Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study postheparin plasma lipase activities in nonfed newborn infants immediately after birth and to investigate the possible influence of fetal hyperinsulinemia on lipoprotein lipase activity, we measured lipoprotein and hepatic lipase activities in 55 macrosomic newborn infants: group I consisted of 21 infants born to mothers with insulin-dependent diabetes. The infants were hyperinsulinemic at birth and had hypoglycemia and poor lipolysis at the age of 2 h. Group II consisted of 18 infants born to mothers with gestational diabetes. Group III consisted of 16 large-for-date infants born to nondiabetic mothers. The mean postheparin plasma lipoprotein lipase activities at 2 h of age were similar (mean 36 mumol free fatty acids/ml/h; SEM 15) in groups I-III. Lipoprotein lipase activity correlated negatively with cord-serum triglycerides (range 0.13-1.2 mmol/liter) but did not correlate with serum insulin (range 5.4-524 microU/ml) or C-peptide (range 0.6-21.0 micrograms/liter). Hepatic lipase activity was somewhat higher in group I (mean 68 mumol free fatty acids/ml/h; SEM 23) than in groups II and III (mean 55 mumol free fatty acids/ml/h; SEM 14). Hemoglobin Alc was the only important factor explaining the difference in hepatic lipase activities between groups. Lipoproteins and apolipoproteins A-I, A-II, and B were similar in all three groups. We conclude that in large-for-date infants lipoprotein lipase is active at birth without exogenous fat induction, and that these infants are capable of hydrolyzing fat, their main source of energy, immediately after birth. In addition, we conclude that postheparin plasma lipoprotein lipase activity is not affected by fetal hyperinsulinemia.
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PMID:Postheparin plasma lipoprotein and hepatic lipase activities in hyperinsulinemic infants of diabetic mothers and in large-for-date infants at birth. 352 12

To evaluate mechanisms of diabetes-induced changes in very-low-density lipoprotein (VLDL), VLDL triglyceride (TG) and VLDL apolipoprotein B (apoB) metabolism were studied in 12 obese Pima Indian control subjects and in 15 Pima Indian obese non-insulin-dependent diabetics. Eleven of the diabetics were restudied after reduction of hyperglycemia with oral sulfonylurea therapy. In addition, adipose, muscle, and postheparin lipoprotein lipase and postheparin hepatic lipase activities were measured in all subjects. Obese diabetics as compared with obese controls showed a trend toward increased production of VLDL TG (46 +/- 4 vs. 35 +/- 6 g/day, P = .10) but not of VLDL apoB (1595 +/- 106 vs. 1597 +/- 164 mg/day, NS); production of VLDL TG declined to control levels (33 +/- 4 g/day, P less than .05) during therapy, whereas there was no change in production of VLDL apoB. Diabetics had a clearance defect for VLDL, indicated by significantly lower fractional catabolic rates for both VLDL TG (10.6 +/- .9 vs. 13.1 +/- .9 pools/day, P less than .05) and VLDL apoB (5.6 +/- .4 vs. 7.5 +/- 0.7, P less than .05) as compared with controls; fractional catabolic rates increased after therapy (to 13.3 +/- 1.5, P less than .05, and 6.7 +/- .4, P less than .05, respectively). In the diabetics, this decrease in clearance was accompanied by a lower adipose lipoprotein lipase (.30 +/- .09 vs. .92 +/- .25 mumol X g-1 X h-1, P less than .01), which increased during therapy (to .61 +/- .17, P less than .05). Hepatic lipase also decreased significantly after therapy (27.4 +/- 3.6 to 26.4 +/- 3.2, P less than .01). Composition of VLDL in diabetics was also abnormal, indicated by a higher TG/apoB ratio (14.7 +/- .6 vs. 11.7 +/- .8, P less than .01); this ratio fell during therapy (to 12.5 +/- .8, P less than .05). The data indicate there are multiple abnormalities in structure and metabolism of VLDL in non-insulin-dependent diabetics. Control of hyperglycemia with sulfonylureas has the capability of reversing some of these abnormalities.
Diabetes 1986 Nov
PMID:Effects of NIDDM on very-low-density lipoprotein triglyceride and apolipoprotein B metabolism. Studies before and after sulfonylurea therapy. 353 Aug 55

There is a very high probability that lipoprotein metabolism plays a central role in the etiology of coronary heart disease. In sedentary persons one way to favorably alter lipoprotein metabolism and possibly delay the progression of coronary atherosclerosis is by an increase in their habitual physical activity. More physically active persons tend to have lower plasma triglycerides and very low density lipoprotein concentrations, and a greater high-density lipoprotein mass due to higher concentrations of the subfraction HDL2 and apoprotein A-I. Plasma low-density lipoprotein concentrations usually are not significantly reduced by exercise unless accompanied by weight loss, but there may be important changes in the distribution among the low-density subfractions. These exercise effects are most likely mediated by alterations in the activity of enzymes involved in the synthesis, transport and catabolism of the various lipoproteins including lipoprotein lipase, hepatic lipase and lecithin: cholesterol acyltransferase. In healthy persons as well as in patients with ischemic heart disease, diabetes and renal failure, an increase in moderate-intensity, endurance-type activity requiring an expenditure of approximately 4 MJ (1,000 kcal) per week usually produce favorable lipoprotein changes. Above this level a dose-response relationship exists, with greater changes occurring up to energy expenditures of 19 MJ (4,500 kcal) per week.
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PMID:The influence of exercise training on plasma lipids and lipoproteins in health and disease. 353 12

