Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several large family studies are reviewed to identify results suggesting single gene traits contributing to the occurrence of hypertension in humans. Segregation analysis in families has suggested major gene effects for several highly heritable traits associated with hypertension. These include recessively segregating high sodium-lithium countertransport (major gene H2 = 34%), additively segregating low urinary kallikrein excretion (major gene H2 = 51%), and recessively segregating hyperinsulinemia (major gene H2 = 33%). In some families, hypertension and metabolic abnormalities (dyslipidemia, hyperinsulinemia, and obesity) seem to be related to several candidate genes studied but not conclusively proven (LPL deficiency mutations, dense LDL subfractions, or NIDDM with hyperinsulinemia). More recently, DNA markers have identified genes promoting hypertension. Glucocorticoid-remediable aldosteronism (GRA) promotes a rare but unusual form of hypertension that is unresponsive to ordinary medications but very responsive to glucocorticoid medications. GRA has been found in hypertensive persons with a specific mutation of the 11 beta-hydroxylase gene on chromosome 8q21. Many persons with essential hypertension carry a common "susceptibility gene" at the angiotensinogen locus (chromosome 1q4) identified using linkage studies in siblings, association studies, and in studies of preeclampsia and hypertension in pregnant women. These first two well-established genetic loci promoting human hypertension represent two ends of a broad spectrum. The rare "determinant" gene for GRA by itself seems to produce severe hypertension and early strokes. The angiotensinogen (AGT) "susceptibility" gene is very common (30% of Utah Caucasians) and seems to predispose to hypertension but probably requires other genetic and environmental influences to be fully expressed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for single gene contributions to hypertension and lipid disturbances: definition, genetics, and clinical significance. 798 84

This study evaluates the effects of insulin versus glibenclamide on lipoprotein metabolism at comparable levels of blood glucose control, in particular on the concentration and distribution of VLDL subfractions and lipolytic enzyme activities in nine NIDDM men (aged 56 +/- 3 years, BMI 26.5 +/- 0.9 kg/m2) (means +/- SE) participating in a crossover study. After a 3-week washout period, patients were randomly assigned to 2-month treatment periods (insulin or glibenclamide); thereafter, each patient crossed to the other treatment. At the end of each period, mean daily blood glucose (MDBG), HbA1e, plasma lipids, lipoproteins (VLDL, LDL, HDL), lipoprotein subfractions (VLDL1, 2, 3; HDL2, HDL3), and post-heparin lipase activities (lipoprotein lipase [LPL], hepatic lipase [HL]) were evaluated. Although glucose control was similar at the end of both periods (MDBG 8.3 +/- 0.3 vs. 7.9 +/- 0.3 mmol/l; HbA1c 7.4 +/- 0.3 vs. 7.0 +/- 0.2%, insulin versus glibenclamide), insulin compared with glibenclamide induced a significant reduction in plasma triglycerides (0.9 +/- 0.1 vs. 1.1 +/- 0.1 mmol/l, P < 0.05), VLDL triglycerides (50.1 +/- 12.2 vs. 63.6 +/- 12.3 mg/dl, P < 0.02), VLDL1 lipid concentration (24.9 +/- 7.5 vs. 39.9 +/- 9.5 mg/dl, P < 0.006), and increased HDL2 cholesterol (25.2 +/- 1.6 vs. 20.3 +/- 1.3 mg/dl, P < 0.03). In terms of VLDL percentage subfraction distribution, with insulin, there was a decrease in the larger subfractions (VLDL1 26.5 +/- 3.0 vs. 37.8 +/- 3.4%, P < 0.02) and an increase in the smallest (VLDL3 47.3 +/- 3.8 vs. 37.3 +/- 3.3%, P < 0.05). Moreover, HL activity was significantly lower after insulin than after glibenclamide (HL 247.2 +/- 22.3 vs. 263.5 +/- 22.6 mU/ml, P < 0.05). In conclusion, compared with glibenclamide, insulin treatment (independent of variations in glucose control) is able to decrease significantly plasma triglycerides, to increase HDL2 cholesterol, and to reduce only the concentration of the larger VLDL subfractions, with a consequent redistribution of their profile.
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PMID:Insulin and sulfonylurea therapy in NIDDM patients. Are the effects on lipoprotein metabolism different even with similar blood glucose control? 931 56

