Decreased lecithin: Cholesterol acyltransferase activity in the plasma of hypercholesterolemic pigs

Lecithincholesterol acyltransferase (LCAT) activity levels were determined, as function of plasma total cholesterol (TC) in 13 normocholesterolemic (TC<85 mg/dL) and in 28 hypercholesterolemic (TC>98 mg/dL) pigs. The normocholesterolemic group consisted of pigs that carried apo-B allelic genes other thanLpb ⁵ and orLpb ⁸. The hypercholesterolemic group consisted ofLpb ^5/x andLpb ^5/8 heterozygous andLpb ^5/5 homozygous animals. The data reported in this study show that the LCAT activity in the plasma of hypercholesterolemic (HC) pigs (79±43 units) was significantly lower (p<0.0005) compared to the normocholesterolemic controls (175±45 units). Furthermore, LCAT activity was positively correlated with TC in the normocholesterolemic group (r=+0.54; p<0.05), whereas it was negatively correlated with TC in the hypercholesterolemic group (r=−0.73; p<0.001). Additional data obtained from incubation experiments suggest that the lower LCAT activity in hypercholesterolemic pigs may be due, at least in part, to inhibition of LCAT activity by components found in the lipoprotein-deficient fractions of the plasma of hypercholesterolemic pigs.     

The influence of purines on plasma lecithin: Cholesterol acyltransferase activity in the rat

The activity of plasma lecithin: cholesterol acyltransferase (LCAT) in the rat is significantly inhibited in vitro by guanine, xanthine, and hypoxanthine. LCAT activity decreases with increase in xanthine concentration. The other two purines, adenine and uric acid, had no significant effect.     

Comparative specificity of plasma lecithin: Cholesterol acyltransferase from ten animal species

The molecular specificities of plasma lecithin:cholesterol acyltransferase (LCAT) from ten animal species have been compared. Using a reassembled high density lipoprotein containing a mixture of phosphatidylcholines, the relative rates of liberation of different species of cholesteryl ester were measured. All but two species of LCAT clustered according to one of three patterns of substrate specificity. The LCAT from six species, including human, did not transfer highly polyunsaturated fatty acyl chains. In addition, human LCAT transesterified saturated fatty acyl chains more effectively than unsaturated fatty acyl chains. We conclude that the structures of the active sites of the enzymes differ, and that this may be related to size constraints that prevent efficient binding of large bulky phosphatidylcholines.     

Normalization of high density lipoprotein in fish eye disease plasma by purified normal human lecithin: Cholesterol acyltransferase

Plasma from a patient with fish eye disease has been enriched with autologous high density lipoproteins (HDL) and supplemented with highly purified normal human plasma lecithin:cholesterol acyltransferase (LCAT). Incubation of such plasma at 37 C in vitro resulted in normalization of its low HDL cholesteryl ester percentage, from 23% to 79%, associated with a two-fold increase in both the cholesteryl ester and triglyceride contents of the HDL fraction, as compared to incubation experiments with absent or heat-inactivated purified normal LCAT. The normalization of the HDL cholesteryl ester percentage induced by incubation with purified normal LCAT also was accompanied by an increase in the size of the original fish eye disease HDL particles, which had a mean mass of 115 kd, to HDL particle populations with mean particle masses ranging from 130–220 kd, depending on the concentration of purified LCAT in the incubate. Both HDL cholesterol esterification and particle enlargement were abolished completely by the LCAT inhibitor DTNB and by heat inactivation of the purified normal LCAT. The results give further evidence that fish eye disease is an α-LCAT deficiency.     

Inhibition of human lecithin cholesterol acyltransferase by monoterpenes

The lecithin-cholesterol acyltransferase activity of human plasma was found to be inhibited by Rowachol, a proprietary mixture of pure monoterpenes. Menthol, the major ingredient in Rowachol (32%), and a number of other monoterpenes were found to inhibit the enzyme independently. Concentrations of monoterpenes required to achieve 50% inhibition were of the same order of magnitude as the cholesterol concentration present in the reaction mixture.     

Effects of bile salts on rat hepatic acyl CoA:Cholesterol acyltransferase

Acyl CoA:cholesterol acyltransferase (EC2.3.1.26, ACAT), responsible for intracellular esterification of cholesterol, may play an important role in cholesterol trafficking within the cell, and thus, in maintenance of cellular cholesterol homeostasis. Bile acids are potential regulators of cholesterol trafficking in the liver. Therefore, the effect of bile salts on hepatic ACAT activity was studied in the perfused rat liver. ACAT activity was increased after liver perfusion with either taurocholate or taurochenodeoxycholate. However, addition of these bile salts at physiological concentrationsin vitro had little effect on microsomal ACAT activity. The increase in hepatic ACAT activity due to perfusion with bile salts was accompanied by reduced accumulation of very low density lipoprotein cholesterol in the perfusate, but there was no effect on 3-hydroxy-3-methylglutaryl-CoA reductase activity. Hepatic ACAT activity was decreased after bile diversion for four hours in the intact animal. This treatment had no statistically significant effect on 3-hydroxy-3-methylglutaryl-CoA reductase activity. These data suggest that bile salts induce changes in hepatic compartmentation and traffic of cholesterol within the hepatocyte accompanied by response of ACAT activity to maintain cellular cholesterol homeostasis.     

