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: EC:3.1.1.34 (lipoprotein lipase)
7,025 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the effects of different types of physical training on lipid metabolism, serum lipids, lipoprotein cholesterol, apoproteins A-I and B, hepatic (HTGL), extrahepatic (LPL) and total (PHLA) post-heparin lipoprotein lipase activities were studied in elite athletes engaged in aerobic ("B", no. 13), anaerobic ("C", no. 17) and mixed ("D", no. 9) training programs and in a group of sedentary controls ("A", no. 15). In the aerobic and mixed groups serum triglycerides were significantly lower compared to sedentary controls while total serum cholesterol and LDL cholesterol, as well as serum apoprotein B levels were only slightly lower. HDL cholesterol and HDL2 cholesterol were slightly higher while serum cholesterol/HDL cholesterol (2.89 +/- 0.37 vs 3.6 +/- 0.47, p less than 0.01) and LDL cholesterol/HDL cholesterol (1.69 +/- 0.38 vs 2.23 +/- 0.43, p less than 0.05) ratios were significantly lower only in aerobic athletes compared to the control group. PHLA and LPL activities were slightly higher in the aerobic group than in controls, while PHLA and HTGL were significantly lower in aerobic and mixed athletes. No significant correlations were found between HDL cholesterol and energy expenditure during training, indexes of adipose mass or lipolytic enzyme activities. The results of this cross-sectional study seem to indicate that specialized training programs have a different effect on lipoprotein pattern and lipolytic enzyme activities, and only aerobic exercise has a potentially antiatherogenic effect.
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PMID:Specialized physical training programs: effects on serum lipoprotein cholesterol, apoproteins A-I and B and lipolytic enzyme activities. 175 27

Linkage mapping in a large, seven-generation family with type 2 autosomal dominant retinitis pigmentosa (ADRP) demonstrates linkage between the disease locus (RP1) and DNA markers on the short arm of human chromosome 8. Five markers were most informative for mapping ADRP in this family using two-point linkage analysis. The markers, their maximum lod scores, and recombination distances were ANK1 (ankyrin)--2.0 at 16%; D8S5 (TL11)--5.3 at 17%; D8S87 [a(CA)n repeat]--7.2 at 14%; LPL (lipoprotein lipase)--1.5 at 26%; and PLAT (plasminigen activator, tissue)--10.6 at 7%. Multipoint linkage analysis, using a simplified pedigree structure for the family (which contains 192 individuals and two inbreeding loops), gave a maximum lod score of 12.2 for RP1 at a distance 8.1 cM proximal to PLAT in the pericentric region of the chromosome. Based on linkage data from the CEPH (Paris) reference families and physical mapping information from a somatic cell hybrid panel of chromosome 8 fragments, the most likely order for four of these five loci and the diseases locus is 8pter-LPL-D8S5-D8S87-PLAT-RP1. (The precise location of ANK1 relative to PLAT in this map is not established). The most likely location for RP1 is in the pericentric region of the chromosome. Recently, several families with ADRP with tight linkage to the rhodopsin locus at 3q21-q24 were reported and a number of specific rhodopsin mutations in families with ADRP have since been reported. In other ADRP families, including the one in this study, linkage to rhodopsin has been excluded. Thus mutations at two different loci, at least, have been shown to cause ADRP. There is no remarkable clinical disparity in the expression of disease caused by these different loci.
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PMID:Linkage mapping of autosomal dominant retinitis pigmentosa (RP1) to the pericentric region of human chromosome 8. 178 94

Low HDL-cholesterol (HDL-C) levels may elevate atherosclerosis risk, and often associate with hypertriglyceridemia (HTG); however, the metabolic causes of low HDL-C levels with or without HTG are poorly understood. We studied the turnover of radioiodinated HDL apolipoproteins, apo A-I and apo A-II, in 15 human subjects with low HDL-C, six with normal plasma TG levels (group 1) and nine with high TG (group 2), and compared them to 13 control subjects with normal HDL-C and TG levels (group 3). The fractional catabolic rate (FCR) was equally elevated in groups 1 and 2 vs. group 3 for both apo A-I (0.313 +/- 0.052 and 0.323 +/- 0.063 vs. 0.245 +/- 0.043 pools/d, P = 0.003) and apo A-II (0.213 +/- 0.036 and 0.239 +/- 0.037 vs. 0.185 +/- 0.031 pools/d, P = 0.006). Thus, high FCR characterized low HDL-C regardless of the presence or absence of HTG. In contrast, transport rate (TR) of apo A-I did not differ significantly among the groups and the apo A-II TR differed only between groups 2 and 3 (2.15 +/- 0.57, 2.50 +/- 0.39, and 1.83 +/- 0.48 mg/kg per d for groups 1 to 3, respectively, P = 0.016). Several HDL-related factors were similar in groups 1 and 2 but differed in group 3, as with FCR, including the ratio of lipoprotein lipase to hepatic lipase activity (LPL/HL) in post-heparin plasma, the ratio of the HDL-C to apo A-I plus apo A-II levels, and the percent of tracer in the d greater than 1.21 fraction. In linear regression analysis HDL-C levels correlated inversely with the FCR of apo A-I and apo A-II (r = -0.74, P less than 0.0001 for both). Major correlates of FCR were HDL-C/apo A-I + apo A-II, LPL/HL, and plasma TG levels. We hypothesize that lipase activity and plasma TG affect HDL composition which modulates FCR, which in turn regulates HDL-C. Thus, HTG is only one of several factors which may contribute to elevated FCR and low HDL-C. Given the relationship of altered HDL composition with high FCR and low HDL-C levels, factors affecting HDL composition may increase atherosclerosis susceptibility.
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PMID:Increased apo A-I and apo A-II fractional catabolic rate in patients with low high density lipoprotein-cholesterol levels with or without hypertriglyceridemia. 189 29

