Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.34 (lipoprotein lipase)
 7,025 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 39-44 kDa protein known as the receptor-associated protein binds to members of the low density lipoprotein receptor family and is found within cells that express these receptors. The receptor-associated protein has been shown to prevent premature binding of ligands to the receptors in the endoplasmic reticulum and to promote proper folding and transport of the receptors in the secretory pathway. In the thyroid, megalin (a low-density lipoprotein receptor family member) serves as an endocytic receptor for thyroglobulin. Here we present evidence that the receptor-associated protein can bind to thyroglobulin, which suggests a novel function of the receptor-associated protein, namely binding of certain megalin ligands possibly during the biosynthetic pathway. In solid-phase assays thyroglobulin was shown to bind to the receptor-associated protein with moderately high affinity (mean between K(d) and K(i) = 39.8 nM), in a calcium-dependent and saturable manner. The receptor-associated protein also bound to a native carboxyl-terminal 230-kDa thyroglobulin polypeptide, which markedly reduced binding of intact thyroglobulin to the receptor associated protein, indicating that the receptor-associated protein binding sites of thyroglobulin are located in the carboxyl-terminal portion of the molecule. In addition to thyroglobulin, the receptor-associated protein specifically bound to another megalin ligand, namely lipoprotein lipase. Because lipoprotein lipase markedly reduced receptor-associated protein binding to thyroglobulin, we concluded that the receptor-associated protein uses the same binding site/s to bind to thyroglobulin and lipoprotein lipase. Evidence of thyroglobulin binding to the receptor-associated protein was also obtained in vivo and in cultured thyroid cells. Thus, anti-receptor-associated protein antibodies precipitated intact thyroglobulin from extracts prepared from rat thyroids and cultured thyroid cells (FRTL-5 cells). Chase experiments after inhibition of protein synthesis in FRTL-5 cells showed that thyroglobulin interacts with the receptor-associated protein shortly after the beginning of thyroglobulin biosynthesis.
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PMID:Binding of the low density lipoprotein receptor-associated protein (RAP) to thyroglobulin (Tg): putative role of RAP in the Tg secretory pathway. 1157 14

The maturation of lipoprotein lipase (LPL) into a catalytically active enzyme was believed to occur only after its transport from the endoplasmic reticulum (ER) to the Golgi apparatus. To test this hypothesis, LPL located in these two subcellular compartments was separated and compared. Heparin affinity chromatography resolved low affinity, inactive LPL displaying ER characteristics from a high affinity, active fraction exhibiting both ER and Golgi forms. The latter forms were further separated by beta-ricin chromatography and were found to have comparable activities per unit of LPL mass. Thus, LPL must reach a functional conformation in the ER. Active LPL, regardless of its cellular location, exhibited the expected dimer conformation. However, inactive LPL, found only in the ER, was highly aggregated. Kinetic analysis indicated a concurrent formation of LPL dimer and aggregate and indicated that the two forms have dissimilar fates. Whereas the dimer remained stable even when confined to the ER, the aggregate was degraded. Degradation rates were not affected by proteasomal or lysosomal inhibitors but were markedly reduced by ATP depletion. Lowering the redox potential in the ER by dithiothreitol caused the dimer to associate with calnexin, BiP, and protein-disulfide isomerase to form large, inactive complexes; dithiothreitol removal induced complex dissociation with restoration of the functional LPL dimer. In contrast, the LPL aggregate was only poorly associated with ER chaperones, appearing to be trapped in an irreversible, inactive conformation destined for ER degradation.
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PMID:Maturation of lipoprotein lipase in the endoplasmic reticulum. Concurrent formation of functional dimers and inactive aggregates. 3142 May 23