Circulating triglyceride is cleared by a combination of hepatic triglyceride lipase (H-TGL) and lipoprotein lipase (LPL). Although LPL has been extensively studied in diabetes, the effect of insulinization on H-TGL activity has not been well characterized. To determine whether H-TGL activity is altered in insulin-deficient diabetes, postheparin plasma was obtained from eight beagle dogs: three normal (nondiabetic) control dogs and five pancreatectomized diabetic dogs were studied acutely in poor diabetic control (underinsulinized), and again in short-term good control (well insulinized). Plasma glucose, measured at the start of the studies, was 88 +/- 10 mg/100 mL (mean +/- SD) in the normal control dogs, 434 +/- 31 mL in pancreatectomized dogs in poor diabetic control, and 87 +/- 16 in good diabetic control. Peak (five minutes) postheparin plasma H-TGL activity was increased in dogs in poor diabetic control (212 +/- 43 nmol FFA/min/mL) v the normal control dogs (135 +/- 21 nmol FFA/min/mL, P less than 0.02). When the dogs were in good diabetic control, the peak H-TGL (202 +/- 40 nmol FFA/min/mL) was also significantly increased compared with the level in normal dogs, while the sum of five and 45 minute postheparin H-TGL levels for the dogs in good diabetic control was less than when they were in poor diabetic control (P less than 0.01). Thus, insulin-deficient diabetes in dogs increases H-TGL, and short-term improvement of glycemic control with insulin partially corrects this increase.
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PMID:Hepatic triglyceride lipase in diabetic dogs. 388 96

Carbohydrate and lipid metabolism were studied in 10 patients who had undergone total pancreatectomy. The results were compared with Type I diabetic patients and normal subjects, all of whom were matched for age, sex and weight. At the same level of glycemic control, the daily need for insulin was significantly lower in the patients with pancreatogenic diabetes than in those with Type I diabetes. Concentrations of serum total VLDL and HDL triglyceride were higher in the pancreatectomized patients than in the diabetic or normal controls, whereas concentrations of serum total and LDL cholesterol were significantly lower. The composition of the VLDL, LDL and HDL particles was abnormal in the totally pancreatectomized patients as all three lipoprotein fractions were enriched in triglyceride. HDL2 cholesterol was similar in the totally pancreatectomized patients to that in the other two groups but HDL3 cholesterol was lower. Postheparin plasma lipoprotein lipase and hepatic lipase activities were normal. It is concluded that in totally pancreatectomized patients the changes in the lipoprotein profile on reflect more the action of various confounding factors, i.e. malabsorption, continuance of alcohol abuse and dietary changes than the impact of the diabetes itself.
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PMID:Glycemic control and serum lipoproteins after total pancreatectomy. 405 43

Eighty diabetic patients, consecutively selected from an out-patient clinic, were studied with regard to plasma lipoprotein levels, especially HDL. Patients treated with sulphonylureas had 24% lower HDL cholesterol concentrations (p less than 0.01) but only about 7% lower apo AI levels (n.s.) than those on insulin treatment. This difference could at least partly be explained by differences in age and type of diabetes. There was no relationship between the degree of diabetic control, as measured by fasting blood glucose levels, and HDL levels. In two subgroups of insulin-treated diabetics, selected to represent extremely low and high HDL levels (range 0.5-0.8 and 1.8-2.0 mmol/l, respectively) but matched with regard to age, duration of diabetes, insulin dosage and diabetic control, the activities of lipoprotein lipase and hepatic lipase in postheparin plasma were also recorded. The high HDL group had significantly higher lipoprotein lipase activities (p less than 0.01) and significantly lower hepatic lipase activities (p less than 0.05) than the low HDL group, supporting the hypothetical roles of these enzymes in HDL metabolism, and offering a tentative mechanism behind the large variability of HDL levels in diabetics.
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PMID:Plasma high density lipoproteins and lipolytic enzyme activities in diabetic patients. 634 Apr 23