The influence of phthalate esters on human plasma lecithin/cholesterol acyltransferase

The effect of various phthalate esters on the lecithin/cholesterol acyltransferase activity in man was studied in vitro. The enzymatic activity was strongly reduced with all phthalates except for the dimethyl phthalate. The inhibition rate depends on the phthalate concentration and also on the carbon number of the alkyl groups of phthalates.     

Characterization of functional residues in the interfacial recognition domain of lecithin cholesterol acyltransferase (LCAT)

Lecithin cholesterol acyltransferase (LCAT) is an interfacialenzyme active on both high-density (HDL) and low-density lipoproteins(LDL). Threading alignments of LCAT with lipases suggest thatresidues 50–74 form an interfacial recognition site andthis hypothesis was tested by site-directed mutagenesis. The(56–68) deletion mutant had no activity on any substrate.Substitution of W61 with F, Y, L or G suggested that an aromaticresidue is required for full enzymatic activity. The activityof the W61F and W61Y mutants was retained on HDL but decreasedon LDL, possibly owing to impaired accessibility to the LDLlipid substrate. The decreased activity of the single R52A andK53A mutants on HDL and LDL and the severer effect of the doublemutation suggested that these conserved residues contributeto the folding of the LCAT lid. The membrane-destabilizing propertiesof the LCAT 56–68 helical segment were demonstrated usingthe corresponding synthetic peptide. An M65N–N66M substitutiondecreased both the fusogenic properties of the peptide and theactivity of the mutant enzyme on all substrates. These resultssuggest that the putative interfacial recognition domain ofLCAT plays an important role in regulating the interaction ofthe enzyme with its organized lipoprotein substrates.     

Removal of an inter-domain hydrogen bond through site-directed mutagenesis: role of serine 176 in the mechanism of papain

A mutant of papain, where an inter-domain hydrogen bond betweenthe side chain hydroxyl group of a serine residue at position176 and the side chain carbonyl oxygen of a glutamine residueat position 19 has been removed by site-directed mutagenesis,has been produced and characterized kinetically. The mutationof Ser176 to an alanine has only a small effect on the kineticparameters, the k_cat/K_m for hydrolysis of CBZ-Phe-Arg-MCA bythe Serl76Ala enzyme being of 8.1 x 10⁴ /M/s compared with 1.2x 10⁵ /M/s for papain. Serine 176 is therefore not essentialfor the catalytic functioning of papain, even though this residueis conserved in all cysteine proteases sequenced. The pH-activityprofiles were shown to be narrower in the mutant enzyme by upto 1 pH unit at high ionic strength. This result is interpretedto indicate that replacing Ser 176 by an alanine destabilizesthe thiolate—imidazolium form of the catalytic site Cys25-Hisl59residues of papain. Possible explanations for that effect aregiven and the role of a serine residue at position 176 in papainis discussed.     

Effect of peroxyl radicals on lecithin/cholesterol acyltransferase activity in human plasma

The objective of this study was to determine whether subjecting human plasma to oxidant stress reduces the activity of lecithin/cholesterol acyltransferase (LCAT, EC 2.3.1.43). Plasma was incubated for 4h with 2.25–45 mM of 2,2′-azobis(2-amidinopropane)HCl (AAPH), a source of peroxyl radicals. A time- and concentration-dependent reduction of LCAT activity occurred, relative to control samples incubated in the absence of AAPH. Reduction of LCAT activity was disproportionate to elevation of thiobarbituric acid-reactive substances (TBARS) in the plasma. Added ascorbate was able to significantly prevent reduction of LCAT activity, but this effect was unrelated to blockage of TBARS formation by the antioxidant. The results suggest that LCAT activity can be down-modulated by oxidant stress, but not necessarily by lipid peroxidation.     

