Use of naturally fluorescent triacylglycerols from Parinari glaberrimum to detect low lipase activities from Arabidopsis thaliana seedlings

The aim of this study was to design a convenient, specific, sensitive, and continuous lipase activity assay using natural long-chain triacylglycerols (TAGs). Oil was extracted from Parinari glaberrimum seed kernels and the purified TAGs were used as a substrate for detecting low levels of lipase activities. The purified TAGs are naturally fluorescent because more than half of the fatty acids from Parinari oil are known to contain 9,11,13, 15-octadecatetraenoic acid (parinaric acid) in its esterified form. The presence of detergents (sodium taurodeoxycholate, CHAPS, Sulfobetaine SB12, Tween 20, Brij 35, Dobanol, n-dodecylglucoside) above their critical micellar concentration dramatically increases the fluorescence of the parinaric acid released by various lipases. This increase in the fluorescence intensity is linear with time and proportional to the amount of lipase added. This new method, performed under non-oxidative conditions, was applied successfully to detecting low lipase levels in crude protein extracts from plant seeds and could be scaled down to microtiterplate measurements. Quantities as low as 0.1 ng of pure pancreatic lipase could be detected under standard conditions (pH 8). Lipase activity can also be assayed in acidic media (pH 5) using human gastric lipase. This simple and continuous assay is compatible with a high sample throughput and might be applied to detecting true lipase activities in various biological samples.     

Interfacial catalysis by lipases

We designed a convenient, specific, sensitive and continuous lipase activity assay using natural long-chain triacylglycerols (TAGs). Oil was extracted from Parinari glaberrimum seed kernels and the purified TAGs used as a substrate for detecting low levels of lipase activities. The purified TAGs are naturally fluorescent. The presence of detergents above their critical micellar concentration dramatically increases the fluorescence of the parinaric acid released by various lipases. This increase is linear with time and proportional to the amount of lipase added. Quantities as low as 0.1 ng of pure pancreatic lipase could be detected under standard conditions (pH 8).

The interfacial activation of human pancreatic lipase (HPL) probably involves the motion of a lid covering the active site of the enzyme. We observed that the presence of either bile salts or a small proportion of water-miscible organic solvents (called activator compounds) considerably enhances the enzymatic activity of HPL on a monomeric solution of tripropionin. This finding suggests that the activator compounds may favor the opening of the lid. This hypothesis was checked by comparing the immunoreactivity of HPL and HPL with a mini-lid (HPL(-lid)) towards anti-HPL monoclonal antibodies (mAbs), in the presence and absence of the activator compounds.     

A simple, rapid, and sensitive fluorescence assay for microsomal triglyceride transfer protein

Microsomal triglyceride transfer protein (MTP) is critical for the assembly and secretion of apolipoprotein B (apoB) lipoproteins. Its activity is classically measured by incubating purified MTP or cellular homogenates with donor vesicles containing radiolabeled lipids, precipitating the donor vesicles, and measuring the radioactivity transferred to acceptor vesicles. Here, we describe a simple, rapid, and sensitive fluorescence assay for MTP. In this assay, purified MTP or cellular homogenates are incubated with small unilamellar donor vesicles containing quenched fluorescent lipids (triacylglycerols, cholesteryl esters, and phospholipids) and different types of acceptor vesicles made up of phosphatidylcholine or phosphatidylcholine and triacylglycerols. Increases in fluorescence attributable to MTP-mediated lipid transfer are measured after 30 min. MTP's lipid transfer activity could be assayed using apoB lipoproteins but not with high density lipoproteins as acceptors. The assay was used to measure MTP activity in cell and tissue homogenates. Furthermore, the assay was useful in studying the inhibition of the cellular as well as purified MTP by its antagonists. This new method is amenable to automation and can be easily adopted for large-scale, high-throughput screening.     

