Synergism between mellitin and phospholipase A2 from bee venom: apparent activation by intervesicle exchange of phospholipids

Mellitin, a cationic amphiphilic peptide, has an apparent activating effect on interfacial catalysis by phospholipase A2 (PLA2) of bee venom on zwitterionic vesicles of 1-palmitoyl-2-oleoylglycero-sn-3-phosphocholine (POPC) and on anionic vesicles of 1,2-dimyristoylglycero-sn-3-phosphomethanol (DMPM), as well as on covesicles of POPC/DMPM (3:7). On the other hand, mellitin-induced increase in the rate of pig pancreatic PLA2 is seen only on anionic vesicles. Interfacial kinetic protocols and spectroscopic methods show that the activation is due to enhanced substrate replenishment resulting from intervesicle exchange of zwitterionic or anionic phospholipids through vesicle-vesicle contacts established by mellitin. It is shown that as the hydrolysis on POPC vesicles progresses, due to a high propensity of bee PLA2 for binding to the product containing zwitterionic vesicles, most of the enzyme in the reaction mixture is trapped on few vesicles that are initially hydrolyzed, and thus reaction ceases. Under these conditions, mellitin promotes substrate replenishment by direct exchange of the products of hydrolysis from the enzyme-containing vesicles with the substrate present in excess vesicles which have not been hydrolyzed. Pig PLA2 has poor affinity for POPC vesicles, and the affinity is only modestly higher in the presence of low mole fractions of the products of hydrolysis; therefore, the enzyme is not trapped on those vesicles. Biophysical studies confirm that the phospholipid exchange occurs through stable intervesicle contacts formed by low mole fractions of mellitin, without transbilayer movement of phospholipids or fusion of vesicles. At high mole fraction (> 1.5%) mellitin induces leakage in POPC vesicles and does not form additional contacts. In POPC/DMPM vesicles, the contacts are formed even at high mole fractions of mellitin. Changes in intrinsic tryptophan fluorescence of mellitin indicate that bound mellitin exists in at least two different functional forms depending on the lipid composition and on the lipid:peptide ratio. A model is proposed to accommodate amphiphilic mellitin as a transmembrane channel or an intervesicle contact.

Use of an imperfect neutral diluent and outer vesicle layer scooting mode hydrolysis to analyze the interfacial kinetics, inhibition, and substrate preferences of bee venom phospholipase A2

Interfacial catalytic constants for bee venom phospholipase A2 (bvPLA2) have been obtained for its action on vesicles of the anionic phospholipid 1,2-dimyristoylphosphatidylmethanol (DMPM) in the highly processive scooting mode. Spectroscopic measurements which directly measure transbilayer movement of membrane components show that this exchange does not occur in anionic vesicles that have undergone complete bvPLA2-catalyzed hydrolysis of all phospholipids in the outer vesicle monolayer. 3-Hexadecyl-sn-glycero-1-phosphocholine (D-LPC) is an adequate neutral diluent for bvPLA2, which is defined as an amphiphile that forms an aggregate to which enzyme binds but neutral diluent molecules bind weakly in the enzyme's active site. D-LPC has weak affinity for the active site of bvPLA2, and theory and protocols are developed that allow its use to determine equilibrium dissociation constants for competing active site ligands. Some of the properties of bvPLA2 are shared by other 14 kDa PLA2s. (1) Ca2+ is required for binding of ligands to the active site but not for the binding of enzyme to the interface. (2) bvPLA2 does not significantly discriminate between phospholipids with different polar head groups or acyl chains. (3) bvPLA2 does not bind to phosphatidylcholine vesicles, and binding occurs if anionic amphiphiles are present in the vesicle. Novel features of bvPLA2 include the following: (1) Neutral diluents for other 14 kDa phospholipases A2 are not neutral diluents for bvPLA2. (2) Saturation of the active site with a variety of different ligands does not completely prevent histidine alkylation by 2-bromo-4'-nitroacetophenone, and Ca2+ binding does not change the rate of histidine alkylation. Finally, the carbohydrate portion of bvPLA2 does not alter the interfacial catalytic properties of the enzyme. Kinetic analysis of bvPLA2 in the scooting mode together with previous studies with other 14 kDa PLA2s provides a paradigm for the quantitative analysis of interfacial catalysis.

