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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of hormone administration on the activity of lipoprotein lipase in the lung was studied in the rat. The following hormones were administered: dexamethasone, L-thyroxine, estradiol-17beta and progesterone. In addition, lung lipoprotein lipase activity was studied in diabetic and lactating rats. Lipoprotein lipase activity was measured in dried, defatted preparations of rat lung using double labeled ([14C]palmitate, [3H]glycerol) chylomicron triacylglycerol as substrate. Dexamethasone administration caused a rise of 70% in the level of activity of lipoprotein lipase in acetone powders of lung and a 100% increase in the amount of enzyme released during heparin infusion into isolated, perfused lungs. Enzyme activity was higher in lungs of females than of male rats; however; the level of activity was unaffected by estrogen or progesterone administration to either male or ovariectomized rats. Diabetes, hyperthyroidism or lactation did not change lipoprotein lipase activity in the lung. The constant presence of lipoprotein lipase activity in the lung suggests that this organ is able to maintain a steady supply of triacylglycerol-fatty acids under a variety of physiological and pathological conditions. Stimulation of enzyme activity by dexamethasone could lead to increased uptake of triacylglycerol-fatty acids by the lung and may thus be a contributing factor to corticosteroid-induced enhanced surfactant synthesis.
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PMID:Lipoprotein lipase in rat lung. Effect of dexamethasone. 13 65

The activity of hepatic triglyceride lipase in the rat was reduced by fasting. Withdrawal of insulin from insulin-treated streptozotocin-diabetic rats resulted in a decrease in hepatic triglyceride lipase activity. The behavior of the enzyme in both situations was similar to that of adipose tissue lipoprotein lipase. It is concluded that hepatic triglyceride lipase, like adipose tissue lipoprotein lipase, is under hormonal regulation by insulin.
Diabetes 1977 Jan
PMID:The effects of fasting and streptozotocin diabetes on hepatic triglyceride lipase activity in the rat. 13 56

There are several causes for hyperlipemia in the diabetic: (a) an increase in hepatic synthesis of prebetalipoproteins, and (b) reduced elimination of prebetalipoproteins and chylomicrons from the bloodstream, due to diminished activity of lipoprotein lipase in insulin deficiency. The role of heredity has been put in doubt by the observation that diabetes and hypertriglyceridemia are not transmitted by the same genetic factor. The shortterm and longterm implications of diabetic hyperlipemia are discussed, together with the treatment.
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PMID:[Hyperlipemia and diabetes]. 18 65

The activity of two triglyceride lipases was determined by an immunochemical method in the postheparin plasma of 60 diabetic patients and of 47 age- and sex-matched nondiabetic control subjects. The results were related to the type of diabetes, to plasma triglyceride and insulin concentrations, to removal of exogenous fat from the blood, and to turnover of VLDL-triglycerides . The mean postheparin plasma lipoprotein lipase (LPL) activity was decreased by 44 per cent (p less than 0.001) in patients with untreated ketotic diabetes and by 20 per cent (p less than 0.01) in patients with untreated mild to moderate nonketotic early-onset diabetes. Insulin treatment of ketotic diabetes resulted in a rapid increase in the activity of LPL and decrease in serum triglycerdie level, whereas sulfonylurea treatment of non-insulin-requiring diabetics did not significantly influence the enzyme activity. In insulin-treated chronic diabetics the average postheparin plasma LPL activity was not different from that of nondiabetic controls, but some of these patients had high LPL values. In normolipidemic maturity-onset-type diabetics the LPL activity was within normal range, but in those having hypertriglyceridemia the average LPL value was decreased by an average of 26 per cent (p less than 0.01). The LPL activity showed a significant negative correlation with the logarithm of serum triglyceride concentration (r = -0.62) and a positive correlation with fractional removal of Intralipid (r = +0.64) and fractional turnover of V triglyceride (r = +0.40). The activity of LPL was correlated to basal plasma insulin concen tration in the insulin-deficient diabetes r = +0.34) but not in patients with maturity-onset-type diabetes. The hepatic lipase (HL) activity of postheparin plasma was similar in diabetes and controls, with the exception of hypertriglyceridemic maturity-onset diabetics, who had higher mean HL activity than the corresponding control group (p greater than 0.01). The activity of HL was not related to triglyceride removal but showed a significant correlation to VLDL-triglyceride production rate. On the basis of these results it seems that a deficiency of LPL accounts for a great deal of the elevation of serum triglyceride in insulin-deficient human diabetes but has a smaller role in the pathogenesis of the hypertriglyceridemia that is associated with maturity-onset diabetes. The latter abnormality is caused mainly by an increased secretion of triglycerides into the blood even though a decreased LPL may contribute to development of hyperlipemia in cases with gross elevation of serum triglycerides.
Diabetes 1977 Jan
PMID:Postheparin plasma lipoprotein lipase and hepatic lipase in diabetes mellitus. Relationship to plasma triglyceride metabolism. 18 16

