EC:3.1.1.34 - FACTA Search

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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)

Rats tube-fed a diet devoid of threonine accumulated triacylglycerols in their livers, starting on the third day of the diet. The fatty acid composition of the accumulated lipid and the contribution of novo synthesized fatty acids to the lipid accumulation, as determined with tritiated water as a radioactive precursor for fatty acid synthesis, suggested that an increased hepatic de novo synthesis of fatty acids is not a major factor for the development of this liver lipid accumulation. The metabolism of intravenous injected 3H-oleic acid, the Triton-induced hyperlipemia and the activity of lipoprotein lipase in adipose tissue was also studied. None of these studies revealed any significant difference between the threonine-deficient and control rats. It is concluded that the hepatic triacylglycerol accumulation in the threonine-deficient rats does not result from any gross abnormality in the rate of liver triacylglycerol formation or secretion to the plasma. It is suggested that a possible causative mechanism is a derangement in the metabolism of the storage pool of liver triacylglycerols.
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PMID:Metabolism of liver triacylglycerols in rats tube-fed a threonine-devoid diet. 95 47

The molecular basis of familial chylomicronemia (type I hyperlipoproteinemia), a rare autosomal recessive trait, was investigated in six unrelated individuals (five of Spanish descent and one of Northern European extraction). DNA amplification by polymerase chain reaction (PCR) followed by single strand conformation polymorphism (SSCP) analysis allowed rapid identification of the underlying mutations. Six different mutant alleles (three of which are previously undescribed) of the gene encoding lipoprotein lipase (LPL) were discovered in the five LPL-deficient patients. These included an 11 bp deletion in exon 2, and five missense mutations: Trp 86 Arg (exon 3), His 136 Arg (exon 4), Gly 188 Glu (exon 5), Ile 194 Thr (exon 5), and Ile 205 Ser (exon 5). The Trp 86 Arg mutation is the only known missense mutation in exon 3. The other missense mutations lie in the highly conserved "central homology region" in close proximity with the catalytic site of LPL. These and other previously reported missense mutations provide insight into structure/function relationships in the lipase family. The missense mutations point to the important role of particular highly conserved helices and beta-strands in proper folding of the LPL molecule, and of certain connecting loops in the catalytic process. A nonsense mutation (Arg 19 Term) in the gene encoding apolipoprotein C-II (apoC-II), the cofactor of LPL, was found to underlie chylomicronemia in the sixth patient who had normal LPL but was apoC-II-deficient.
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PMID:Molecular basis of familial chylomicronemia: mutations in the lipoprotein lipase and apolipoprotein C-II genes. 147 92

The underlying molecular defects that lead to a deficiency of lipoprotein lipase in two patients from different kindreds presenting with the familial hyperchylomicronemia syndrome have been identified. Sequence analysis of amplified LPL cDNA of the patient from the Bethesda kindred revealed a single point mutation (G to A) at position 781 of the normal gene that resulted in the substitution of an alanine for a threonine at residue 176 and the loss of an SfaN1 site present in the normal LPL gene. Amplification of patient cDNA by the PCR followed by restriction enzyme digestion with SfaN1 established that the patient is a true homozygote for the defect. The proband from the second kindred was found to be a compound heterozygote for two separate allelic mutations, including a T to C transition at nucleotide 836 and a G to A mutation at base 983 that led to the substitution of Ile194 by Thr and Arg243 by His, respectively. Transient expression of the mutant LPL cDNAs from both kindreds in human embryonal kidney-293 cells resulted in the synthesis of enzymatically inactive proteins, establishing the functional significance of the mutations.
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PMID:The molecular defects in lipoprotein lipase deficient patients. 150 55

Studies on the molecular biology of lipoprotein lipase (LPL) deficiency have been facilitated by the availability of LPL gene probes and the recent characterization of gene mutations underlying human LPL deficiency. Typically, missense mutations have predominated and show a preferential localization to exons 4 and 5. This distribution supports earlier studies attributing functional significance to residues encoded by these exons. We now report a further missense mutation within exon 5 of the LPL gene in three unrelated patients. Amplification of individual exons by the polymerase chain reaction and direct sequencing revealed a T----C transition at codon 194 of the LPL cDNA which results in a substitution of threonine for isoleucine at this residue. The catalytic abnormality induced by this mutation was confirmed through in vitro mutagenesis studies in COS-1 cells. Transfection with a LPL cDNA containing the codon 194 transition resulted in the synthesis and secretion of a catalytically defective protein. The Thr194 substitution was associated with two different DNA haplotypes, consistent with a multicentric origin for this mutation.
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PMID:Amino acid substitution (Ile194----Thr) in exon 5 of the lipoprotein lipase gene causes lipoprotein lipase deficiency in three unrelated probands. Support for a multicentric origin. 167 45