Phospholipase A2 engineering. Structural and functional roles of the highly conserved active site residue aspartate-99

The aspartate-99 of secreted phospholipase A2 (PLA2) has been proposed to be critical for the catalytic mechanism and interfacial activation of PLA2. Aspartate-99 connects the catalytic machinery (including the catalytic diad, the putative catalytic waters W5 and W6, and the calcium cofactor) to the hydrogen-bonding network. The latter involves Y52, Y73, the structural water, and the N-terminal region putatively required for the interfacial activation. A triple mutant of bovine pancreatic PLA2 with substitutions aspartate plus adjacent tyrosine residues (Y52,73F/D99N) was constructed, its X-ray structure was determined, and kinetic characteristics were analyzed. The kinetic properties of the D99N mutant constructed previously were also further analyzed. The X-ray structure of the Y52,73F/D99N mutant indicated a substantial disruption of the hydrogen-bonding network including the loss of the structural water similar to that seen in the structure of the D99N mutant published previously [Kumar, A., Sekharudu, Y. C., Ramakrishnan, B., Dupureur, C. M., Zhu, H., Tsai, M.-D., & Sundaralingam, M. (1994) Protein Sci. 3, 2082-2088]. Kinetic analysis demonstrated that these mutants possessed considerable catalytic activity with a k(cat) value of about 5% compared to WT. The values of the interfacial Michaelis constant were also little perturbed (ca. 4-fold lower for D99N and marginally higher for Y52,73F/D99N). The results taken together suggest that the hydrogen-bonding network is not critically important for interfacial activation. Instead, it is the chemical step that is perturbed, though only modestly, in the mutants.

Salt-triggered intermembrane exchange of phospholipids and hemifusion by myelin basic protein

Intervesicle phospholipid exchange through molecular contacts induced by the C1 molecular species of myelin basic protein (MBP) are characterized by using methods that amplify the effect of MBP-membrane interaction. The effect of salt concentration (KCl) on the vesicle-vesicle interaction of anionic sonicated covesicles of 30% 1-palmitoyl-2-oleoylglycero-sn-3-phosphocholine and 70% 1,2-dimyristoylglycero-sn-3-phosphomethanol (POPC/DMPM) by MBP is dissected by a combination of protocols into individual steps: aggregation of vesicles, apposition and contact formation, and hemifusion. Scattering and resonance energy transfer measurements reveal that, in the absence of KCl, MBP promotes rapid aggregation of the vesicles without lipid mixing. At >40 mM KCl, the extent of aggregation is larger and time-dependent. Fluorescence dequenching due to dilution of labeled phospholipids indicates that on a somewhat slower time scale, hemifusion of vesicles is triggered by salt, with mixing of the outer monolayer lipids but without flip-flop of phospholipids and without mixing or leakage of the aqueous contents. The exchange and hemifusion are seen with anionic vesicles; the effect of the structure of phospholipid, composition of vesicles, and the protein/lipid ratio is primarily on the kinetics of these and other competing processes. Thus, at 0.022 mol % of MBP and less than 100 mM KCl, it is possible to uncouple three sequential steps: (1) aggregation of vesicles by MBP; (2) apposition of bilayers and selective lipid exchange through vesicle-vesicle contacts established by MBP, i.e., anionic and zwitterionic phospholipids exchange, but cationic probes are excluded; and (3) hemifusion and lipid mixing of contacting monolayers of vesicles.

A case-control analysis of risk factors in HIV transmission in South India

A case-control study was done among patients attending our clinic for sexually transmitted diseases in South India to assess risk factors for human immunodeficiency virus (HIV) infection. Of 5,876 patients tested, 105 (1.79%) were HIV antibody positive (87 men, 18 women) by enzyme-linked immunosorbent assay and Western blot. They were compared with an equal number of age- and sex-matched patients without HIV antibody. Risk factors significant in the crude odds ratio analysis were occupation (truck drivers and truck cleaners), age at first exposure, and sexual contact with commercial sex workers. In the logistic regression analysis, only a history of past genital ulcer was a significant risk factor. Other important findings of this study were that (a) the spread of HIV to women is mostly from their infected husbands and (b) regular condom use was reported by less than 8% of patients and controls. Obviously, the current methods of education of the population are far from adequate.

