The triglyceride lipases of the pancreas

Pancreatic triglyceride lipase (PTL) and its protein cofactor, colipase, are required for efficient dietary triglyceride digestion. In addition to PTL, pancreatic acinar cells synthesize two pancreatic lipase related proteins (PLRP1 and PLRP2), which have a high degree of sequence and structural homology with PTL. PLRP1 has no known activity. PTL and PLRP2 differ in substrate specificity, behavior in bile salts and dependence on colipase. Each protein has a globular amino-terminal (N-terminal) domain, which contains the catalytic site for PTL and PLRP2, and a beta-sandwich carboxyl-terminal (C-terminal) domain, which includes the predominant colipase-binding site for PTL. Inactive and active conformations of PTL have been described. They differ in the position of a surface loop, the lid domain, and of the beta5-loop. In the inactive conformation, the lid covers the active site and, upon activation by bile salt micelles and colipase or by lipid-water interfaces, the lid moves dramatically to open and configure the active site. After the lid movement, PTL and colipase create a large hydrophobic plateau that can interact with the lipid-water interface. A hydrophobic surface loop in the C-terminal domain, the beta5' loop, may also contribute to the interfacial-binding domain of the PTL-colipase complex.     

Long-chain triglyceride lipases of pig liver

The blood-group specific glycoproteins of human ovarian cyst fluids have been isolated by equilibrium density gradient centrifugation in CsCl; they have been characterised in terms of buoyant density, selective salvation and apparent molecular weight, both in CsCl and Cs(2)SO(4).     

Selectivity of lipases and esterases towards phenol esters

The selectivity of 28 lipases and esterases in the hydrolysis of butanoates of o-, m- or p-substituted phenols was investigated in a microtiterplate format. The phenols released during enzyme-catalyzed hydrolysis were converted in situ with Gibbs’ reagent to form a blue indophenol complex, which was quantified spectrophotometrically at 600 nm. Substantial differences in rates were found, which exhibits that the type and position of the substituent at the alkyl group has a strong influence on the selectivity of the enzymes. For various enzymes, the p-nitro derivative was the best substrate, whereas for other enzymes the m-Cl-derivative was preferentially hydrolyzed. Analysis of the data using the Hammett equation showed that sometimes the observed changes followed a predictable trend, but in several cases the result is very unexpected.     

Enhancement of sequential zymography technique for the detection of thermophilic lipases and proteases

Analysis of lipases and proteases present in cell-free fractions of thermophilic Bacillus sp. cultures were performed in an enhanced sequential zymography method. After the PAGE run, the gel was electrotransferred to another polyacrylamide gel containing a mixture of glycerol tributyrate, olive oil and gelatin. After transference, this substrate-mix gel was incubated for lipase detection, until bands appeared, and later stained with CBB for protease detection. Assets are, besides detecting two enzymes on a single gel, time and material saving.     

Enzymatic synthesis of geraniol esters in a solvent-free system by lipases

Geraniol esters were synthesised by direct esterification catalysed by esterases and lipases (five enzymes were tested) in a solvent-free system at 37°C. The best conversions yields, about 85%, on geranyl butyrate and valerate obtained with esterase 30 000 from Mucor miehei. The effect of substrate molar ratio alcohol/acid variation was studied. A study of the water production was made in parallel during the esterification reaction.     

Quantization of pH: evidence for acidic activity of triglyceride lipases

Here we present a study of lipolytic activity of lipases from Fusarium solani pisi (cutinase), Rhizomucor miehei, Pseudomonas cepacia, and Humicola lanuginosa. Their activities toward triolein provide clear evidence for considerable enzymatic activity under acidic conditions. The activity was followed using Fourier transform infrared attenuated total reflection (FTIR-ATR) and nuclear magnetic resonance (NMR). Using these approaches, all the lipases that were studied exhibited lipolytic activity down to pH 4. The common model for the catalytic activity of the F. solani pisi cutinase, and lipases in general, requires the deprotonation of the active site histidine. Measurements using (13)C NMR spectroscopy showed a pK(a) value in the absence of substrate that is not consistent with the detected acid activity. We propose a novel model for the electrostatics in the active site of cutinase that could explain the observed acidic activity. The active site is essentially covered with the lipid surface during catalysis, thus preventing chemical communication between the active site and the bulk solvent. We propose that the classical definition of pH in bulk solution is not applicable to the active site environment of a lipase when the active site is inaccessible to solvent. In small restricted volumes, the pH must be quantized, and since much of the biological world is dependent on compartmentalization of processes in small volumes, it becomes relevant to investigate when this mechanism comes into play. We have made a quantitative assessment of how large the restricted volume can be and still lead to quantization of pH.     