In a 60-year-old patient with manifest diabetes mellitus and in his 63-year-old brother with latent diabetes mellitus hypobeta-lipoproteinaemia was diagnosed. Cholesterol values were around 1,8 mmol/1 in whole serum samples. The LDL-cholesterol fraction was 1,04 mmol/1. The beta-lipoprotein band in the lipoprotein electrophoresis was markedly reduced. Apolipoprotein B measured by radial immuno-diffusion was about 30% of the normal for age. The components of LDL were normal. Values of hepatic triglyceride lipase and lipoprotein lipase in heparinised plasma were within the normal range. The simultaneous occurrence of hypobetalipoproteinaemia and diabetes mellitus is described here for the first time.
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PMID:[Familial hypobetalipoproteinaemia and diabetes mellitus (author's transl)]. 19 10

Skeletal muscles from 12 male, juvenile-onset diabetics (JD) and 13 nondiabetics (ND) were studied to determine the effects of endurance training on mitochondrial enzyme activities, lipoprotein lipase (LPL) activity, and the oxidation of lipids (14C-palmityl CoA) in vitro. Ten weeks of endurance running (30 min/day, 5 days/wk) resulted in 11.0 and 12.9% gains in aerobic capacity for the JD and ND groups (P greater than 0.05), respectively. Both groups showed significant (P less than 0.05) increases in muscle LPL, carnitine palmityl transferase, succinate dehydrogenase, and hexokinase activities with training. Though the pretraining capacities for 14C-palmityl CoA oxidation were similar for both ND and JD groups, the diabetics showed a 41% greater improvement in the measurement of muscle lipid oxidation after training than did the ND group. The principal finding of this research was that skeletal muscle of juvenile diabetics who are in moderate insulin balance shows adaptations to endurance training that are similar to those of nondiabetic men.
Diabetes 1979 Sep
PMID:Training adaptations in skeletal muscle of juvenile diabetics. 46 7

Hypertriglyceridemia is common in untreated diabetes mellitus. An abnormality in the interaction of lipoprotein lipase with endogenous circulating plasma lipoprotein triglyceride has been demonstrated in untreated diabetes. These diabetics have a decreased maximal removal capacity for plasma triglyceride (27.0 mg TG/kh/hr) and increased Km (390 mg/dl) for endogenous plasma triglyceride-lipoprotein lipase interaction compared to that found in nondiabetic hypertriglyceridemic subjects (Vmax, 32.0; km, 157). Diabetics treated for at least two months have a maximal removal capacity and Km similar to that of nondiabetic subjects (Vmax, 32.7; Km, 192). No evidence for an increase in triglyceride production due to diabetes per se was found. When diabetic subjects with triglyceride levels over 400 mg/dl were selected for study, most were found to have an independent familial form of hypertriglyceridemia.
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PMID:Abnormal lipoprotein-lipase-mediated plasma triglyceride removal in untreated diabetes mellitus associated with hypertriglyceridemia. 48 Dec 15