Identification of four amino acid residues essential for catalysis in human cytidine deaminase by site-directed mutagenesis and chemical modifications

By site-directed mutagenesis on human cytidine deaminase (CDA), five mutantproteins were obtained: C65A, C99A, C102A, E67D and E67Q. The threecysteine mutants were completely inactive, whereas E67D and E67Q showed aspecific activity about 200- and 200000-fold lower, respectively, than thewild-type CDA. Zinc analysis revealed that only E67D, E67Q and C65Acontained 1 mol Zn2+/mol subunit as in the wild- type CDA. Kineticmeasurements with the specific carboxylic group reagentN-ethoxy-carbonyl-2-ethoxy-1,2-dihydroquinoline performed on wild-type CDAsuggest that Glu67 is essential for the catalytic process. Furthermore,when both native and denatured CDA was titrated with5,5'-dithiobis(2-nitrobenzoic acid) six sulfhydryl groups were detected,whereas in the denatured and reduced enzyme nine such groups were found,according to the sequence data. When p-hydroxymercuriphenyl sulfonate wasused, nine sulfhydryl groups were detectable and the release of 1 mol ofzinc per mole of CDA subunit was revealed by the metal indicator dye4-(2-pyridylazo)resorcinol. It seems plausible that the limiting step forthe maintenance of zinc in the active site is the formation of coordinationbetween Cys99 and Cys102, whereas Cys65 could lead the zinc to the correctposition and orientation within the active site.     

Conformational stability of human skeletal tropomyosins modified by site-directed mutagenesis

We have used human ß-tropomyosin produced in Escherichiacoli and deletion mutants obtained by site-directed mutagenesisto analyse the conformational stability of this molecule undervarious experimental conditions. Protein engineering has allowedus to answer some questions raised by stability analysis ofthe wild-type tropomyosin. The complex pattern of denaturationis due neither to heterogeneity of the preparation nor to head-to-tailinteractions. The N- and C-termini are not of importance forthe thermal stability of the molecule. On the contrary, deletionof the 31 C-terminus amino acids leads to a dramatic decreaseof the stability observed in guanidinium chloride. This loweringis interpreted as the participation of one more guanidiniumchloride ions to the denaturation equilibrium. Analysis of thestability in presence of organic solvents reveals that acetonitrileand methanol induce opposite effects. Investigation of theseeffects by three methods (CD, fluorescence and electrophoresisthat measure respectively the content in alpha-helix, the contactbetween the two strands and the strands exchange) leads to theconclusion that strand separation can precede the denaturationof the alpha-helix.     

Subtilisin from psychrophilic antarctic bacteria: characterization and site-directed mutagenesis of residues possibly involved in the adaptation to cold

A subtilisin excreted by the Antarctic Bacillus TA39 has been purified to homogeneity and characterised. Two independent genes subt1 and subt2 are present but only subt1 is expressed significantly in the culture medium. The enzyme displays the usual characteristics of cold enzymes i.e. a high catalytic efficiency at low and moderate temperatures and an increased thermosensitivity originating from a 3D structure probably more flexible than its mesophilic counterpart. This is corroborated by the analysis of the computerized structure which shows a significant decrease in the number and strength of intramolecular weak bonds such as salt bridges and aromatic interactions. The affinity for calcium is also almost three orders of magnitude lower than that of mesophilic subtilisin and the interactions with the solvent are significantly higher thanks to a large increase in the number of Asp residues in the loops connecting secondary structures. The relation between flexibility and activity was investigated by site-directed mutagenesis tending mainly to increase the rigidity of the molecular edifice through the incorporation of additional salt bridge, disulfide bridge, aromatic interaction and by increasing the affinity of the enzyme for calcium. An important stabilization of the molecular structure was achieved through a modification of a calcium ligand T85D. The thermostability of the mutated product expressed in a mesophilic Bacillus reaches that of mesophilic subtilisin. Most important is the fact that this mutation further enhances the specific activity by a factor close to 2 when compared to the wild type enzyme so that the overall activity of the mutated cold enzyme is about 20 times higher than that of mesophilic subtilisin, illustrating the fact that thermostability is not systematically inversely related to specific activity. This opens new perspectives in the use of cold enzymes in biotechnology.      

Effect of polyestradiol on lecithin:cholesterol acyltransferase in male and female rats

The effects of two doses of polyestradiol phosphate on lecithin:cholesterol acyltransferase activity and on liver and plasma cholesterol levels have been studied on female and male rats. Both treatments increased the hepatic content of esterified cholesterol, but the LCAT activity expressed as a percentage of cholesterol esterification was unaltered. The progress of esterification was not affected by the administration of the hormone. The LCAT activity in terms of the initial rate of esterification was decreased by the high dose of estradiol. This decrease was associated with a reduction of free plasma cholesterol level, as there is a significant positive correlation between these two parameters. The findings suggest that the increased esterified cholesterol in liver of estradiol-treated rats is not mediated by an alteration in the LCAT activity.     