Kinetic resolution of amino acid esters catalyzed by lipases

Racemic amino acids were resolved by lipase via hydrolysis of their esters. Lipases (Pseudomonas lipase from Amano PS, Rhizopus lipase from Serva, and porcine pancrease lipase from Sigma) could selectively hydrolyze the L-amino acid esters in aqueous solution with high reactivities and selectivities. The effect of the structural changes in the ester moiety on the stereoselectivity of the lipases was also investigated using D ,L -homophenylalanine as a model. Procedures were developed for the resolution of natural and unnatural amino acids. © 1996 Wiley-Liss, Inc.     

Synthesis of various kinds of esters by four microbial lipases

Ester synthesis by microbial lipases, using homogeneous enzyme preparations, were investigated. The amount of synthesized ester was estimated by alkalimetry, and products were identified by thin-layer chromatography and infrared spectroscopy. Lipases from Aspergillus niger, Rhizopus delemar, Geotrichum candidum and Penicillium cyclopium synthesized esters from oleic acid and various primary alcohols. Only Geotrichum candidum lipase synthesized esters of secondary alcohols. Esters of tertiary alcohols, phenols or sugar alcohols were not synthesized by any lipase. Rather high concentrations of alcohol were required to synthesize the esters of ethylene glycol, propylene glycol or trimethylene glycol. Lipases from Aspergillus niger and Rhizopus delemar synthesized oleyl esters of various fatty acids and some dibasic acids. In contrast, lipases from Geotrichum candidum and Penicillium cyclopium synthesized oleyl esters only from medium or long chain fatty acids.     

Hydrolysis of retinyl esters by pancreatic triglyceride lipase

Previously [van Bennekum, A. M., et al. (1999) Biochemistry 38, 4150-4156] we showed that carboxyl ester lipase (CEL)-deficient (CELKO) mice have normal levels of pancreatic, bile salt-dependent retinyl ester hydrolase (REH) activity. In the present study, we further investigated this non-CEL REH activity in pancreas homogenates of CELKO and wild-type (WT) mice, and rats. REH activity was detected in both the presence and absence of tri- and dihydroxy bile salts in rats, WT mice, and CELKO mice. In contrast, pancreatic cholesteryl ester hydrolase (CEH) activity was only detected in the presence of trihydroxy bile salts and only in rats and WT mice, consistent with CEL-mediated cholesteryl ester hydrolysis. Enzyme assays of pancreatic triglyceride lipase (PTL) showed that there was a colipase-stimulated REH activity in rat and mouse (WT and CELKO) pancreas, consistent with hydrolysis of retinyl ester (RE) by PTL. Pancreatic enzyme activities related to either CEL or PTL were separated using DEAE-chromatography. In both rats and mice (WT and CELKO), REH activity could be attributed mainly to PTL, and to a much smaller extent to CEL. Finally, purified human PTL exhibited similar enzymatic characteristics for triglyceride hydrolysis as well as for retinyl ester hydrolysis, indicating that RE is a substrate for PTL in vivo. Altogether, these studies clearly show that PTL is the major pancreatic REH activity in mice, as well as in rats.     