Fat feeding stimulated the release of gastric inhibitory polypeptide (GIP) without concomitant insulin secretion. Since antilipolytic effects of GIP have been demonstrated and the uptake of triglyceride fatty acid by adipose tissue postprandially is a process reciprocally regulated with lipolysis, a stimulatory role of GIP on adipose tissue lipoprotein lipase activity may be present. After cultured preadipocytes were incubated for 2 h with GIP, the release of lipoprotein lipase activity into the culture medium and the total cellular activity present in acetone-ether powders of cells were measured. GIP stimulated significant increases in the lipoprotein lipase activity released into the culture medium and in cells. A dose response relationship was strongest for the effect of GIP on the enzyme activity in extracts of acetone-ether powders of the cells. The increased lipoprotein lipase activity produced by GIP could provide a mechanisms for clearance of chylomicron triglyceride after feeding in man.
Diabetes 1979 Dec
PMID:Gastric inhibitory polypeptide enhanced lipoprotein lipase activity in cultured preadipocytes. 51 Aug 13

To test whether abnormalities in multiphasic release of lipoprotein lipase are associated with hypertriglyceridemia in diabetes mellitus, postheparin lipolytic activity (PHLA) was measured during a high-dose, constant heparin infusion in 20 diabetic subjects with hypertriglyceridemia, 25 nondiabetic hypertriglyceridemic subjects and 7 normal subjects. The standard low heparin dose PHLA and the PHLa during the early phase of the heparin infusion were the same in all groups. In constrast, the PHLA during the late phase of the heparin infusion was lower in the 12 untreated diabetic subjects than in the 25 nondiabetic hypertriglyceridemic and the 7 normal subjects (p less than 0.001). An abnormality in late phase PHLA in the untreated diabetic subjects was more apparent when it was compared to the level of PHLA attained during the early phase of the heparin infusion (Equilibrium PHLA/60 min PHLA). The relative PHLA in the late phase of the infusion was lower in the untreated diabetic subjects (0.671 +/- 0.147) than in the nondiabetic hypertriglyceridemic subjects (0.847 +/- 0.019, p less than 0.001), or in the chronically treated diabetic subjects (0.823 +/- 0.108, p less than 0.05). Among the untreated diabetic subjects, increasing fasting glucose levels were associated with both decreasing absolute PHLA levels at the late phase of the infusion (r = 0.61, p less than 0.02) and greater decreases in relative PHLA during the infusion (r = -0.80, p less than 0.001). Treatment of the diabetes with long-term oral sulfonylurea or insulin therapy corrected the abnormality in the late phase PHLA with an associated decrease in plasma triglyceride levels (p less than 0.001). In five subjects with a deficient PHLA response to a standard, low dose of heparin, the PHLA response was low throughout the heparin infusion. With treatment, the PHLA response to the low heparin dose corrected rapidly toward normal in those two diabetic subjects with PHLa deficiency, and the early PHLA response during the heparin infusion increased. However, the late phase abnormality in all untreated diabetic subjects did not correct to normal until after several months of antihyperglycemic therapy. In the untreated diabetic subjects the degree of elevation of the plasma triglyceride level appeared to result from the interaction of the abnormality in PHLA with the presence or absence of an inherited familial lipid disorder.
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PMID:Reversible abnormalities in postheparin lipolytic activity during the late phase of release in diabetes mellitus (postheparin lipolytic activity in diabetes). 116 28

The mechanism regulating lipoprotein lipase (LPL) expression in adipose tissue was examined in rats in the conditions of different calorie intakes with and without streptozotocin-induced (STZ-) diabetes. The LPL activity released from adipose tissue was greater with the higher calorie intake (20 g of normal chow diet per day) than with the lower calorie intake (13 g of normal chow diet per day), and was greater in normal rats than in STZ-diabetic rats. The LPL activity was proportional to the serum insulin level in all conditions. Dot-blot analysis showed that the amount of LPL mRNA in adipose tissue was increased by the higher calorie diet and that the increase was less in the diabetic state. Expression of mRNA was also nearly parallel with the serum insulin level. LPL activity released from the heart was not affected by either the calorie intake or the diabetic state. These results suggest that the mechanisms of LPL expression in adipose tissue and the heart are different, and that LPL expression in adipose tissue was closely dependent on the insulin level.
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PMID:Response of lipoprotein lipase to calorie intake in streptozotocin-induced diabetic rats. 128 30


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