CVD outcomes associated with oral hypoglycemics therapy were largely abolished by adjustment for diabetes and CVD risk factors.

The effects of oral anti-hyperglycaemic medications on serum lipid profiles in patients with type 2 diabetes

AIM

Patients with type 2 diabetes often have dyslipidaemia, putting them at risk of cardiovascular disease, and are frequently treated with oral anti-hyperglycaemic medications (OAMs). This review compares the effects of OAMs on serum lipids [total cholesterol (TC), low-density lipoprotein cholesterol (LDL-C), high-density lipoprotein cholesterol (HDL-C), triglycerides (TGs) and free fatty acids (FFAs)] in patients with type 2 diabetes.

METHODS

medline was searched for entries indexed from January 1966 to November 2002; search terms included the names of OAMs and serum lipids, limited to English language and human subjects. We selected clinical studies in type 2 diabetes of OAM monotherapy that included serum lipid data, treated all patients in a treatment group with the same drug, used therapeutic OAM doses not higher than the maximum recommended in the USA, compared therapy with baseline or placebo and specified statistical tests used. One unblinded investigator selected studies for inclusion. Data reported include number of patients, study length, OAM dose, serum lipid data at baseline and endpoint, p-values and statistical tests.

RESULTS

Data on the serum lipid effects of sulphonylureas, repaglinide, nateglinide and miglitol were inconclusive. Acarbose increased HDL-C and decreased LDL-C and voglibose reduced TC. Metformin at higher doses reduced TC; data on its effects on other lipids were inconclusive. Rosiglitazone increased LDL-C, HDL-C and TC and reduced FFAs but had no effect on TGs. Pioglitazone increased HDL-C and reduced TGs and FFAs but did not affect LDL-C or TC.

CONCLUSIONS

Lipid changes as a result of improved glycaemic control are not uniform findings associated with anti-diabetic therapy. Only metformin, acarbose, voglibose, rosiglitazone and pioglitazone had significant effects on the lipid profile. These effects should be considered when selecting OAMs for patients with type 2 diabetes.

Impact of sulfonylurea receptor 1 genetic variability on non-insulin-dependent diabetes mellitus prevalence and treatment: a population study

The high affinity sulfonylurea receptor 1 (SUR1) is involved in the metabolism of glucose in pancreatic beta-cells. We investigated the impact of the SUR1 intron 16-3t-->c polymorphism on non-insulin-dependent diabetes mellitus (NIDDM) prevalence in a large representative sample of French men and women, 35-64 years old, and explored potential relationships between the SUR1 intron 16 -t-->c polymorphism and sulfonylurea therapy efficiency. This study took place in Lille (northern), Strasbourg (eastern), and Toulouse (southern France). One hundred and twenty-two subjects with NIDDM were registered. We stratified NIDDM subjects according to their medical treatment: sulfonylureas (n = 70) versus other treatments (n = 50). From the three populations, a control group was selected (n = 1,250). Subjects carrying the cc intron 16 genotype had an increased risk of NIDDM [odds ratio (OR) = 1.76, 95% confidence interval (CI) 1.10-2.80; P = 0.017]. Subjects bearing at least one -3c allele and treated with sulfonylurea agents had fasting plasma triglyceride concentrations 35% lower than subjects that were tt homozygous (P = 0.026), whereas no difference could be detected between genotypes in NIDDM subjects treated with other treatments. The SUR1 intron 16 -3t-->c polymorphism was associated with an increased susceptibility to NIDDM in this population study, and seems to modulate the sulfonylurea therapy efficiency on hypertriglyceridemia reduction. This observation may help to better target the various therapies available for treatment of NIDDM.

Benefits of micronised Fenofibrate in type 2 diabetes mellitus subjects with good glycemic control

AIMS

To determine the effects of micronised fenofibrate on lipids and low density lipoprotein (LDL) subfraction in well-controlled diabetic subjects with mild elevations in cholesterol levels.

METHODS

Thirty-five male type 2 diabetic subjects with LDL(3) greater than 100 mg/dl and good glycemic control (mean HbA1c 6.7%) were treated with micronised fenofibrate in an open labeled study for 6 months. Anthropometric indices, blood pressure, lipids, glucose, insulin, apolipoprotein A-I and B, and LDL subfraction by density ultracentrifugation were obtained after an overnight fast of 10 h, at the beginning and end of the 6 months treatment period.