Identification of a human cDNA clone for lysosomal type Ca2+-independent phospholipase A2 and properties of the expressed protein

A Ca2+-independent phospholipase A2 (PLA2) maximally active at pH 4 and specifically inhibited by the transition-state analogue 1-hexadecyl-3-trifluoroethylglycero-sn-2-phosphomethanol (MJ33) was isolated from rat lungs. The sequence for three internal peptides (35 amino acids) was used to identify a 1653-base pair cDNA clone (HA0683) from a human myeloblast cell line. The deduced protein sequence of 224 amino acids contained a putative motif (GXSXG) for the catalytic site of a serine hydrolase, but showed no significant homology to known phospholipases. Translation of mRNA produced from this clone in both a wheat germ system and Xenopus oocytes showed expression of PLA2 activity with properties similar to the rat lung enzyme. Apparent kinetic constants for PLA2 with dipalmitoylphosphatidylcholine as substrate were Km = 0.25 mM and Vmax = 1.89 nmol/h. Activity with alkyl ether phosphatidylcholine as substrate was decreased significantly compared with diacylphosphatidylcholine. Significant lysophospholipase, phospholipase A1, or 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine acetylhydrolase activity was not observed. Enzyme activity was insensitive to p-bromophenacyl bromide, bromoenol lactone, trifluoromethylarachidonoyl ketone, mercaptoethanol, and ATP, but was inhibited by MJ33 and diethyl p-nitrophenyl phosphate, a serine protease inhibitor. SDS-polyacrylamide gel electrophoresis with autoradiography of the translated [35S]methionine-labeled protein confirmed a molecular mass of 25.8 kDa, in good agreement with the enzyme isolated from rat lung. By Northern blot analysis, mRNA corresponding to this clone was present in both rat lung and isolated rat granular pneumocytes. These results represent the first molecular cloning of a cDNA for the lysosomal type Ca2+-independent phospholipase A2 group of enzymes.

Mitogen-activated protein kinase phosphatase-1 in rat arterial smooth muscle cell proliferation

Smooth muscle cell proliferation and migration is important in arteriosclerosis. In this process, cytokines and growth factors are upregulated and bind to their respective receptors, which in turn stimulate mitogen-activated protein (MAP) kinases. MAP kinases then relay signals to the nucleus that activate quiescent smooth muscle cells. Phosphatases downregulate MAP kinases. We investigated the role of a dual-specificity tyrosine phosphatase, MAP kinase phosphatase-1 (MKP-1), in smooth muscle cell proliferation. MKP-1 expression was high in arterial tissue by Northern analysis, and MKP-1 message was detected mainly in the arterial smooth muscle layer by in situ hybridization. After balloon injury of the rat carotid artery, expression of MKP-1 decreased greatly, whereas that of MAP kinases, especially p44 MAP kinase, increased. The time course of the reduction in MKP-1 message correlated with increased tyrosine phosphorylation and elevated p44 MAP kinase enzymatic activity. In rat arterial smooth muscle cells overexpressing MKP-1, growth was arrested in the G1 phase and entry into the S phase was blocked. A reduction in MKP-1 expression may contribute in part to proliferation of smooth muscle cells after vascular injury, possibly through a decrease in dephosphorylation of p44 MAP kinase.

Three sibs with mild variety of osteopetrosis

We report three sibs with mild autosomal recessive variety of osteopetrosis. The prominent clinical features were short stature, malocclusion of teeth, hepatosplenomegaly and a typical facial appearance. The only atypical features were microcephaly, a normal upper segment to lower segment ratio and a normal arm span.