The effects of two dietary weight reduction programmes (1200 kcal/day) on lipid metabolism were followed for one year in moderately obese subjects. The groups consisted of lactovegetarian (n = 31), mixed diet (n = 37) and control (n = 42) groups. Serum triglyceride levels decreased rapidly during the first two weeks (46 per cent on average) especially in the mixed diet group, and this change was still statistically significant at 6 and 12 months after the beginning of the study. Serum total cholesterol levels also decreased rapidly in the beginning, but at 6 and 12 months the change was no longer statistically significant. After a small initial decrease HDL cholesterol levels appeared to increase towards the end of the study year. This increase was more marked in men (18.6 per cent at 6 months) than in women, and in the mixed diet group than in the lactovegetarian group (P less than 0.05 between the groups). The HDL/total cholesterol ratio increased rapidly in the beginning of the weight reduction and practically remained at the elevated (12-16 per cent) level during the whole follow-up. This increase was also more apparent in men than in women, and in the mixed diet group than in the lactovegetarian group. The changes in HDL subfractions, HDL2 and HDL3, paralleled those seen in the HDL cholesterol levels. Similarly the alterations in apolipoproteins A-I and B resembled those of the HDL and total cholesterol levels. The activity of adipose tissue lipoprotein lipase decreased drastically (about 50 per cent) at the beginning of the weight reduction, while at 6 and 12 months the mean activities were higher than the initial levels. This was also seen in the LPL activity when measured in post-heparin plasma. The activity of post-heparin plasma hepatic lipase decreased clearly at both 6 (P less than 0.001) and 12 months (P less than 0.01) in the mixed diet group, whereas no change was found in the lactovegetarian group. The ratio of subscapular to triceps skinfold reduced significantly (P less than 0.01) in women but not in men during the intervention period. Our study shows that in moderately overweight subjects weight reduction with the aid of a low-calorie dietary programme results in favourable responses in lipid metabolism many months after the cessation of the weight reduction programme. These responses appear to be stronger in subjects following mixed diet than in those attempting to follow a lactovegetarian diet.
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PMID:Long-term effects on lipid metabolism of weight reduction on lactovegetarian and mixed diet. 211 Dec 92

Cachectin/tumor necrosis factor (TNF-alpha) is a macrophage-secreted cytokine initially found to be a lipoprotein lipase-suppressing serum factor in cachectic, parasite-infected animals. Cloning of the cDNA encoding the gene for cachectin enabled biosynthesis of recombinant human cachectin and proof that the protein is identical to TNF-alpha. Numerous biological activities have subsequently been attributed to this pluripotent cytokine. In addition to suppressing LPL, cachectin/TNF mediates decreased lipogenic enzyme synthesis in adipocytes, causing a state of "cellular cachexia" in vitro. Similarly, catabolic cellular energy responses are induced by cachectin/TNF in cultured skeletal muscle cells which exhibit accelerated glycogenolysis, enhanced lactate production, and increased expression of hexose transporters. Persistent cachectin/TNF production occurs in chronic infection and malignancy, and chronic exposure induces a cachexia syndrome characterized by anorexia, weight loss, and anemia. Acute systemic appearance of cachectin/TNF is capable of inducing a state of lethal shock, disseminated hemorrhagic necrosis, catabolic hormone release, and multiple organ injury. Inhibiting the toxic effects of cachectin/TNF with monoclonal anti-cachectin antibodies during overwhelming Gram-negative bacteremia confers protection against septic shock. In these studies, the unprotected controls succumbed within hours, but baboons immunized against cachectin/TNF did not develop the characteristic increases of IL-1, IL-6, or catabolic stress hormones and did not die, suggesting that cachectin/TNF is a pivotal, proximal factor in the humoral cascade mediating septic shock syndrome. Recent evidence indicates that when produced in lesser quantities, cachectin/TNF may participate in the degradative and reparative mechanisms of physiological tissue remodelling and homeostasis. Future studies of the immunological and metabolic effects of cachectin/TNF should lead to a better understanding of the pathogenesis of infection and inflammation.
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PMID:Metabolic responses to cachectin/TNF. A brief review. 219 78