Formation of polyol-fatty acid esters by lipases in reverse micellar media

The synthesis of polyol-fatty acid esters has strong implications in such industries as foods, cosmetics, and polymers. We have investigated these esterification reactions employing the polyols ethylene glycol, 2-monoglyceride, and sugars and their dervatives with the biocatalyst lipase in water/AOT/isooctane reverse micellar media. For the first reaction, 50-60% conversion was achieved and product selectivity toward the monoester over the diester shown possible by employing lipase from Rhizopus delemar. A simple kinetic model based on the formation of acyl-enzyme intermediate accurately predicted the effect of polyol concentration but not the effect of fatty acid or water concentration probably due to the model exclusion of paritioning effects. The success of this reaction in reverse micellar media is due greatly to its capacity to solubilize large quantities of glycol despite the media's overall hydrophobicity. The second reaction, investigated for its potential for production of "mixed" glycerides, also achieved about 50% conversion but had only a small portion of triglyceride in its product distribution. Also, isomerization of the 2-monoglyceride to 1-monoglyceride, followed by hydrolysis of the latter, unfortunately occurred to a significant extent. Attempts at esterification with hexoses and their derivatives such as glucose and mannitol produced no convesion.     

Histochemical demonstration of carbohydrates by a convenient sulphation technique

Summary A simple and convenient procedure has been devised for the staining of carbohydrate derivatives in tissue sections. Dewaxed sections are sulphated either by immersion in a 1:1 acetic-sulphuric acid mixture for 10–15 minutes or by exposure to sulphuryl chloride vapour for 15–20 minutes. The slides are then stained in a 0.05% solution of methylene blue buffered to aph of 2.4. Highly selective staining of tissue carbohydrates is obtained. The acetic-sulphuric mixture rapidly hydrolyses glycogen which is therefore lost, but the sulphuryl chloride technique produces intense staining of glycogen. The various steps in the technique are discussed, with particular emphasis on the reasons for the final choice of conditions. These sulphation techniques have several advantages over the PAS procedure: the overall picture obtained is clearer; definition at high magnifications is often better; and the versatility of the technique can be widened by varying the precise conditions of sulphation and staining to suit the particular problem being studied.

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Zusammenfassung Es wird eine einfache und handliche Methode zur Darstellung von Kohlenhydratderivaten in Gewebsschnitten beschrieben. Entparaffinierte Schnitte werden 10–15 min in einem 1:1 Essigsäure-Schwefelsäure-Gemisch bzw. durch Behandlung mit Sulfurylchloriddampf während 15–20 min sulfatiert und anschließend mit einer 0,5%igen Methylenblaulösung (gepuffert aufph 2,4) gefärbt. Man erhält eine stark selektive Färbung der Gewebskohlenhydrate. Das Essigsäure-Schwefelsäure-Gemisch hydrolysiert und entfernt das Glykogen sehr rasch. Demgegenüber ist nach Sulfurylchloridbehandlung eine starke Anfärbung von Glykogen möglich. Die einzelnen Schritte der Technik werden diskutiert, besonders die Gründe, die uns bei der endgültigen Wahl der Methodik geleitet haben. Die Methode bietet verschiedene Vorteile gegenüber der PAS-Reaktion: Das Übersichtsbild ist klarer, die Schärfe ist bei starken Vergrößerungen oft besser; die Plastizität der Methode ermöglicht es, Sulfatierung und Färbung den Bedürfnissen verschiedener Probleme anzupassen.

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With 5 Figures in the Text     

Measurement of two plasma triglyceride lipases by an immunochemical method: studies in patients with hypertriglyceridemia.

Postheparin plasma lipolytic activity consists of two hydrolytic activities, hepatic triglyceride lipase and lipoprotein lipase. These two enzymes were separated and partially purified by means of ammonium sulfate precipitation and affinity chromatography using Sepharose with covalently linked heparin and concanavalin A, respectively. Antibodies were produced against hepatic triglyceride lipase and they did not cross react with lipoprotein lipase. Optimal conditions for selective precipitation of hepatic lipase and specific measurement of these two lipases were investigated. This method was applied to the study of 15 patients with hypertriglyceridemia and 8 patients with familial lecithin-cholesterol-acyltransferase deficiency of whom 6 also had a marked elevated plasma triglyceride concentration. All patients had normal values of hepatic plasma lipase. All 8 patients with Type I and 2 of 4 patients with Type V hyperlipoproteinemia had lipoprotein lipase activities that were markedly reduced. The patients with Type III hyperlipoproteinemia and all 8 patients with lecithin-cholesterol-acyltransferase deficiency also had normal lipoprotein lipase values. These studies emphasize the necessity for differentiating between triglyceride lipase activity of hepatic and extrahepatic origin in evaluating patients with impaired triglyceride metabolism.     