Phospholipase A2 engineering. Deletion of the C-terminus segment changes substrate specificity and uncouples calcium and substrate binding at the zwitterionic interface

It has been suggested [Dijkstra, B. W., Drenth, J., & Kalk, K. H. (1981) Nature 289, 604-606] that the interfacial binding site of phospholipase A2 (PLA2) involves a large number of residues, including a cluster at the N-terminus and another cluster at the C-terminus. The approaches of multiple mutation and deletion were used to test the roles of the C-terminal residues of bovine pancreatic PLA2 overexpressed in Escherichia coli. A double mutant K120A/K121A and a deletion mutant delta 115-123/ C27A were constructed, and structural and functional analyses were performed on both mutants. The double mutant showed little perturbation in the global structure on the basis of proton NMR and X-ray crystallographic analyses. The proton NMR analysis of the deletion mutant suggested that a few residues at the active site, the hydrophobic channel, and the calcium binding loop are perturbed, but the global conformation is not changed. The mutants were then characterized for catalytic and binding properties by use of various kinetic and spectroscopic methods. The double mutant behaved in a manner similar to that of the wild type (WT) PLA2 in every property examined. The deletion mutant was found to show an interesting change of substrate specificity. The kcat,app of the zwitterionic DC8PC micelles but not the anionic DC8PM micelles decreased by a factor of > 100; however, the activity of DC8PC was restored upon addition of 4 M NaCl. The results of fluorescence spectroscopic studies indicate that the deletion mutant behaves in a manner similar to that of WT in the binding to anionic vesicles and to zwitterionic neutral diluent. Thus, the binding affinity of the enzyme to the interface (the E to E* step) should not be the main cause for the change in substrate specificity. The cause lies at least partially in the binding of substrate or inhibitor to the active site of the enzyme at the interface, i.e., the E* to E*L step, as revealed by the results of equilibrium binding studies. The equilibrium dissociation constants of ligands are generally higher for the deletion mutant (relative to WT) at the zwitterionic interface but not at the anionic interface. The cause for the low affinity of an active site-directed ligand to the active site at the zwitterionic interface could be related to the inability of Ca2+ to enhance ligand binding for the deletion mutant. This is in contrast to the WT PLA2 for which Ca2+ binding enhances binding of the substrate to the active site. Overall, the structural and functional perturbations caused by deleting the C-terminal segment are modest, but the changes in substrate specificity and the uncoupling between substrate and calcium binding are interesting and significant.

Efficacy of ajoene, an organosulphur derived from garlic, in the short-term therapy of tinea pedis

The present report shows the efficacy of ajoene, a garlic-derived organic trisulphur, for short-term therapy of tinea pedis. The use of ajoene as a 0.4% (w/w) cream resulted in complete clinical and mycological cure in 27 of 34 patients (79%) after 7 days of treatment. The remaining seven patients (21%) achieved complete cure after seven additional days of treatment. All patients were evaluated for recurrence of mycotic infections 90 days after the end of treatment, yielding negative cultures for fungus. These results show that ajoene is an alternative, efficient and low-cost antimycotic drug for short-term therapy of tinea pedis. The fact that ajoene can be easily prepared from an alcoholic extract of garlic may make it suitable for Third World public health care.

Kinetic basis for the substrate specificity during hydrolysis of phospholipids by secreted phospholipase A2

Kinetics of hydrolysis of aqueous dispersions of arsono-, sulfo-, phosphono- and phospholipids by phospholipase A2 from pig pancreas are characterized in terms of interfacial rate and equilibrium parameters. The enzyme with or without calcium binds with high affinity to the aqueous dispersions of the four classes of anionic lipids and shows the same general kinetic behavior. The rate of hydrolysis of anionic substrates does not show an anomalous change at the critical micelle concentration because the enzyme is present in aggregates even when bulk of the substrate is dispersed as a solitary monomer. Apparent affinities of the enzyme for the interface of different anionic lipids are virtually the same. Also, affinities of these substrates for the active site of the enzyme at the interface are comparable. However, a significant change in the catalytic turnover rate is seen as the sn-3 phosphodiester group is modified; the apparent maximum rate at saturating bulk substrate concentration, V(M)app values, increase in the order: homo- and arsonolipids < sulfo- < phosphono- < phospholipids. Not only the basis for the sn-2 enantiomeric selectivity but also the decrease in the rate of hydrolysis with the increasing chain length is due to a decrease in the value of V(M)app. Results show that even when the bulk concentration of anionic phospholipid is below cmc, hydrolysis occurs in aggregates of enzyme and substrate where the chemical step of the turnover cycle remains rate-limiting, which provides a basis for the assumption that V(M)app is directly related to Kcat. The fact that Kcat depends on the nature of the head group (phosphate, phosphonate, sulfate, arsonate) implies that the head group plays a critical role in the rate-limiting chemical step of the catalytic cycle, possibly during the decomposition of the tetrahedral intermediate. The significance of these results for the microscopic steady-state condition for hydrolysis at the micellar interface, mechanism of esterolysis by phospholipase A2, and inhibitor design are discussed.