There exists lipoprotein lipase mass in preheparin serum, even though the activity is scarcely found. We studied the preheparin serum lipoprotein lipase mass levels (prehaparin LPL mass) in type 2 diabetes mellitus patients and the effect of insulin therapy on the levels of preheparin LPL mass. In 40 type 2 diabetes mellitus patients, preheparin LPL mass were measured by the sandwich enzyme-linked immunosorbent assay (ELISA), and were compared with those of non-diabetic healthy control. The correlation between preheparin LPL mass and Hemoglobin A(1c) (HbA(1c)), serum lipids were studied. Preheparin LPL mass were measured before and after insulin therapy. Preheparin LPL mass of type 2 diabetes mellitus patients was significantly lower than that of non-diabetic healthy control. In diabetic patients, preheparin LPL mass were negatively correlated with HbA(1c). Fifteen patients started to take insulin therapy. Preheparin LPL mass increased significantly at 4th week, when fasting blood glucose decreased. These results suggested that preheparin LPL mass was greatly regulated by insulin action.
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PMID:Low lipoprotein lipase mass in preheparin serum of type 2 diabetes mellitus patients and its recovery with insulin therapy. 1194 65

To clarify whether 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (statin) increases lipoprotein lipase mass in preheparin plasma (preheparin LPL mass), we observed the change in preheparin LPL mass during administration of atorvastatin and pravastatin to type 2 diabetes mellitus patients with hypercholesterolemia. The subjects were randomly divided into two groups. One group was 24 patients given atorvastatin (10 mg/day), and the other was 23 patients given pravastatin (20 mg/day) for 4 months. After 4 months of administration, no significant change of HbA1c was observed. TC significantly decreased in the atorvastatin group compared to the pravastatin group. TG significantly decreased in the atorvastatin group. Low density lipoprotein cholesterol level significantly decreased in both groups (- 36.3%, p < 0.01 in atorvastatin, - 24.3%, p < 0.01 in pravastatin). Preheparin LPL mass slightly increased in both groups after 4 months of administration. Especially in patients who showed low preheparin LPL mass (less than 50 ng/ml) before statin administration, preheparin LPL mass significantly increased in both groups (+ 25.8% in the atorvastatin group, + 24.39% in the pravastatin group). These results suggested that administration of atorvastatin and pravastatin to type 2 diabetic patients with hypercholesterolemia increased serum preheparin LPL mass concentration. Especially, its effect was remarkable in patients who showed low preheparin LPL mass.
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PMID:Atorvastatin and pravastatin elevated pre-heparin lipoprotein lipase mass of type 2 diabetes with hypercholesterolemia. 1564 88

We studied the correlation between the adiponectin-leptin (A/L) ratio and parameters of insulin resistance in 220 Japanese patients with type 2 diabetes (138 men and 82 women). Body mass index (BMI), triglycerides (TGs), HDL cholesterol (HDL), and preheparin serum lipoprotein lipase (LPL mass) were examined as laboratory parameters of the insulin resistance. The correlations between these laboratory parameters and adiponectin, leptin, or A/L ratio were studied. Adiponectin levels correlated significantly with BMI (r = -0.298, P = .0003), TGs (r = -0.221, P = .0092), HDL (r = 0.31, P = .0002), and LPL mass (r = 0.26, P = .0021) in men, and with TGs (r = -0.29, P = .0093), HDL (r = 0.239, P = .0338), and LPL mass (r = 0.499, P < .0001) in women. Leptin levels correlated significantly with only BMI (r = 0.31, P = .0002) in men, and with BMI (r = 0.71, P < .0001) and TGs (r = 0.26, P = .0201) in women. Adiponectin and leptin levels tended to correlate with these parameters in an opposite manner. On the other hand, A/L ratio significantly correlated with BMI (r = -0.4, P < .0001), TG (r = -0.199, P = .0192), HDL (r = 0.235, P = .0054), and LPL mass (r = 0.244, P = .0390) in men, and with BMI (r = -0.482, P < .0001), TG (r = -0.402, P = .0002), HDL (r = 0.358, P = .0011), and LPL mass (r = 0.487, P < .0001) in women. Next, the patients were divided into 3 groups classified by their fasting plasma glucose (FPG) level, and the correlations between the parameters and A/L ratio or homeostasis model assessment (HOMA-R), and the correlation between A/L ratio and HOMA-R were investigated in each group. Significant correlations between the parameters and A/L ratio were tended to be observed as the FPG level rose; however, the significant correlations between the parameters and HOMA-R were no longer seen as FPG level elevated. The results suggested that the A/L ratio was effective in relevance as a parameter of insulin resistance to adiponectin or leptin alone, and a more sensitive and reliable marker of insulin resistance than HOMA-R as the FPG level elevated, in patients with type 2 diabetes.
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PMID:Correlation between the adiponectin-leptin ratio and parameters of insulin resistance in patients with type 2 diabetes. 1573 3