Nordihydroguaiaretic acid (NDGA), an inhibitor of lipoxygenase, inhibits the secretion of proteins and causes the redistribution of resident Golgi proteins into the endoplasmic reticulum (ER). In this study, the effect of NDGA on lipoprotein lipase (LPL) secretion was investigated in 3T3-L1 adipocytes, and compared with those of brefeldin A (BFA), a well-known fungal metabolite that exhibits similar ER-Golgi redistribution. Both BFA and NDGA blocked secretions of LPL. In the presence of BFA, the active and dimeric LPL was accumulated in adipocytes. After endoglycosidase H (endo H) digestion, the proportion of LPL subunits with partially endo H-sensitive oligosaccharide was significantly increased with BFA. However, in the presence of NDGA, the cellular LPL became inactive, and only the endo H-sensitive fraction of the LPL subunit was observed. An increase of the aggregated forms was observed in the fractions of the sucrose-density gradient ultracentrifugation. These properties of LPL in the NDGA-treated cells were similar to those of LPL that is retained in ER, and the effects of NDGA could not be reversed by BFA. These results indicate that the inhibitory mechanism of NDGA on the LPL secretion is functionally different from the ER-Golgi redistribution that is induced by BFA.
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PMID:Effect of nordihydroguaiaretic acid on the secretion of lipoprotein lipase. 1235 96

Statins and fibrates constitute the two major families of hypolipidaemic drugs. Statins are widely used in the treatment of patients with pure hypercholesterolaemias and mixed dyslipidaemias while fibrates are used to treat hypertriglyceridaemias and mixed hyperlipidaemias. Some fibrates efficiently reduce low density-lipoprotein (LDL)-cholesterol. Statins inhibit HMG-CoA reductase and decrease cellular cholesterol synthesis. The resulting lower intracellular cholesterol concentrations suppress the capacity of Insing-1 and Insing-2 to inhibit the interaction of SCAP with SREBP-2 in the membrane of the endoplasmic reticulum and the formation of the SCAP: SREBP-2:SP-1 complex. When formed, this complex migrates towards the Golgi where activated SP-1 and SP-2 protease cleave SREBP-2 to give a free NH2-terminal-SREBP-2 peptide which migrates towards the nucleus. In the nucleus, this free NH2-terminal-SREBP-2 peptide binds to the SRE contained in the promoter of the gene of the LDL(B/E)-receptor and induces the transcription of this gene, and the over-expression of the LDL(B/E)-receptor in the cytoplasmic plasma membrane of hepatocytes. The over-expression of the LDL-receptor in the liver increases the clearance of circulating LDL, decreasing the LDL-cholesterol plasma levels. Fibrates decrease plasma triglycerides by decreasing their hepatic synthesis and increasing their catabolism. They decrease the triglyceride-very low density-lipoprotein (VLDL) synthesis through their capacity to increase the beta-oxidation of fatty acids in the liver. They increase the plasma triglyceride catabolism by inducing the lipoprotein lipase gene transcription and decreasing the apoC-III gene transcription. Fibrates increase high density-lipoprotein (HDL)-cholesterol by increasing apoA-I and apoA-II gene transcription. These bio-molecular effects of fibrates are entirely due to their capacity to activate PPAR alpha and to induce the over expression of genes containing a PPRE in their promoter. Therefore, the mechanism of action of the statins and fibrates depends on their capacity to modulate the expression of genes controlling the lipoprotein metabolism.
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PMID:[Mechanisms of actions of statins and fibrates]. 1282 95

Among three lipases in the lipase gene family, hepatic lipase (HL), lipoprotein lipase, and pancreatic lipase, HL exhibits the lowest intracellular specific activity (i.e. minimal amounts of catalytic activity accompanied by massive amounts of inactive lipase mass in the endoplasmic reticulum (ER)). In addition, HL has a distinctive sedimentation profile, where the inactive mass overlaps the region containing active dimeric HL and trails into progressively larger molecular forms. Eventually, at least half of the HL inactive mass in the ER reaches an active, dimeric conformation (t(1/2) = 2 h) and is rapidly secreted. The remaining inactive mass is degraded. HL maturation occurs in the ER and is strongly dependent on binding to calnexin in the early co-/post-translational stages. Later stages of HL maturation occur without calnexin assistance, although inactive HL at all stages appears to be associated in distinct complexes with other ER proteins. Thus, unlike other lipases in the gene family, HL maturation is the rate-limiting step in its secretion as a functional enzyme.
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PMID:Maturation of hepatic lipase. Formation of functional enzyme in the endoplasmic reticulum is the rate-limiting step in its secretion. 3142 May 24