The effects of treatment on plasma total triglyceride, total cholesterol, and plasma postheparin lipase activities have not been evaluated in non-insulin-dependent diabetic (NIDD) subjects without a coexisting familial lipid disorder. In 49 untreated NIDD subjects, there was a linear relationship between glycosylated hemoglobin (GHb) and triglyceride (r = 0.35, P less than 0.02). This correlation was improved after adjusting for the effects of obesity by a partial correlation analysis. After therapy, there was a significant relationship between the change in GHb and the change in triglyceride. To determine whether changes in lipid removal from plasma may contribute to the decrease in plasma lipid concentrations during treatment, the plasma postheparin lipoprotein lipase and hepatic lipase activities were evaluated in a subgroup (N = 8) of these NIDD subjects before and after 1 and 3 mo of therapy. Plasma postheparin hepatic lipase activity in the NIDD subjects was not different from that observed in six normal control subjects and did not change during therapy. In contrast, plasma postheparin lipoprotein lipase activity was lower in the untreated NIDD subjects than in the control subjects. Analysis of the two phases (early and late) of the postheparin lipoprotein lipase activity in plasma showed that the abnormal early phase in untreated NIDD corrected to normal values in less than a month, but the late phase was not corrected until the 3-mo measurement. These findings suggest that some NIDD subjects have a defect in heparin releasable lipoprotein lipase activity, which is reversed with improved glycemic control.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1983 Jun
PMID:The response of plasma triglyceride, cholesterol, and lipoprotein lipase to treatment in non-insulin-dependent diabetic subjects without familial hypertriglyceridemia. 635 82

Fasting in normal rats produced a fall in hepatic triglyceride lipase (H-TGL) activity as well as lipoprotein lipase (LPL) activities of adipose tissue and psoas minor muscle. On the other hand, LPL activities of heart and diaphragm were not decreased by fasting; the former, in fact, was increased significantly. Changes in tissue specific lipase activity caused by withdrawal of insulin from insulin-treated diabetic animals paralleled in direction the changes induced by starvation of normal rats. Furthermore, it was shown in the present paper that the tissue specific lipase activity of diabetic rats became stuck in the starve phase of the starve-feed cycle regardless of dietary intake. The changes of the tissue specific lipase activities, especially of liver, adipose tissue and heart, appeared to coincide with those of plasma insulin levels. These results strongly suggest that the tissue specific lipase system is under hormonal regulation by insulin. Streptozotocin diabetes produced hypertriglyceridemia. The possible mechanism of the hypertriglyceridemia in diabetic animals was discussed in connection with the role of the tissue specific lipase system in the serum triglyceride metabolism.
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PMID:The effects of streptozotocin diabetes on tissue specific lipase activities in the rat. 638 14

Plasma lipids and lipoproteins were studied in 26 nonobese diabetic patients, either newly diagnosed or unsatisfactorily controlled by oral antidiabetic treatment. Measurements were performed before and 3-4 mo after the institution of insulin treatment. In a subgroup of seven patients, the activities of lipoprotein lipase (LPL) and hepatic lipase (HL) in postheparin plasma and the elimination rate of exogenous triglyceride were also monitored. After beginning insulin treatment, diabetic control was improved as demonstrated by decreasing levels of HbA1. Mean plasma cholesterol and triglyceride levels decreased by about 10% (P less than 0.01) and 40% (P less than 0.05), respectively. The decrease in plasma cholesterol was largely accounted for by a fall in LDL cholesterol levels (-8%, P less than 0.05), while plasma HDL cholesterol concentrations increased by about 12% (P less than 0.01). The elimination rate of exogenous triglycerides increased significantly. There was a suggestive, but not significant, increase in LPL activity while the HL activity remained unchanged. It is concluded that the improved diabetic control after institution of insulin treatment results in a significant improvement of the plasma lipoprotein profile. Since the improvement of the lipoprotein pattern is not strictly correlated to the amelioration of indices reflecting glucose transport, we suggest that the plasma lipoprotein pattern may provide an additional tool for monitoring the degree of control in diabetes mellitus.
Diabetes Care
PMID:Improvement of the plasma lipoprotein pattern after institution of insulin treatment in diabetes mellitus. 675 40

A rare case of acromegaly developing gross hyperlipidemia not associated with overt diabetes was presented. Gross hyperlipidemia revealed type V hyperlipoproteininemia, according to agarose gel electrophoretic pattern of serum lipoprotein. Before pituitary surgery, the serum levels of cholesterol and triglyceride were 320 mg/dl and 1830 mg/dl respectively, and the basal level of growth hormone was markedly elevated, ranging from 129 to 231 ng/ml with the mean +/- SD of 168 +/- 39 ng/ml. The enzymatic activities of hepatic triglyceride lipase (H-TGL) and lipoprotein lipase (LPL) were 14.2 and 1.50 mumoles/ml/hour, respectively. H-TGL activity was normal, while LPL activity was extremely low compared to those of normal subjects. After combined therapy with pituitary surgery and 60Co radiation, the serum level of growth hormone was decreased to 35.9 +/- 8.6 ng/ml in the mean +/- SD, but not normalized. However, the serum level of triglyceride was decreased and both H-TGL and LPL activities were increased to 19.3 and 2.7 mumoles/ml/hour, respectively. LPL activity was increased 79% compared to the level of pretreatment. Agarose gel electrophoretic pattern of lipoprotein changed from type V to type IV and ultracentrifugal analysis showed that very low density lipoprotein (VLDL)-cholesterol was decreased and intermediate density lipoprotein (IDL)-cholesterol, low density lipoprotein (LDL)-cholesterol and high density lipoprotein (HDL)-cholesterol were increased.
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PMID:Secondary type V hyperlipoproteinemia in an acromegalic patient without overt diabetes. 708 27


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