RESULTS

The blood pressure, waist to hip ratio, body mass index and glycemic control remained unchanged throughout the 6 months study period. Mean serum triglyceride fell from 2.49 to 1.72 mmol/l (33%) whilst HDL cholesterol increased from 0.88 to 0.96 mmol/l (10.8%). There were no significant changes in total or LDL cholesterol. Both LDL(1) and LDL(2) rose significantly whilst the dense LDL(3) fell from a mean of 148 to 85 mg/dl (43% reduction). Fenofibrate changed the LDL subfraction distribution from dense LDL(3) particles towards buoyant LDL(1) and LDL(2) particles in 63% of the subjects. No subjects had elevations in transaminases greater than three-fold or creatine kinase greater than ten-fold from pre-treatment levels.

CONCLUSION

Diabetic subjects with mild hypercholesterolemia and good glycemic control may benefit from therapy with micronised fenofibrate because of the reduction in serum triglyceride, elevation in HDL cholesterol and a shift in LDL subfraction towards a non-atherogenic form.

Decreased protection by HDL from poorly controlled type 2 diabetic subjects against LDL oxidation may Be due to the abnormal composition of HDL

High plasma triglyceride concentrations in diabetic subjects increase their risk for developing coronary heart disease. Numerous studies have shown that the high density lipoprotein (HDL) composition is abnormal in type 2 diabetic subjects. One study has shown that HDL (lipoprotein A-I) isolated from subjects with non-insulin-dependent diabetes mellitus exhibits a decreased capacity to induce cholesterol efflux. The current study examined the effect of HDL(2) and HDL(3) subfractions from poorly controlled type 2 diabetic and control subjects on THP-1 macrophage-mediated low density lipoprotein (LDL) oxidation. The composition and protective effects of HDL(2), but not of HDL(3), differed significantly between control and diabetic subjects. HDL(2) from diabetics were triglyceride enriched and cholesterol depleted compared with those from controls. Control HDL(2) inhibited LDL oxidation, as assessed by lipid peroxides and electrophoretic mobility, significantly (P<0.05) more than did diabetic HDL(2) in both the fasting and postprandial state. In addition, HDL(2) from diabetics did not protect against apolipoprotein B-100 fragmentation in LDL. Cross-linking in apolipoprotein A-I, oxidized in the presence of LDL, was extensive in HDL(2) from diabetics compared with that from controls. Serum triglyceride concentrations were negatively correlated with protection by HDL(2) (r=-0.673, P<0.05) in diabetic but not in control subjects. HDL(2)-associated platelet-activating factor acetylhydrolase activity was positively correlated with protection by HDL(2) in control (r=0.872, P<0.002) but not in diabetic subjects. In conclusion, compositional alterations in HDL(2) from poorly controlled type 2 diabetic subjects may reduce its antiatherogenic properties.

Cardiovascular effects of oral hypoglycaemic drugs

1. There is increasing evidence that sulfonylurea and biguanide oral hypoglycaemic drugs have cardiovascular effects and influence risk factors for cardiovascular disease in patients with non-insulin-dependent diabetes because of actions that are unrelated to alterations in glycaemic control. 2. While sulfonylureas may have anti-arrhythmic effects following myocardial ischaemia, there is concern that their action on vascular ATP-sensitive potassium channels may contribute to elevated blood pressure and enhanced vascular responsiveness. 3. In contrast to sulfonylureas, metformin (a biguanide) appears to reduce blood pressure and have beneficial effects on plasma lipoproteins by reducing low-density lipoprotein cholesterol and possibly increasing high-density lipoprotein cholesterol levels. 4. The pharmacological basis and clinical significance of these effects of sulfonylureas and biguanides require further investigation.