Stimulation of G-protein coupled membrane receptors linked to phospholipase C results in production of the second messengers diacylglycerol and inositol-1,4,5-trisphosphate (IP3). IP3 releases Ca2+ from the endoplasmic reticulum, which triggers increased Ca2+ influx across the plasma membrane, so-called capacitative calcium entry. DAG can also activate plasma membrane calcium-permeable channels but the mechanism is still not fully understood. In the pregnant human myometrial cell line PHM1 and in primary myometrial cells, 1-oleoyl-2-acetyl-sn-glycerol (OAG), a membrane-permeant analogue of diacylglycerol, induced variable oscillatory patterns of intracellular free Ca2+. Similar behavior was seen with Sr2+ entry. The Ca2+ oscillations were not blocked by a broad spectrum of protein kinase C inhibitors, including chelerytrine, bisindolylmaleimide I and calphostin C, and were enhanced and prolonged by RHC-80267, an inhibitor of diacylglycerol lipase. The OAG-induced oscillatory response was not dependent on Ca2+ release from the endoplasmic reticulum but required extracellular Ca2+. Our results indicate that diacylglycerol directly activates cation channels in PHM1 and primary myometrial cells and promotes intracellular Ca2+ oscillations by actions independent of intracellular Ca2+ -ATPase activity and protein kinase C involvement.
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PMID:Stimulation of intracellular Ca2+ oscillations by diacylglycerol in human myometrial cells. 1519 63

CD36 mediates the transfer of fatty acids (FAs) across the plasma membranes of muscle and adipose cells, thus playing an important role in regulating peripheral FA metabolism in vivo. In the proximal intestine, CD36 is localized in abundant quantities on the apical surface of epithelial cells, a pattern similar to that of other proteins implicated in the uptake of dietary FAs. To define the role of CD36 in the intestine, we examined FA utilization and lipoprotein secretion by WT and CD36-null mice in response to acute and chronic fat feeding. CD36-null mice given a fat bolus by gavage or fed a high-fat diet accumulated neutral lipid in the proximal intestine, which indicated abnormal lipid processing. Using a model in which mice were equipped with lymph fistulae, we obtained evidence of defective lipoprotein secretion by directly measuring lipid output. The secretion defect appeared to reflect an impaired ability of CD36-null enterocytes to efficiently synthesize triacylglycerols from dietary FAs in the endoplasmic reticulum. In the plasma of intact mice, the reduced intestinal lipid secretion was masked by slow clearance of intestine-derived lipoproteins. The impaired clearance occurred despite normal lipoprotein lipase activity and likely reflected feedback inhibition of the lipase by FAs due to their defective removal from the plasma. We conclude that CD36 is important for both secretion and clearance of intestinal lipoproteins. CD36 deficiency results in hypertriglyceridemia both in the postprandial and fasting states and in humans may constitute a risk factor for diet-induced type 2 diabetes and cardiovascular disease.
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PMID:CD36 deficiency impairs intestinal lipid secretion and clearance of chylomicrons from the blood. 1584 Dec 5

Considering the physiological Ca2+ dynamics within the ER (endoplasmic reticulum), it remains unclear how efficient protein folding is maintained in living cells. Thus, utilizing the strictly folding-dependent activity and secretion of LPL (lipoprotein lipase), we evaluated the impact of ER Ca2+ content and mitochondrial contribution to Ca2+-dependent protein folding. Exhaustive ER Ca2+ depletion by inhibition of sarcoplasmic/endoplasmic reticulum Ca2+-ATPases caused strong, but reversible, reduction of cell-associated and released activity of constitutive and adenovirus-encoded human LPL in CHO-K1 (Chinese-hamster ovary K1) and endothelial cells respectively, which was not due to decline of mRNA or intracellular protein levels. In contrast, stimulation with the IP3 (inositol 1,4,5-trisphosphate)-generating agonist histamine only moderately and transiently affected LPL maturation in endothelial cells that paralleled a basically preserved ER Ca2+ content. However, in the absence of extracellular Ca2+ or upon prevention of transmitochondrial Ca2+ flux, LPL maturation discontinued upon histamine stimulation. Collectively, these data indicate that Ca2+-dependent protein folding in the ER is predominantly controlled by intraluminal Ca2+ and is largely maintained during physiological cell stimulation owing to efficient ER Ca2+ refilling. Since Ca2+ entry and mitochondrial Ca2+ homoeostasis are crucial for continuous Ca2+-dependent protein maturation in the ER, their pathological alterations may result in dysfunctional protein folding.
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PMID:Mitochondria maintain maturation and secretion of lipoprotein lipase in the endoplasmic reticulum. 1646 45