APEG-1, a novel gene preferentially expressed in aortic smooth muscle cells, is down-regulated by vascular injury

Despite the importance of phenotypic alterations in arterial smooth muscle cells (ASMC) during the pathogenesis of arteriosclerosis, little is known about genes that define differentiated ASMC. Using differential mRNA display, we isolated a novel gene preferentially expressed in the rat aorta and termed this gene APEG-1. The cDNA of rat APEG-1 contained an open reading frame encoding 113 amino acids, which would predict a basic protein of 12.7 kDa. The amino acid sequence of rat APEG-1 was highly conserved among human and mouse homologues (97 and 98%, respectively). Using an APEG-1 fusion protein containing an N-terminal c-Myc tag, we identified APEG-1 as a nuclear protein. By in situ hybridization, APEG-1 mRNA was expressed in rat ASMC. Although APEG-1 was expressed highly in differentiated ASMC in vivo, its expression was quickly down-regulated and disappeared in dedifferentiated ASMC in culture. In vivo, APEG-1 mRNA levels decreased by more than 80% in response to vascular injury as ASMC changed from a quiescent to a proliferative phenotype. Taken together, these data indicate that APEG-1 is a novel marker for differentiated ASMC and may have a role in regulating growth and differentiation of this cell type.

Embolic stroke in a child with idiopathic dilated cardiomyopathy

An eleven year old boy presented with sudden onset right-sided hemiplegia and ipsilateral lower facial weakness. Two-dimensional echo revealed the diagnosis of idiopathic dilated cardiomyopathy with multiple intracardiac clots. MRI scan of head showed infarctions in the area of caudate nuclei, putamen, brain stem and cerebellum. On anticoagulation therapy, all thrombi, except one, disappeared. The child died 2.5 months later due to resistant cardiac failure.

Specificity for the exchange of phospholipids through polymyxin B mediated intermembrane molecular contacts

Structural specificity for the direct vesicle-vesicle exchange of phospholipids through stable molecular contacts formed by the antibiotic polymyxin B (PxB) is characterized by kinetic and spectroscopic methods. As shown elsewhere [Cajal, Y., Rogers, J., Berg, O.G., & Jain, M.K. (1996) Biochemistry 35, 299-308], intermembrane molecular contacts between anionic vesicles are formed by a small number of PxB molecules, which suggests that a stoichiometric complex may be responsible for the exchange of phospholipids. Larger clusters containing several vesicles are formed where each vesicle can make multiple contacts if sterically allowed. In this paper we show that the overall process can be dissected into three functional steps: binding of PxB to vesicles, formation of stable vesicle-vesicle contacts, and exchange of phospholipids. Polycationic PxB binds to anionic vesicles. Formation of molecular contacts and exchange of monoanionic phospholipids through PxB contacts does not depend on the chain length of the phospholipid. Only monoanionic phospholipids (with methanol, serine, glycol, butanol, or phosphatidylglycerol as the second phosphodiester substituent in the head group) exchange through these contacts, whereas dianionic phosphatidic acid does not. Selectivity for the exchange was also determined with covesicles of phosphatidylmethanol and other phospholipids. PxB does not bind to vesicles of zwitterionic phosphatidylcholine, and its exchange of covesicles is not mediated by PxB. Vesicles of dianionic phospholipids, like phosphatidic acid, bind PxB; however, this phospholipid does not exchange. The structural features of the contacts are characterized by the spectroscopic and chemical properties of PxB at the interface. PxB in intermembrane contacts is readily accessible from the aqueous phase to quenchers and reagents that modify amino groups. Results show that PxB at the interface can exist in two forms depending on the lipid/PxB ratio. Additional studies show that the stable PxB-mediated vesicle-vesicle contacts may be structurally and functionally distinct from "stalks", the putative transient intermediate for membrane fusion. The phenomenon of selective exchange of phospholipids through peptide-mediated contacts could serve as a prototype for intermembrane targeting and sorting of phospholipids during their biosynthesis trafficking in different compartments of a cell. The protocols and results described here also extend the syllogistic foundation in interfacial equilibria and catalysis.