Elevated plasma levels of VLDL triglycerides (TGs) are characteristic of patients with type 2 diabetes mellitus (T2DM) and are associated with increased production rates (PRs) of VLDL TGs and apoB. Lipoprotein lipase-mediated (LPL-mediated) lipolysis of VLDL TGs may also be reduced in T2DM if the level of LPL is decreased and/or the level of plasma apoC-III, an inhibitor of LPL-mediated lipolysis, is increased. We studied the effects of pioglitazone (Pio), a PPARgamma agonist that improves insulin sensitivity, on lipoprotein metabolism in patients with T2DM. Pio treatment reduced TG levels by increasing the fractional clearance rate (FCR) of VLDL TGs from the circulation, without changing direct removal of VLDL particles. This indicated increased lipolysis of VLDL TGs during Pio treatment, a mechanism supported by our finding of increased plasma LPL mass and decreased levels of plasma apoC-III. Lower apoC-III levels were due to reduced apoC-III PRs. We saw no effects of Pio on the PR of either VLDL TG or VLDL apoB. Thus, Pio, a PPARgamma agonist, reduced VLDL TG levels by increasing LPL mass and inhibiting apoC-III PR. These 2 changes were associated with an increased FCR of VLDL TGs, almost certainly due to increased LPL-mediated lipolysis.
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PMID:Effects of the PPARgamma agonist pioglitazone on lipoprotein metabolism in patients with type 2 diabetes mellitus. 1584 Dec 15

Statins decrease triglycerides (TGs) in addition to decreasing low density lipoprotein-cholesterol. Although the mechanism for the latter effect is well understood, it is still unclear how TG decrease is achieved with statin therapy. Because hypertriglyceridemia is common in obese patients with type 2 diabetes mellitus, we studied triglyceride-rich lipoprotein triglyceride (TRL-TG) turnover in 12 such subjects using stable isotopically labeled glycerol. The diabetic subjects were studied after 12 weeks of placebo and after a similar course of therapy with simvastatin (80 mg daily) in a single-blind design. The results were compared with those from six nonobese nondiabetic control subjects. Simvastatin therapy reduced serum TGs by 35% in the diabetic subjects. Compared with the control subjects, TRL-TG secretion was almost 2-fold higher in the diabetic subjects (45.4 +/- 4.9 vs. 24.4 +/- 1.9 micromol/min; P < 0.002) and was unaffected by simvastatin therapy. However, TRL-TG clearance was significantly increased in the diabetic subjects during simvastatin treatment compared with placebo (0.25 +/- 0.03 vs. 0.16 +/- 0.02 pools/h; P < 0.002). This change was accompanied by a 49% increase in preheparin plasma lipase activity (P < 0.03) and a 21% increase in postheparin LPL activity (P < 0.01). Together, these findings provide strong evidence that the effect of statins on serum TGs is related to an increase in LPL activity, resulting in accelerated delipidation of TRL particles. The effect of high-dose simvastatin on triglyceride-rich lipoprotein metabolism in patients with type 2 diabetes mellitus.
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PMID:The effect of high-dose simvastatin on triglyceride-rich lipoprotein metabolism in patients with type 2 diabetes mellitus. 1625 65