The molecular defects resulting in a deficiency of lipoprotein lipase activity in a patient with the familial hyperchylomicronemia syndrome have been identified. Increased lipoprotein lipase mass but undetectable lipoprotein lipase activity in the patient's post-heparin plasma indicate the presence of an inactive enzyme. No major gene rearrangements were identified by Southern blot analysis of the patient's lipoprotein lipase gene and Northern blot hybridization revealed an lipoprotein lipase mRNA of normal size. Sequence analysis of polymerase chain reaction-amplified lipoprotein lipase cDNA identified two separate allelic mutations. A T to C transition at nucleotide 836 results in the substitution of Ile194, located near the putative interfacial recognition site of lipoprotein lipase, to a Thr. A G to A mutation at base 983 leads to the substitution of a His for Arg243 and the loss of a HhaI restriction enzyme site. Arg243 is near His241, which has been postulated to be part of the catalytic triad of lipoprotein lipase. Direct sequencing of amplified cDNA and digestion with HhaI established that the proband is a compound heterozygote for each base substitution. Transient expression of each of the mutant lipoprotein lipase cDNAs in human embryonal kidney-293 cells resulted in the synthesis of enzymically inactive proteins, establishing the functional significance of the mutations. We conclude that the Ile194 to Thr194 and Arg243 to His243 substitutions occur in lipoprotein lipase regions essential for normal enzyme activity and each mutation results in the expression of a nonfunctional enzyme leading to the hyperchylomicronemia syndrome manifested in the proband.
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PMID:Identification of two separate allelic mutations in the lipoprotein lipase gene of a patient with the familial hyperchylomicronemia syndrome. 170 28

The structure of human lipoprotein lipase was recently deduced from its cDNA sequence. It contains 8 serine residues (residues 45, 132, 143, 172, 193, 244, 251, and 363) that are absolutely conserved in both lipoprotein lipase and hepatic lipase across all species studied. The high homology between lipoprotein lipase, hepatic lipase, and pancreatic lipase suggests that the catalytic functions of these enzymes share a common mechanism and that one of the 8 conserved serines in human lipoprotein lipase must play a catalytic role as does serine 152 in the case of pancreatic lipase (Winkler, F. K., D'Arcy, A., and Hunziker, W. Nature 343, 771-774). We expressed wild-type and site-specific mutants of human lipoprotein lipase in COS cells in vitro. We produced two to four substitution mutants involving each of the 8 serines and assayed a total of 22 mutants for both enzyme activity and the amount of immunoreactive enzyme mass produced. Immunoreactive lipase was detected in all cases. With the exception of Ser132, for each of the 8 serine mutants we studied, at least one of several mutants at each position showed detectable enzyme activity. All three substitution mutants at Ser132, Ser----Thr, Ser----Ala, and Ser----Asp, were totally inactive. Ser132 occurs in the consensus sequence Gly-Xaa-Ser-Xaa-Gly present in all serine proteinases and in human pancreatic lipase. The x-ray crystallography structure of human pancreatic lipase suggests that the analogous serine residue in human pancreatic lipase, Ser152, is the nucleophilic residue essential for catalysis. Our biochemical data strongly support the conclusion that Ser132 in human lipoprotein lipase is the crucial residue required for enzyme catalysis. The observed specific activities of the variants involving the other seven highly conserved serines in human lipoprotein lipase are consistent with the interpretation that this enzyme has a three-dimensional structure very similar to that of human pancreatic lipase.
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PMID:Structural and functional roles of highly conserved serines in human lipoprotein lipase. Evidence that serine 132 is essential for enzyme catalysis. 190 87

The molecular defect that leads to a deficiency of lipoprotein lipase (LPL) activity in the proband from a Bethesda kindred has been identified. The pre- and post-heparin plasma LPL mass in the proband was elevated when compared to controls; however, there was no detectable LPL activity, indicating the presence of a defective enzyme (termed LPLBethesda). Analysis of the patient's post-heparin plasma by heparin-Sepharose affinity chromatography demonstrated that the mutant LPL had an altered affinity for heparin. Southern blot hybridization of the gene for LPLBethesda revealed no major rearrangements. Northern blot analysis of LPLBethesda mRNA from patient monocyte-derived macrophages revealed normal-sized mRNAs (3.4 and 3.7 kilobases) as well as normal cellular mRNA levels when compared to control macrophages. Sequence analysis of polymerase chain reaction-amplified LPL cDNA revealed a G----A substitution at position 781 of the normal LPL gene that resulted in the substitution of an alanine for a threonine at residue 176 and the loss of an SfaNI site present in the normal LPL gene. Amplification of cDNA by the PCR followed by digestion with SfaNI established that the patient was a true homozygote for the mutation. Expression of LPL cDNA in COS-7 cells resulted in the synthesis of a nonfunctional LPL enzyme establishing that the Ala----Thr substitution was the mutation responsible for the inactive LPL. The identification of this mutation in the LPL gene defines a region of the LPL enzyme, at Ala-176, that is essential for normal heparin-binding and catalytic activity. We propose that an amino acid substitution in this critical region of LPLBethesda results in the synthesis of a nonfunctional enzyme that leads to the chylomicronemia syndrome expressed in this proband.
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PMID:Lipoprotein lipaseBethesda: a single amino acid substitution (Ala-176----Thr) leads to abnormal heparin binding and loss of enzymic activity. 211 Mar 64