Molecular cloning and characterization of SmLIM, a developmentally regulated LIM protein preferentially expressed in aortic smooth muscle cells

Differentiated, quiescent vascular smooth muscle cells assume a dedifferentiated, proliferative phenotype in response to injury, one of the hallmarks of arteriosclerosis. Members of the LIM family of zinc-finger proteins are important in the differentiation of various cells including striated muscle. We describe here the molecular cloning and characterization of a developmentally regulated smooth muscle LIM protein, SmLIM, that is expressed preferentially in the rat aorta. This 194-amino acid protein has two LIM domains, and comparisons of rat SmLIM with its mouse and human homologues reveal high levels of amino acid sequence conservation (100 and 99%, respectively). SmLIM is a nuclear protein and maps to human chromosome 3. SmLIM mRNA expression was high in aorta but not in striated muscle and low in other smooth muscle tissues such as intestine and uterus. In contrast with arterial tissue, SmLIM mRNA was barely detectable in venous tissue. The presence of SmLIM expression within aortic smooth muscle cells was confirmed by in situ hybridization. In vitro, SmLIM mRNA levels decreased by 80% in response to platelet-derived growth factor-BB in rat aortic smooth muscle cells. In vivo, SmLIM mRNA decreased by 60% in response to vessel wall injury during periods of maximal smooth muscle cell proliferation. The down-regulation of SmLIM by phenotypic change in vascular smooth muscle cells suggests that it may be involved in their growth and differentiation.

Intermembrane molecular contacts by polymyxin B mediate exchange of phospholipids

Direct intermembrane exchange of dimyristoylphosphatidylmethanol is mediated by polymyxin B (PxB), a cationic amphipathic cyclic decapeptide. The possibility that the phospholipid exchange is mediated by solubilization of phospholipids or by fusion of vesicles is ruled out. By kinetic and spectroscopic methods it is shown that the exchange occurs directly through vesicle-vesicle contacts formed by a few PxB molecules. The contact is stable on the time scale of several minutes such that neither PxB nor the vesicles in the pair forming a contact exchange with excess vesicles. Several contacts may be formed on a vesicle, which leads to the formation of a cluster of vesicles, and the lipid molecules on the outer monolayers of vesicles exchange throughout the cluster. Kinetics of substrate replenishment during processive interfacial catalysis suggests that the exchange of anionic lipids over the contact occurs at a rate considerably faster than 300 s-1. The exchange through the contact is specific for certain lipids, and phospholipids with a modified head group or phospholipase A2 bound to a vesicle are not transferred to the other vesicle in contact. Since this phenomenon has not been described before, possible implications of direct vesicle-vesicle exchange of phospholipids through peptide-mediated molecular contacts are discussed. Such a mechanism for intermembrane transfer of phospholipids could be responsible for intracellular trafficking and sorting of phospholipids; it could be a necessary first step for the sequence of events leading to budding, vesiculation, and secretion; and PxB-mediated transfer between the inner and outer membranes of Gram-negative bacteria could also account for its antibiotic action.

Continuous, vesicle-based fluorimetric assays of 14- and 85-kDa phospholipases A2