Egg yolk lipoproteins as substrates for lipases

Egg yolk emulsions containing phospholipids (about 31%, w/w) are classically used as substrates for measuring phospholipase A2 activity using the pH-stat method. Here we investigated the susceptibility of egg yolk lipoproteins to lipolysis by various highly purified lipases of animal or microbial origin. Egg yolk lipoproteins, which contain up to 65% triacylglycerols, were found to be effective substrates for all the lipases tested. The specific activities measured on egg yolk lipoproteins using the pH-stat technique were found to be 8000, 1000, 1250 and 1700 U/mg in the case of human pancreatic lipase, horse pancreatic lipase, porcine pancreatic lipase and Humicola lanuginosa lipase, respectively. No activity was detected in the absence of colipase with any of the pancreatic lipases tested. Consequently, the classical egg yolk assay cannot be considered as a specific phospholipase A2 assay.     

Lipid peroxidation and its inhibition in low density lipoproteins: quenching of cis-parinaric acid fluorescence.

The fluorescent polyunsaturated parinaric acid incorporated in LDL particles is highly sensitive to the concentration of peroxyl radicals in the aqueous medium, undergoing rapidly oxidative degradation, as detected by a quenching of fluorescence, without delay after radical generation in solution. Ascorbate, cysteine, and urate suppress the parinaric acid fluorescence decay promoted by peroxyl radicals generated at a constant rate (thermal decomposition of 2,2'-azo-bis(2-amidino-propane hydrochloride)) in a concentration-dependent manner. The chain-breaking efficiencies of these antioxidants are evaluated from the time interval (inhibition period) of parinaric acid protection from oxidative degradation. The results correlate with the inhibition periods of LDL oxidation as monitored by O2 consumption. Therefore, the sensitive and simple parinaric acid assay can be used as a semiquantitative screening test for the detection of potentially important water-soluble chain-breaking antioxidants. Conversely to O2 consumption, the absence of any initial lag phase of probe degradation attests to the sensitivity of the assay. An improved methodology based on second-derivative spectroscopy to follow the formation of conjugated diene isomers directly in the preparation without the need for lipid extraction also confirms the sensitivity of this assay. To assess the usefulness of parinaric acid assay, strong chain-breaking activities of caffeic and chlorogenic acids are reported.     

Spectrophotometric assay for online measurement of the activity of lipase immobilised on micro-magnetic particles

A spectrophotometric assay has been adapted to directly measure the activity of enzymes immobilised on insoluble magnetic particles. Three different types of lipases (Candida antarctica lipase A and B and Thermocatenulatus lanuginosus lipase) were immobilised on two types of magnetic beads. The activity of the resulting immobilised lipase preparations was measured directly in the reaction solution by using a modified p-nitrophenol ester assay using a spectrophotometer. Removal of the solid particles was not necessary prior to spectrophotometric measurement, thus allowing reliable kinetic measurements to be made rapidly. The method was effective for a wide range of magnetic bead concentrations (0.01–0.2 mg ml⁻¹). In all cases the assay could determine the bead-related specific enzyme activity. The assay was validated by comparing with a pH-stat method using p-nitrophenol palmitate as the substrate with an excellent correlation between the two methods. The utility of the spectrophotometric assay was demonstrated by applying it to identify the best combination of lipase type, activation chemistry and magnetic particle. Epoxy activation of poly vinyl alcohol-coated magnetic particles prior to immobilisation of commercial C. antarctica lipase A gave the best preparation.     

Screening for lipase activity in the oil palm

The oil palm mesocarp contains an endogenous lipase which is strongly activated at low temperature. Lipase activity is thus very conveniently assayed by prior exposure of the fruits to low temperature. More than 100 oil palm samples from the germplasm collection of the Palm Oil Research Institute of Malaysia (now known as the Malaysian Palm Oil Board) were screened for non-esterified fatty acid activity using both the low-temperature activation assay and a radioactivity assay. The results showed good correlation between assay procedures. The different samples had a very wide range of lipase activity. Elaeis oleifera samples had significantly lower lipase activity compared with E. guineensis (var. tenera) samples. Even within E. guineensis (var. tenera), there was a wide range of activity. The results confirmed that lipase activity is genotype-dependent. Selection for lipase genotypes is thus possible and this will have obvious commercial value.     