Pancreatic tissue from young mink homozygous for a mutation in the lipoprotein lipase gene was studied by light and electron microscopy, with the aim of describing the earliest detectable changes in a process which rapidly progresses into overt pancreatitis. The mutation leads to hyperlipoproteinaemia, corresponding to hyperlipoproteinaemia type I in man. Assessment of relevant hepatic and pancreatic enzymes were included in the investigation. The earliest detectable changes consisted of widespread swelling and vacuolation of exocrine cells, arising mainly from swollen mitochondria. To a lesser extent, vesiculation of endoplasmic reticulum occurred. Mitochondria exhibited various changes, including cavitation and dilution of the matrix, with shortened and disorganized cristae displaced towards the periphery. Lamellar figures that developed within mitochondria were numerous. Acinar lumina were somewhat dilated, while plasma membranes were relatively well preserved and secretory granules seemed unchanged. Exfoliative processes progressively occurred, resulting in total necrosis of groups of parenchymal cells, while intercalated ducts were spared. The necrosis was rapidly followed by inflammatory reactions. The activity of the mitochondrial enzyme carnitine O-palmitoyltransferase, essential for the transport of fatty acids into the mitochondria, was lower in the pancreas than in the liver. The activity of the peroxisomal fatty acid beta-oxidation was high in the liver and low in the pancreas of both lipoprotein lipase-deficient and control mink. It is concluded that pancreatic lesions associated with hyperlipoproteinaemia start in exocrine cells, and are most probably the result of a metabolic disturbance, possibly a toxic effect of an excess of free fatty acids.
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PMID:Pancreatitis associated with hyperlipoproteinaemia type I in mink (Mustela vison): earliest detectable changes occur in mitochondria of exocrine cells. 1670 20

Phospholipase Cbeta3 (PLCbeta3) and PLCbeta4 are the two major isoforms in cerebellar Purkinje cells (PCs), displaying reciprocal expression across the cerebellum. Here, we examined subcellular distribution of PLCbeta3 in the mouse cerebellum by producing specific antibody. PLCbeta3 was detected as a particulate pattern of immunostaining in various PC elements. Like PLCbeta4, PLCbeta3 was richly distributed in somatodendritic compartments, where it was colocalized with molecules constituting the metabotropic glutamate receptor (mGluR1) signalling pathway, i.e. mGluR1alpha, G alpha q/G alpha 11 subunits of G q protein, inositol 1,4,5-trisphosphate receptor IP3R1, Homer1, protein kinase C PKCgamma, and diacylglycerol lipase DAGLalpha. Unlike PLCbeta4, PLCbeta3 was also distributed at low to moderate levels in PC axons, which were intense for IP3R1 and PKCgamma, low for G alpha q/G alpha 11, and negative for mGluR1alpha, Homer1, and DAGLalpha. By immunoelectron microscopy, PLCbeta3 was preferentially localized around the smooth endoplasmic reticulum in spines, dendrites, and axons of PCs, and also accumulated at the perisynapse of parallel fibre-PC synapses. Consistent with the ultrastructural localization, PLCbeta3 was biochemically enriched in the microsomal and postsynaptic density fractions. These results suggest that PLCbeta3 plays a major role in mediating mGluR1-dependent synaptic transmission, plasticity, and integration in PLCbeta3-dominant PCs, through eliciting Ca2+ release, protein phosphorylation, and endocannabinoid production at local somatodendritic compartments. Because PLCbeta3 can be activated by G betagamma subunits liberated from Gi/o and Gs proteins as well, axonal PLCbeta3 seems to modulate the conduction of action potentials through mediating local Ca2+ release and protein phosphorylation upon activation of a variety of G protein-coupled receptors other than mGluR1.
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PMID:Phospholipase Cbeta3 is distributed in both somatodendritic and axonal compartments and localized around perisynapse and smooth endoplasmic reticulum in mouse Purkinje cell subsets. 1729 1


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