Lipoprotein subfraction composition in non-insulin-dependent diabetes treated by diet, sulphonylurea, and insulin

Lipoprotein abnormalities may predispose to an increased risk of coronary heart disease in type II (non-insulin-dependent) diabetes mellitus. To investigate the effects of different treatment modalities, the composition and concentrations of fasting plasma lipoproteins were determined in a cross-sectional study of patients with type II diabetes at diagnosis, treated by diet alone, treated by diet + glibenclamide (2.5 to 15 mg/d for 6 to 48 months), and treated by diet + insulin (25 to 65 U/d for 8 to 144 months). Compared with normal subjects matched for sex, age, body mass index, exercise, alcohol consumption and smoking, type II patients at diagnosis showed increased concentrations of nonesterified and esterified cholesterol, triglyceride, phospholipid, and protein in the very low density lipoprotein (VLDL) fraction. However, the only alteration in VLDL composition was a small decrease in the relative proportion of phospholipid. Apolipoprotein-B and low density lipoprotein (LDL) cholesterol concentrations were also raised in type II patients at diagnosis. Plasma concentrations of high density lipoprotein (HDL) nonesterified and esterified cholesterol, phospholipid, and apo-AI were lower in type II patients at diagnosis. This was largely accounted for by reduced concentrations of these components in the HDL2 subfraction, which retained a normal composition. Type II patients treated by diet alone and diet + glibenclamide exhibited similar abnormalities of plasma lipoprotein concentrations, which are associated with premature coronary disease, to the type II patients at diagnosis. However, in type II patients treated with insulin, plasma lipoprotein concentrations and composition were normal, except LDL cholesterol, which was lower than normal in insulin-treated patients.(ABSTRACT TRUNCATED AT 250 WORDS)

The effect of glibenclamide and metformin on serum lipoproteins in type 2 diabetes

In a cross-over study, the effects of 3 months treatment with metformin or glibenclamide on body weight, blood glucose control, and serum lipoproteins were compared in 35 Type 2 diabetic patients, inadequately controlled by dietary therapy alone. Glibenclamide alone increased body weight (mean change +2.75 kg; 95% confidence intervals +1.95 to +3.55 kg; p less than 0.0001). Glibenclamide and metformin achieved equivalent blood glucose control, independent of initial body mass index. Neither drug affected serum triglyceride concentration. Metformin alone significantly reduced low density lipoprotein cholesterol (mean change -0.34 mmol l-1; 95% confidence intervals -0.12 to -0.57 mmol l-1; p less than 0.01). Neither drug altered high density lipoprotein or subfraction cholesterol.

Lovastatin for lowering cholesterol levels in non-insulin-dependent diabetes mellitus

Coronary heart disease is an important cause of death in patients with non-insulin-dependent diabetes mellitus (NIDDM) and is particularly common in diabetic populations that have relatively high levels of plasma cholesterol. To determine whether plasma cholesterol levels in patients with NIDDM could be reduced by drug therapy, we assessed the effect of lovastatin, a potent inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A reductase, in a randomized double-blind placebo-controlled manner in 16 white patients with NIDDM and mild to moderate elevations of plasma cholesterol. Lovastatin (20 mg twice daily) or a placebo was given for four weeks, during which blood glucose concentrations remained controlled. As compared with the placebo, lovastatin reduced total cholesterol by 26 percent, low-density lipoprotein (LDL) cholesterol by 28 percent, and LDL apolipoprotein B by 26 percent. Lovastatin therapy also reduced plasma triglycerides and very-low-density lipoprotein cholesterol by 31 percent and 42 percent, respectively. Although there was no change in the plasma level of high-density lipoprotein (HDL) cholesterol, the ratio of total cholesterol to HDL cholesterol fell by 29 percent. No side effects or abnormalities in serum values were noted during short-term lovastatin therapy. The beneficial effects of lovastatin on plasma lipid levels in patients with NIDDM could decrease the risk of the development of coronary heart disease.