This paper describes the synthesis and analysis of new substrates for the 85-kDa, mammalian, cytosolic phospholipase A2 (cPLA2) and the 14-kDa, human nonpancreatic, secreted phospholipase A2 (sPLA2). Phosphatidylcholines containing an arachidonyl chain at the sn-2 position and either a 10-pyrenedecyl or a 10-pyrenedecanoyl chain at the sn-1 position were synthesized and shown to be substrates for cPLA2 in a fluorescence-based assay. Most of the assays make use of small and large unilamellar vesicles of substrate phospholipid, although the assay also works when the substrate is dispersed in Triton X-100 mixed-micelles. The cPLA2 assays can be carried out in a fixed time-point mode in which one of the products, the pyrene-containing lysophospholipid, is detected by rapid HPLC. Alternatively, the assay becomes continuous when bovine serum albumin is present in the aqueous phase; this protein extracts the pyrene-containing lysophospholipid from the vesicle, and this leads to the fluorescence of monomeric pyrene label. These assays are capable of detecting subnanogram amounts of cPLA2. The ester formed between gamma-linolenic acid and 7-hydroxycoumarin is also a substrate for cPLA2, and when incorporated into vesicles of the anionic phospholipid, 1,2-dioleoyl-sn-glycero-3-phosphomethanol, provides an assay in which the enzyme does not leave the vesicle surface (scooting mode). Unlike all of the previously reported, vesicle-based cPLA2 assays, a prolonged linear reaction progress is seen with the DOPM-based assay. An assay of sPLA2 with subnanogram sensitivity was developed which makes use of the substrate 1-palmitoyl-2-(10-pyrenedecanoyl)-sn-glycero-3-phosphomethanol and a lipid sink. The latter is composed of phosphatidylcholine vesicles, in excess of substrate vesicles, which do not bind sPLA2 but provide a trap for enzyme-produced 10-pyrenedecanoic acid. The fluorescence of monomeric pyrene label in sink vesicles is detected. A second sPLA2 assay using a single type of vesicle was developed based on the substrate 1,2-di(10-pyrenedecanoyl)-sn-glycero-3-phosphocholine present at 10 mol% in vesicles of the nonhydrolyzable anionic phospholipid 1,2-ditetradecyl-sn-glycero-3-phosphomethanol. The action of sPLA2 on this fluorescent substrate leads to a separation of the pyrene chains resulting in fluorescence emission from monomeric pyrene. These cPLA2 and sPLA2 assays are ideal for inhibitor screening and analysis, and for studying the interfacial kinetics of these enzymes.

Typhoid fever in a 7 month old infant

The clinical profile of typhoid fever in an infant is variable and non-specific. A rare case of typhoid fever in a 7 month old infant is reported. The child presented with only a day's history of fever and loose motions which resulted in severe dehydration, acute tubular necrosis and death. The diagnosis of typhoid fever was made only on post-mortem study. The problem in diagnosing typhoid fever in a young infant is highlighted with a brief literature review on the subject.

Intramolecular domain-domain interactions and intermolecular self-association in bovine prothrombin. A potentiometric and laser light-scattering study

The interaction of bovine prothrombin with Ca2+ and Mg2+ ions was investigated by following H+ release as a function of metal ion concentration at pH 6 and pH 7.4 at high and low ionic strength. Prothrombin Ca2+ and Mg2+ binding is characterized by high- and low-affinity sites. M2+ binding at these sites is associated with intramolecular conformational changes and also with intermolecular self-association. The pH dependence of H+ release by M2+ is bell shaped and consistent with controlling pKa values of 4.8 and 6.5. At pH 6 and low ionic strength, both Ca2+ and Mg2+ titrations following H+ release clearly show independent low- and high-affinity binding sites. Laser light scattering reveals that at pH 7.4 and low ionic strength, and at pH 6.0 and high ionic strength, the prothrombin molecular weight is between 73 and 98 kD. At pH 7.4 and high ionic strength, prothrombin is monomeric in the absence of metal ions, but appears to dimerize in the presence of M2+. At pH 6.0 and low ionic strength prothrombin exists as a dimer in the absence of metal ions and is tetrameric in the presence of Ca2+ and remains dimeric in the presence of Mg2+. These results and those for metal ion-dependent H+ release indicate that H+ release occurs concomitantly with association processes involving prothrombin.