Two major isoforms of the bovine analogue to human apolipoprotein (apo) CII were purified from plasma. They were both as effective as human apo CII in activating lipoprotein lipase. Amino acid sequencing revealed that one form contained 79 amino acid residues, and corresponded to human pro apo CII. The other form lacked the first six residues at its N-terminus. This was apparently due to cleavage of the -Gln-Asp- linkage in the sequence H2N-Ala-His-Val-Pro-Gln-Gln-Asp-Glu-, analogous to cleavages described for human apo AI and apo CII. Previous studies with human apo CII have shown that the ability to activate lipoprotein lipase resides in the C-terminal third of the molecule. This was highly conserved in the bovine analogue: of the 30 last residues, 21 are identical. Five residues in this part of human apo CII have been reported to be essential for activation of lipoprotein lipase. Only one of these, Tyr63, is present in the bovine sequence. The bovine structure contains a threonine at position 61, instead of serine in the human, and the four last residues are -Ser-Gly-Lys-Asp instead of the allegedly necessary -Lys-Gly-Glu-Glu. Three differently sialylated isoforms of the bovine analogue to human apolipoprotein CIII were also isolated and partially sequenced. All three lacked the first three N-terminal residues as compared to sequences from other species (man, dog and rat). Sequence differences were more pronounced at the ends than in the central parts of the apo CIII molecules.
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PMID:Primary structure of the bovine analogues to human apolipoproteins CII and CIII. Studies on isoforms and evidence for proteolytic processing. 220 8

Bovine milk lipoprotein lipase was subjected to amino acid sequence analysis. The first 19 amino-terminal residues were Asp-Arg-Ile-Thr-Gly-Gly-Lys-Asp-Phe-Arg-Asp-Ile-Glu-Ser-Lys-Phe-Ala-Leu- Arg. In addition, reversed-phase high-performance liquid chromatography of a tryptic digest of reduced and alkylated lipase resolved a number of peptides, five of which contained cysteine. Sequence analysis of the tryptic peptides revealed in most instances a close homology to porcine pancreatic lipase. Based on this homology, the relative alignment of the sequenced lipoprotein lipase peptides can be made. In addition, a potential binding site for the triacylglycerol substrate and a carbohydrate-binding domain for lipoprotein lipase are postulated.
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PMID:Homology of lipoprotein lipase to pancreatic lipase. 345 70

Whole-irradiated rabbit pre-heparin plasma had an important inhibitory effect on hepatic triacylglycerol lipase and lipoprotein lipase activities, whereas control rabbit pre-heparin plasma slightly inhibited hepatic triacylglycerol lipase activity at a high concentration and enhanced lipoprotein lipase activity. As some apolipoproteins were known to modulate these two lipolytic enzymes, the inhibitory effects of irradiated rabbit plasma were investigated in apolipoproteins. Three apolipoproteins, with isoelectric points of about 6.58, 6.44 and 6.12, characterized by their low content in threonine (threonine-poor apolipoproteins) were produced in high concentrations in rabbit VLDL and HDL after irradiation. The effects of these apolipoproteins on control rabbit post-heparin plasma hepatic triacylglycerol lipase and extrahepatic lipoprotein lipase were studied. Threonine-poor apolipoproteins substantially inhibited the hepatic triacylglycerol lipase activity and enhanced the apolipoprotein C-II-stimulated activity of lipoprotein lipase. The amounts of these apolipoproteins in triacylglycerol-rich lipoprotein particles may determine the lipolytic activity of lipoprotein lipase and hepatic triacylglycerol lipase in triacylglycerol hydrolysis. The existence of another inhibitor of lipoprotein lipase remains to be determined.
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PMID:Effects of threonine-poor apolipoproteins on post-heparin plasma hepatic triacylglycerol lipase and lipoprotein lipase. 681 40

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