Synthesis activity-based zymography for detection of lipases and esterases

A new zymography method for lipases and esterases was developed on the basis of the esterification reaction between fatty acids and alcohols. The enzymes were separated by SDS-PAGE and native PAGE. The gel was washed and then incubated in an aqueous solution containing fatty acids (oleic acid 18:1 or caprylic acid 8:0) and dodecanol. Synthesis was visualized by in situ precipitation of water-insoluble and non-diffusible fatty acid esters, such as dodecyl oleate and dodecyl octanoate. The synthesis activity-based zymography was confirmed with different enzyme samples, including commercial lipase preparations, purified recombinant lipase and cutinase, and crude culture supernatants of lipolytic enzyme-producing soil bacteria.     

N-Butyl-N-methyl-4-nitrophenyl carbamate as a specific active site titrator of bile-salt-dependent lipases

The effect of a series of synthetic carbamates on the human (milk or pancreatic) bile-salt-dependent lipase (cholesterol esterase) was examined. N-isopropyl-O-phenyl, N-methyl-O-phenyl, N-butyl-(4-nitrophenyl), N-phenyl-(4-nitrophenyl), N-butyl-N-methyl and N-pentyl-O-phenyl carbamates were inhibitors of the enzyme activity, while O-isopropyl-N-phenyl, O-methyl-N-phenyl, O-benzyl-N-isopropyl and O-cyclohexyl-N-phenyl carbamates were not even recognized by the enzyme. The N-alkyl chain length is essential for the enzyme inhibition and N-butyl-(4-nitrophenyl) or N-pentyl-O-phenyl carbamates are more potent inhibitors than N-methyl-O-phenyl or N-isopropyl carbamates. The inhibition by reactive carbamates fits the criteria for mechanism-based inhibition: the inhibition is first-order with time, shows saturation kinetics with increasing carbamate concentration and leads to an inactive stoichiometric enzyme-inhibitor complex; the enzyme activity can be protected by a competitive inhibitor. Evidence is shown that the enzymatic nucleophilic attack of carbamates is directed at the carbonyl carbon atom and not the nitrogen atom. The inhibition of bile-salt-dependent lipase does not occur consecutive to the formation of a reactive isocyanate derivative of carbamate but via a tetrahedral intermediate involving essential residues implicated in the enzyme catalytic site. This intermediate evolves by liberation of alcohol (or phenol) and formation of an inactive carbamyl enzyme. Among the carbamates tested, N-butyl-N-methyl-(4-nitrophenyl) carbamate specifically inhibits the bile-salt-dependent lipase; the release of 4-nitrophenol from this carbamate is directly proportional to the enzyme inhibition and it may be defined as a specific active-site titrator for bile-salt-dependent lipases.     

Continuous synthesis of esters by cell-bound fungal lipases in an organic solvent

Summary Strains of Penicillium cyclopium and Rhizopus arrhizus secrete two extracellular lipases and contain an intracellular lipase. As these intracellular enzymes exhibited good synthetic activities in organic solvent, we designed a loop fixed-bed reactor for the continuous synthesis of esters. In a preliminary study we optimized the yield of ester synthesis using response surface methodology. With dodecanoic dodecyl ester as a model compound, the yields of ester synthesis were higher than 90%. It has been demonstrated that the reactor designed for this study is more efficient than a stirred batch reactor and more efficient than a fixed-bed reactor without a loop current or without a second catalytic column. In application, we have shown that lipases from R. arrhizus and P. cyclopium do not esterify tertiary alcohols like many lipases. Correspondence to: L. C. Comeau