Reduction of membrane protein hydrophobicity by site-directed mutagenesis: introduction of multiple polar residues in helix D of bacteriorhodopsin

Introduction of polar and charged residues on the lipid-exposed face of transmembrane proteins using site-directed mutagenesis represents a novel approach to render membrane proteins more soluble in aqueous solution. We have sequentially introduced as many as five polar and charged amino acids onto the lipid-exposed face of helix D of bacteriorhodopsin from Halobacterium salinarium. The most polar mutant (Q4D) has four glutamine residues at positions 113, 116, 120 and 124 and an aspartate at position 117. In combination with wild-type residues Gln105, Thr107, Thr121 and Thr128, the Q4D mutant has a nearly uninterrupted stripe of polar residues on the surface of helix D. All of the mutants refold, bind retinal and the resulting pigments exhibit light- and dark-adapted UV and visible spectroscopic properties that are similar to the wild-type pigment, indicating that the secondary, tertiary and active site structures are similar to the wild-type protein. These results demonstrate that micelle-solubilized bacteriorhodopsin can tolerate multiple non-conservative substitution of amino acids that face the non-polar portion of the lipid bilayer in vivo, thus lending credence to the notion of partial or complete solubilization of integral membrane proteins by site-directed mutagenesis.      

Probing the role of threonine and serine residues of E.coli asparaginase II by site-specific mutagenesis

Site-specific mutagenesis has been used to probe amino acidresidues proposed to be critical in catalysis by Escherichiacoli asparaginase II. Thr12 is conserved in all known asparaginases.The catalytic constant of a T12A mutant towards L-aspartk acidß-hydroxamate was reduced to 0.04% of wild type activity,while its An, and stability against urea denaturation were unchanged.The mutant enzyme T12S exhibited almost normal activity butaltered substrate specificity. Replacement of Thr119 with Alaled to a 90% decrease of activity without markedly affectingsubstrate binding. The mutant enzyme S122A showed normal catalyticfunction but impaired stability in urea solutions. These dataindicate that the hydroxyl group of Thr12 is directly involvedin catalysis, probably by favorably interacting with a transitionstate or intermediate. By contrast, Thr119 and Ser122, bothputative target sites of the inactivator DONV, are functionallyless important.     

Cold-active citrate synthase: mutagenesis of active-site residues

A comparison of the crystal structure of the dimeric enzymecitrate synthase from the psychrophilic Arthrobacter strainDS2-3R with that of the structurally homologous enzyme fromthe hyperthermophilic Pyrococcus furiosus reveals a significantdifference in the accessibility of their active sites to substrates.In this work, we investigated the possible role in cold activityof the greater accessibility of the Arthrobacter citrate synthase.By site-directed mutagenesis, we replaced two alanine residuesat the entrance to the active site with an arginine and glutamateresidue, respectively, as found in the equivalent positionsof the Pyrococcus enzyme Also, we introduced a loop into theactive site of the psychrophilic citrate synthase, again mimickingthe situation in the hyperthermophilic enzyme. Analysis of thethermoactivity and thermostability of the mutant enzymes revealsthat cold activity is not significantly compromised by the mutations,but rather the affinity for one of the substrates, acetyl-CoA,is dramatically increased. Moreover, one mutant (Loop insertion/K313L/A361R)has an increased thermostability but a reduced temperature optimumfor catalytic activity. This unexpected relationship betweenstability and activity is discussed with respect to the natureof the dependence of catalytic activity on temperature.     

Alteration of catalytic properties of chymosin by site-directed mutagenesis

Artificial mutations of chymosin by recombinant DNA techniqueswere generated to analyze the structure–function relationshipin this characteristic aspartk proteinase. In order to preparethe mutant enzymes in their active form, we established proceduresfor purification of correctly refolded prochymosin from inclusionbodies produced in Escherichia coli transformants and for itssubsequent activation. Mutagenesis by linker insertion intocDNA produced several mutants with an altered ratio of milkclotting activity to proteolytic activity and a different extentof stability. In addition to these mutants, several mutantswith a single amino acid exchange were also constructed by site-directedmutagenesis and kinetic parameters of these mutant enzymes weredetermined by using synthetic hexa- and octa-peptides as substrates.Exchange of Tyr75 on the flap of the enzyme to Phe caused amarked change of substrate specificity due to the change ofk_cat or K_m, depending on the substrate used. Exchange of Val110and Phe111 also caused a change of kinetic parameters, whichindicates functional involvement of these hydrophobic residuesin both the catalytic function and substrate binding. The mutantLys220–Leu showed a marked shift of the optimum pH tothe acidic side for hydrolysis of acid-denatured haemoglobinalong with a distinct increase in k_cat for the octa-peptidein a wide pH range.