Our study evaluated the relationship between the pathologic changes associated with atherosclerosis, as primarily represented by postprandial remnant-like lipoproteins and carotid intima-media thickness (IMT), in type 2 diabetic patients. Meal tolerance tests (MTT) were performed in 68 patients with type 2 diabetes. The subjects were divided by pre-meal and 2-h postprandial triglyceride (TG) levels into the normotriglyceridemia (NTG) group; the postprandial hypertriglyceridemia (PHTG) group; and the fasting hypertriglyceridemia (FHTG) group. HOMA-R values were significantly higher in the FHTG group than in the NTG group, with the plasma pre-heparin LPL mass and serum adiponectin levels in the FHTG and PHTG groups significantly lower than in the NTG group. One- and two hour postprandial RLP-TG levels were significantly higher in the PHTG group than in the NTG group, while there was no significant difference in postprandial glucose levels between the two groups. The IMT values were significantly higher in both the FHTG and PHTG groups than in the NTG group. Logistics regression analysis of the 1- and 2-h RLP-TG values using IMT as an induced variable showed the odds ratio for high IMT values to be 5.17 (p < 0.05) for the 1-h RLP-TG values and 3.01 (p = 0.105) for the 2-h RLP-TG values. Our study results suggest that delayed TG metabolism leading to the retention of remnants in type 2 diabetic patients appears to be closely associated with atherosclerosis, and that postprandial hyperlipidemia is an independent risk factor for the early onset of atherosclerosis.
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PMID:Association between postprandial remnant-like particle triglyceride (RLP-TG) levels and carotid intima-media thickness (IMT) in Japanese patients with type 2 diabetes: assessment by meal tolerance tests (MTT). 1638 88

We previously reported that lipoprotein lipase mass level in preheparin serum (preheparin LPL mass) was significantly lower in type 2 diabetes mellitus compared to healthy subjects and increased by conventional insulin therapy using NPH (intermediate-acting) insulin. The aim of this study was to investigate the effects of intensive insulin therapy on preheparin LPL mass. Thirty-two subjects (total group) with type 2 diabetes receiving treatment by NPH insulin injection twice a day in the morning and evening were switched to basal bolus insulin (BBI) therapy (fast-acting insulin after each meal and NPH insulin before bedtime). In 14 subjects, the total daily insulin dose was not change after switching to BBI therapy (iso-dose group). After 3 months of BBI therapy, preheparin LPL mass increased significantly from 47 to 56 ng/ml in total group. Glycosylated hemoglobin and serum triglyceride levels decreased significantly, and high-density lipoprotein-cholesterol increased significantly. Low-density lipoprotein levels did not changed but increase in size was suggested by PAG disc electrophoresis. Similar changes were observed in the iso-dose group. These results suggest that BBI therapy enhances preheparin LPL mass, accompanied by antiatherogenic changes in glucose and lipid metabolism.
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PMID:Enhancement of serum lipoprotein lipase mass levels by intensive insulin therapy. 1644 9

To investigate the relationship between insulin resistance, postprandial hyperglycemia, postprandial hyperlipidemia, and oxidative stress in type 2 diabetes, changes in postprandial glucose, triglyceride, and nitrotyrosine levels vs baseline after diet loading were examined in type 2 diabetic patients given pioglitazone (PG) or glibenclamide (GB). Twenty-four outpatients with type 2 diabetes treated with oral PG for 6 mo (BMI, 26.3 +/- 0.9; HbA1c, 8.2 +/- 0.2%) and 10 type 2 diabetic patients treated with GB (BMI, 27.4 +/- 1.6; HbA1c, 8.1 +/- 0.2%) at our institutions were compared. These patients were given meal tolerance tests (MTT; each consisting of energy 400 kcal, protein 8.7 g, fat 22.4 g, carbohydrate 41 g) before and 6 mo after administration of either agent. PG produced a significant decrease in FPG, HbA1c, HOMA-R, and TG levels in the subjects compared to baseline. In contrast, GB significantly decreased FPG and HbA1c levels, while not affecting HOMA-R and TG values. While PG produced a significant increase in LPL, HDL-cholesterol, and adiponectin levels, GB did not affect these values. At MTT 6 mo after PG administration, insulin levels before and 4 h after MTT, free fatty acid (FFA) levels 1, 2, and 4 h after MTT, glucose, TG, and RLP-TG levels before and 1, 2, 4, and 6 h after MTT were significantly decreased compared to baseline. At MTT 6 mo after GB administration, while a significant decrease in fasting and 2 h, postprandial glucose values compared to baseline MTT levels was observed, fasting and postprandial TG and RLP-TG levels remained unchanged compared to baseline. After 6 mo of PG and GB administration, serum nitrotyrosine levels before and after MTT were significantly decreased compared to baseline in both groups, while the decrease in nitrotyrosine levels before and after MTT was more marked in the subjects given PG. Our study results suggest that PG suppresses increases in postprandial glucose and TG levels, and improves insulin resistance; and, in addition, that PG may have a favorable impact on oxidative stress in type 2 diabetic patients.
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PMID:Effects of pioglitazone vs glibenclamide on postprandial increases in glucose and triglyceride levels and on oxidative stress in Japanese patients with type 2 diabetes. 1662 3


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