Adverse cardiovascular effects of sulphonylurea drugs. Clinical significance

Sulphonylureas are widely used in the treatment of diabetes mellitus. Since the publication of the University Groups Diabetes Program (UGDP) results the discussion on their possible cardiovascular side effects has been lively and sometimes even passionate. The initial UGDP findings about the adverse effects of tolbutamide on the cardiovascular system have been criticised, particularly for shortcomings in the study design. The results of other epidemiological studies of the sulphonylurea effects on cardiovascular morbidity and mortality published this far have been contradictory. This is understandable because the factors involved are very complex. Most of these studies have used tolbutamide only, and the findings cannot necessarily be directly extrapolated to other sulphonylureas. Only properly performed prospective studies may provide further information on this issue. High concentrations of several sulphonylureas may have inotropic effects on heart muscle in in vitro animal models, but human studies performed in vivo do not support the view of clinically significant inotropy for sulphonylureas. High concentrations of tolbutamide or glibenclamide (glyburide) may affect the myocardial metabolism in isolated organs, but the possible clinical significance of these findings remains unknown. Some epidemiological and experimental studies have associated oral antidiabetic treatment with the occurrence of cardiac arrhythmias or increased digitalis toxicity. Only a few results are available, and there may be differences between the sulphonylureas in this respect. Antiaggregatory properties have been postulated for some sulphonylureas. Gliclazide, in particular, has been studied, but some other compounds of this class have also been effective in short term studies. If confirmed, these effects on haemostasis would be noteworthy. The sulphonylurea effects on serum lipids, especially on HDL-cholesterol, have been discussed widely during the last few years. Decreases in HDL-cholesterol concentrations were suggested to be associated with sulphonylurea therapy. However, these findings were not confirmed in recent cross-sectional and longitudinal studies performed with different sulphonylureas. Chlorpropamide, and to a lesser extent tolbutamide, may cause dilutional hyponatraemia and aggravate existing heart failure. Glibenclamide may increase the clearance of water in the kidney.

Lack of sex differences in high density lipoproteins in Pima Indians. Studies of obesity, lipase activities, and steroid hormones

To investigate the reasons for the lack of sex differences in high density lipoproteins (HDL) observed in population studies of the Pima Indians, we selected 18 lean (9 men, 9 women, body mass index (BMI) less than 27) and 22 obese (12 men, 10 women, BMI greater than 27) Pima Indians for an inpatient study of HDL composition. We measured lipase activities and steroid hormone concentrations, both of which have previously been implicated in the control of HDL. The lean women had higher concentrations of HDL and HDL2 than did either the obese women or the lean or obese men. Lean women had significantly lower hepatic lipase activities and significantly higher concentrations of estradiol compared to obese women. Lean women also had different HDL2 composition, as indicated by the molar ratio of HDL2 cholesterol/A-I. Significant negative correlations between HDL and obesity measured by either BMI or percent body fat were observed in both sexes, but the slope of the relationship was steeper in women. Significant negative associations were observed between HDL or HDL2 concentrations and hepatic lipase in both sexes, and there were significant positive associations between HDL2 and plasma estradiol in women. The data suggest that obesity in this population has a stronger negative influence on HDL concentrations in women, possibly through changes in estradiol and hepatic lipase activities. Since there are so few lean women in the Pima population, the net result is that HDL levels in women in the population as a whole do not differ from those of men.

Lipoprotein lipase in diabetes

Lipoprotein lipase has a central role in the metabolism of both triglyceride-rich particles and high density lipoproteins, and it is one determinant of both serum triglyceride and HDL concentrations. In man the enzyme activity in both adipose tissue and skeletal muscle is insulin dependent, and therefore it varies in diabetes according to ambient insulin level and insulin sensitivity. In insulin deficiency (untreated Type 1 diabetes) the enzyme activity in both adipose tissue and muscle tissue is low but increases upon insulin therapy. In chronically insulin-treated patients with good control, the enzyme activity in postheparin plasma is increased. In untreated Type 2 diabetic patients, the average enzyme activity in adipose tissue and postheparin plasma is normal or subnormal. Therapy with oral agents or insulin, resulting in good glycemic control, is followed by an increase of LPL activity in both adipose tissue and postheparin plasma. In both Types 1 and 2 diabetes, changes of LPL activity are associated with relevant alterations in lipoprotein pattern. In insulin deficiency with low LPL, serum total and VLDL triglyceride levels are elevated, and HDL concentration is reduced. In chronically insulin-treated patients with high LPL activity, VLDL triglyceride concentrations are normal or subnormal, and HDL level is increased. In untreated Type 2 diabetic patients subnormal LPL activity may contribute to the elevation of serum triglycerides and to the reduction of HDL level.