CAD results from atherosclerosis, a chronic disease process that has its origin in childhood. Children and adolescents can be at higher risk for CAD by virtue of being from families with premature CAD or familial dyslipoproteinemias. The plasma lipid and lipoprotein levels result from a number of complex metabolic processes that are under the control of genetic and environmental (e.g., diet) influences. The normal ranges of plasma lipids and lipoproteins in children are known, and children and adolescents with dyslipoproteinemia are ordinarily defined as those having levels of plasma total, LDL, or triglyceride above the 95th percentile or with a low HDL cholesterol below the 5th percentile. Children of a parent with documented dyslipoproteinemia or with family history of premature CAD may be screened in the fasting state any time after 2 years of age. Following the exclusion of secondary causes of dyslipoproteinemia, the diagnosis of primary dyslipoproteinemia can be made. Lipoprotein patterns are not diagnostic for a given genotype. Efforts to determine further the biochemical defects responsible for a given phenotype have led to the investigation of gene coding for the apolipoproteins, the key enzymes in the lipoproteins pathways (LPL, HDL, and LCAT) and the receptors that process lipoproteins, such as the LDL receptor and the chylomicron remnant receptor. From a practical standpoint, the diagnosis of the kind of dyslipoproteinemia in a child will depend upon the nature and severity of the dyslipoproteinemia, both in the child (or adolescent) and in parents and siblings. Marked increases in plasma total and LDL cholesterol in the child and in at least one of the parents often reflect the presence of familial hypercholesterolemia, an inherited dominant condition due to a defect in the LDL receptor gene. The triglyceride levels are often normal. If the child has a different dyslipoproteinemia pattern from siblings and parents, then the diagnosis of familial combined hyperlipidemia or hyperapobetalipoproteinemia should be considered. Most children with mild or borderline elevations in total and LDL cholesterol will have polygenic hypercholesterolemia. Triglyceride problems in children and adolescents are relatively uncommon, particularly the more severe hypertriglyceridemia such as that found in lipoprotein lipase and apoC-II deficiency, dysbetalipoproteinemia, and type V hyperlipoproteinemia. High levels of Lp(a) lipoprotein, in isolation or in combination with other dyslipoproteinemia, accelerate risk for CAD. Low levels of HDL cholesterol in the absence of other abnormalities suggest the diagnosis of hypoalphalipoproteinemia.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Diagnosis and management of familial dyslipoproteinemia in children and adolescents. 225 50

Growth hormone regulates in a positive way the expression of the lipoprotein lipase gene at a transcriptional level in preadipocyte Ob1771 cells. Inhibition by serum components of this expression was investigated upon stimulation by growth hormone. Low-molecular weight, lipid-soluble components (a serum lipid extract, corticosteroids and oleic acid) and high-molecular weight, hydrophilic components (TGF-beta and those present in delipidated serum) were inhibitory. Inhibition of the expression of LPL mRNAs and that of LPL activity were parallel. It is concluded that the regulation of the expression of LPL gene occurs likely at a transcriptional level and that a balance between multiple effectors present in serum are active in an opposite manner.
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PMID:Inhibition by serum components of the expression of lipoprotein lipase gene upon stimulation by growth hormone. 230 31

Sixteen rabbits were fed a 1% cholesterol diet with an intraperitoneal injection of saline (n = 8) (cholesterol-diet group), or 50 mg glycosaminoglycans-polysulfate (GAG-PS) (n = 8) (GAG-PS group). After 10 weeks all rabbits were sacrificed and studied. Eight rabbits on a standard diet with an intraperitoneal injection of saline (n = 8) (standard-diet group) were processed in the same manner. After 10-weeks of feeding, the plasma total cholesterol of the GAG-PS group was significantly lower than that of lower than that of the control group (P less than 0.02). The VLDL cholesterol of the GAG-PS group was also significantly lower than that of the cholesterol-diet group. There were no differences in LDL-cholesterol, HDL-cholesterol or plasma triglycerides between the groups. Total lipoprotein lipase activity (T-LPL) (LPL + HTGL) of the GAG-PS group at 10 weeks was higher than that of the cholesterol-diet group. These elevated T-LPL levels were mainly due to an increase in the LPL from peripheral tissues. ADP-induced platelet aggregability of the GAG-PS group significantly decreased at 10 weeks when compared to the cholesterol-diet group, and antithrombin-III activity of the GAG-PS group was inversely increased when compared to the cholesterol-diet group. Although there were no differences in aortic levels of total cholesterol and uronic acid between the GAG-PS group and the cholesterol-diet group, the surface involvement of the aorta in the GAG-PS group was significantly lower than that in the cholesterol-diet group. The aortic levels of free cholesterol, hydroxyproline and calcium of the GAG-PS group were significantly decreased when compared to the cholesterol-diet group. These findings suggest that GAG-PS has antiatherosclerotic effects.
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PMID:Effects of polysulfated glycosaminoglycans obtained from bovine lung tissue on hypercholesterolemic rabbits. 239