Phospholipase A2 engineering. Probing the structural and functional roles of N-terminal residues with site-directed mutagenesis, X-ray, and NMR

The N-terminal residues of phospholipase A2 (PLA2) are believed to be involved in the hydrogen-bonding network, the interfacial binding site, or the hydrophobic channel. Site-directed mutants of bovine pancreatic PLA2 with substitutions at positions 2, 3, 4, 5, 6, and 9 were constructed to test the roles of these residues in the structure and function of PLA2. Nonconservative mutations of Phe-5 and Ile-9, which are located inside the hydrophobic channel, led to significant perturbations in the conformation and conformational stability. Kinetic studies also indicated that mutations at Ile-9 and Phe-5 caused significant decreases in the rate of hydrolysis toward micellar and vesicle substrates. Scooting mode kinetic analysis showed that the binding step of the mutant enzymes to the DC14PM (1,2-dimyristoyl-sn-glycero-3-phosphomethanol) vesicle interface is not significantly affected and that the perturbations in catalysis occur mainly in kcat at the interface. The results taken together suggest that the residues Ile-9 and Phe-5 are important for both structure and catalysis. The mutant W3A (Trp-3 to Ala) also showed decreased rates of hydrolysis but to a lesser extent than Ile-9 and Phe-5 mutants. In addition, the binding affinity of W3A to the surface of the vesicles (i.e., the E to E* step) has been perturbed to the extent that hopping between anionic vesicles has been observed. On the other hand, the mutants of Gln-4 and Asn-6, which are located at or near the surface, displayed structural and kinetic properties similar to those of the wild-type PLA2 with the exception of the highly hydrophilic lysine mutant. The X-ray structure of the Q4E mutant indicates that the overall structure, the catalytic triad, and the link between residue 4 and Asp-99 via hydrogen bonding through Ala-1 and the structural water remain the same as in the WT. Substitutions for Leu at position 2 showed an acyl chain length discrimination toward different substrates, which may reflect the contacting position(s) of the substrate acyl chain with Leu-2.

Specific competitive inhibitor of secreted phospholipase A2 from berries of Schinus terebinthifolius

Two structurally related triterpenoids 1 and 2 from pink peppercorn (berries of Schinus terebinthifolius) are identified and characterized as active site-directed specific competitive inhibitors of the three classes of secreted 14 kDa phospholipase A2. The inhibitors not only protect the active site histidine from alkylation but also inhibit the action of secreted phospholipase A2 from pig pancreas, human synovial fluid, and bee venom. Detailed X-ray crystallographic results on the structures of the inhibitors are provided. By physical methods and X-ray crystallography the triterpenoids were identified as masticadienoic acid and masticadienolic acid (schinol). Several other triterpenoids were ineffective as inhibitors of phospholipase A2; however certain ganoderic acid derivatives showed noticeable inhibition. Results show that the side chain of these acidic tetracyclic terpenoids can access the catalytic-site region of phospholipase A2, whereas the acyclic nucleus is at the interfacial recognition region. The selectivity of the assay protocol used here is demonstrated by the fact that the original screen of ethyl acetate extracts of 60 commercially available spices and herbs was carried out with phospholipase A2 from pig pancreas, and only one extract showed inhibitory action on the hydrolytic activity in the scooting mode. Under such assay conditions the enzyme remains tightly bound to the surface of the substrate vesicles. In this way, nonspecific effects of additives that promote desorption of the enzyme from the substrate vesicle surface, under conditions in which the binding of the enzyme to the vesicle is weak, are avoided. The assay protocol is useful for the kinetic characterization of the inhibitors of phospholipase A2, and it does not give false positive results with amphiphilic and hydrophobic compounds, as is the case with virtually all assay systems in use.

Interfacial enzymology of glycerolipid hydrolases: lessons from secreted phospholipases A2

Interfacial enzymes operate at an organized interface such as lipid aggregates in contact with the aqueous phase. The enzyme phospholipase A2 is a well studied interfacial enzyme, and a discussion of its behavior at interfaces is the topic of this review. Knowledge gained from studies of phospholipases A2 can be applied toward the quantitative analysis of other interfacial enzymes. The kinetic analysis of these enzymes is greatly simplified if one establishes certain experimental conditions that limit the exchange of enzyme and substrate between different substrate aggregates. With such constraints, the kinetics can be analyzed in terms of classical Michaelis-Menten theory adopted for the action of enzymes at interfaces. It is also possible to describe other enzyme properties such as inhibition and substrate preferences in a meaningful way using formalism that is well known in solution-phase enzymology.