An ultraviolet spectrophotometric assay for measuring lipase activity using long-chain triacyglycerols from Aleurites fordii seeds

In this study, we designed a specific, continuous, and sensitive UV spectrophotometric lipase assay using natural triacylglycerols (TAGs) from the Aleurites fordii seed oil (tung oil). alpha-Eleostearic acid (9,11,13-cis, trans,trans-octadecatrienoic acid) is the main fatty acid component (it accounts for up to 70%) of the TAGs from tung oil. The conjugated triene present in alpha-eleostearic acid constitutes an intrinsic chromophore, which confers strong UV absorption properties on both the free fatty acid and the TAGs from tung oil. The lipase assay is based on the difference between the apparent molar extinction coefficients of the two types of alpha-eleostearic acid present, that which is esterified into TAGs and that which is released into the reaction medium. This difference is responsible for the variations in the UV absorption spectrum of the reaction medium occurring upon enzymatic TAGs hydrolysis. Using the purified lipase from Thermomyces lanuginosa (TLL) and the detergent sodium taurodeoxycholate (NaTDC, 4 mM), it was established that the most suitable method of measuring lipolysis consisted of monitoring the decrease in the OD at 292 nm, which was linear with time and proportional to the amount of lipase added. In order to be able to estimate the specific activity of TLL, we determined an apparent molar extinction coefficient of alpha-eleostearic acid (epsilon = 13,900 M(-1) cm(-1)) under the assay conditions. Amounts of pure TLL as small as 1 ng can be easily detected in the presence of 4 mM NaTDC. Interestingly, the NaTDC concentration can be decreased as far as 0.05 mM. In comparison with other well-known methods of lipase assay, the detection limit of this new method is 100-fold lower than with the pH-stat method and similar to that of a fluorescent assay recently developed at our laboratory.     

Flow cytometric measurement of lipid peroxidation in vital cells using parinaric acid.

A method for measuring lipid peroxidation using time resolved flow cytometry is described. Because of its chemical nature, the naturally fluorescent fatty acid cis-parinaric acid is readily consumed in lipid peroxidation reactions. It could be loaded into Chinese hamster ovary cells in a time and concentration dependent manner at 37 degrees C, with 5 microM for 60' giving consistent, bright fluorescence without evidence of cytotoxicity. Examination of cells by fluorescence microscopy showed diffuse staining of surface and internal membranes. Cells were maintained at 37 degrees C while being examined in an Epics Elite flow cytometer equipped with a 325 nm HeCd laser, and parinaric acid fluorescence at 405 nm was measured over time. Addition of the oxidant tert-butyl hydroperoxide resulted in a burst of intracellular oxidation, shown by simultaneously loading the cells with dichlorofluorescein, and loss of parinaric fluorescence over time. This was followed by cell death, indicated by loss of forward light scatter and uptake of propidium iodide. Pretreatment of the cells with the antioxidant alpha-tocopherol, 200 microM, reduced the rate of loss of parinaric acid fluorescence and delayed the onset of cell death. Simultaneous biochemical determination of the lipid peroxidation breakdown product malondialdehyde confirmed a close temporal relationship with loss of parinaric acid fluorescence, both with and without alpha-tocopherol pretreatment and suggested that the flow cytometric assay for lipid peroxidation is of comparable sensitivity. The mitochondrial stain dodecyl acridine orange and the cyanine dye DiOC(6)3 were combined with cis-parinaric acid staining and could be excited by the latter using resonance energy transfer.(ABSTRACT TRUNCATED AT 250 WORDS)     

Lipase in lipid bodies of cotyledons of rape and mustard seedlings

Lipolytic activity was absent in the crude cotyledon extract of ungerminated rapeseed (Brassica napm L. var. Dwarf Essex), and increased to a peak at day 4 in seedling growth, concomitant with the decrease in total lipids. About 50% of the lipase activity was recovered in the lipid bodies isolated from the cotyledon extract by flotation centrifugation. Isolated lipid bodies underwent autolysis of internal triacylglycerols resulting in the release of fatty acids. After the triacylglycerols in isolated lipid bodies had been extracted with diethyl ether, the lipase was recovered in the remaining membrane fraction. The lipase had a maximal activity at pH 6.5 on trierucin, trilinolein, or endogenous triacylglycerols, and at pH 8.0 on N-methylindoxylmyristate. The lipase was most active on trierucin and trilinolein, and hydrolyzed the related di- and monoacylglycerols at lower rates. There was little enhancement of the lipase activity in the presence of NaCl, CaCl₂, or detergents, and detergents in general reduced the activity. The hydrolysis of trierucin was linear until about 50% of the trierucin had been converted to erucic acid, and there was little accumulation of dierucin and monoerucin. Lipase extracted from lipid bodies isolated from germinated rapeseed of the variety Tower, which contains little or no erucic acids in the storage triacylglycerols, also had the highest activities on trierucin and trilinolein. A comparative study on mustard seed (Brassica juncea) revealed that the mustard lipase possessed characteristics very similar to those of the rapeseed lipase.     