Lipoprotein lipase (LPL; triacylglyceroprotein acylhydrolase, EC 3.1.1.34) is an important enzyme involved in triacylglycerol metabolism. Primary LPL deficiency is a genetic disorder that is usually manifested by a severe elevation in triacylglycerol levels. We have used a recently isolated LPL cDNA clone to study 15 probands from 11 families with this inherited disorder. Surprisingly, 7 of the probands from 4 families, of different ancestries, had a similar insertion in their LPL gene. In contrast to other human genetic disorders, where insertions are rare causes of mutation, this insertion accounts for a significant proportion of the alleles causing LPL deficiency. Detailed restriction mapping of the insertion revealed that it was unlikely to be a duplication of neighboring DNA and that it was not similar to the consensus sequence of human L1 repetitive elements. This suggests that there must be other mechanisms of insertional mutagenesis in human genetic disease besides transposition of mobile L1 repetitive elements.
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PMID:A major insertion accounts for a significant proportion of mutations underlying human lipoprotein lipase deficiency. 253 38

The effects of obesity, weight loss and weight maintenance on the serum lipid levels and lipoprotein lipase and hepatic triglyceride lipase were investigated in rats. Obesity induced by high-fat (HF) feeding was associated with decreased serum triglyceride levels (HF: 70.3 +/- 8.2, control (CON): 140.0 +/- 26.9 mg/dl, P less than 0.05), increased lipoprotein lipase (LPL, HF: 593.2 +/- 10.6 vs CON: 280 +/- 19.5 nmol FFA/min per mg tissue, P less than 0.05) and suppressed hepatic triglyceride lipase activities (HTGL, HF: 14.2 +/- 0.5 vs CON: 18.0 +/- 0.4 nmol FFA/min per mg tissue, P less than 0.01). After a weight loss to the level of control rats, weight maintenance was achieved either by high-protein (HP) or chow feedings (CH). Both high-protein (HFHP) and chow (HFHC) groups had similar weights but only high-protein feeding restored the normal body compositions. Both groups of rats had higher total (TC, HFHP: 146 +/- 10.7; HFCH: 104.8 +/- 5.1 mg/dl), and high density lipoprotein cholesterol levels (HDL-C, HFHP: 100.8 +/- 15.6; HFCH: 75.5 +/- 5.5 mg/dl) and lower lipoprotein lipase (HFHP: 238.2 +/- 15.8, HFCH: 354.8 +/- 34.9 nmol FFA/min per mg tissue) and hepatic triglyceride activities (HFHP: 16.3 +/- 1.1; HFCH: 14.5 +/- 0.6 nmol FFA/min per mg tissue) than control rats (TC: 70.1 +/- 4.7 mg/dl; HDL-C: 14.2 +/- 4.3 mg/dl; LPL: 742.4 +/- 82.3 nmol FFA/min per mg tissue; HTGL: 20.5 +/- 1.0 nmol FFA/min per mg tissue, P less than 0.05 to 0.005) or the rats who regained weight by resuming high-fat feeding (TC: 59.5 +/- 6.7 mg/dl; HDL-C: 10.2 +/- 6.7 mg/dl; LPL: 1284.3 +/- 90 nmol FFA/min per mg tissue; HTGL: 22.2 +/- 1.9 nmol FFA/min per mg tissue, P less than 0.05 to 0.005). The high protein-group had significantly higher total and high-density-lipoprotein cholesterol levels than the chow fed animals despite comparable body weights in both groups. The findings of this study suggest that weight maintenance induced by high protein feeding is more successful in restoring the normal body composition. However, high protein feeding is also associated with high serum cholesterol levels. The clinical applications of these findings need to be evaluated further.
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PMID:Effects of weight loss and weight maintenance on the serum lipids, lipoprotein lipase and hepatic triglyceride lipase activities in obese rats. 276 81


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