A Spectrophotometric Lipase Activity Assay by Coupled Lipase-Lipoxygenase in Reverse Micelles

A new, continuous spectrophotometric method is described for determining lipase activity using a reverse micelle system, in which lipase (EC 3.1.1.3) and lipoxygenase (EC 1.13.11.12) are dissolved. The reverse micelle system consists of 2-ethyl hexyl sodium sulfosuccinate (AOT)-isooctane and water. Trilinolein is used as the lipase substrate; linoleate hydroperoxide is the end product of the oxidation catalyzed by lipoxygenase, which acts as an auxiliary coupled-enzyme of lipase. The method appears useful both for detailed kinetic studies of lipase and for serial analyses using sunflower oil, a cheaper substrate. This assay offers the typical advantages of the continuous direct photometric methods in that it is rapid, reproducible and sufficiently sensitive for measuring lipase activity even in some crude commercial preparations.     

A Spectrophotometric Lipase Activity Assay by Coupled Lipase-Lipoxygenase in Reverse Micelles

A new, continuous spectrophotometric method is described for determining lipase activity using a reverse micelle system, in which lipase (EC 3.1.1.3) and lipoxygenase (EC 1.13.11.12) are dissolved. The reverse micelle system consists of 2-ethyl hexyl sodium sulfosuccinate (AOT)-isooctane and water. Trilinolein is used as the lipase substrate; linoleate hydroperoxide is the end product of the oxidation catalyzed by lipoxygenase, which acts as an auxiliary coupled-enzyme of lipase. The method appears useful both for detailed kinetic studies of lipase and for serial analyses using sunflower oil, a cheaper substrate. This assay offers the typical advantages of the continuous direct photometric methods in that it is rapid, reproducible and sufficiently sensitive for measuring lipase activity even in some crude commercial preparations.     

A simple method for the separation of triacylglycerols from fatty acids released in lipase assays

A simple procedure for the partition of triacylglycerols from albumin-bound fatty acids is described. This procedure is based on the ability of fumed silicon dioxide to remove emulsified triacylglycerols from aqueous media. The method was developed for the assay of lipoprotein lipase activity but it may be used for the assay of other lipases.     

Influence of carbon and nitrogen sources on lipase production by a newly isolated Candida viswanathii strain

Microorganisms can produce lipases with different biochemical characteristics making necessary the screening of new lipase-producing strains for different industrial applications. In this study, 90 microbial strains were screened as potential lipase producers using a sensitive agar plate method with a suitable medium supplemented with Tween 20 and also a liquid culture supplemented with olive oil. The highest cell growth and lipase production for Candida viswanathii were observed in triolein and oleic acid when used as the only pure carbon source. Renewable low-cost triacylglycerols supported the best cell growth, and olive oil was found to be the best inducer for lipase production (19.50 g/L and 58.50 U). The selected conditions for enzyme production were found with yeast extract as nitrogen source and 1.5 % (w/v) olive oil (85.70 U) that resulted in a good cell growth yield (Y_X/S?=?1.234 g/g) and lipase productivity (1.204 U/h) after 72 h of shake-flask cultivation. C. viswanathii lipase presented high hydrolytic activity on esters bonds of triacylglycerols of long-chain, and this strain can be considered an important candidate for future applications in chemical industries.     

Triacylglycerol lipase activity in the rabbit renal medulla

Although the renal medulla is rich in triacylglycerols, the lipolysis of these intracellular triacylglycerols by a renomedullary triacylglycerol lipase has not been directly demonstrated. The present study demonstrates triacylglycerol lipase activity localized in the particulate subcellular fractions of rabbit renal medullae. Renomedullary triacylglycerol lipase activity, as determined by the hydrolysis of [14C]triolein to [14C]oleic acid, was observed to have a pH optimum of 5.8. Addition of cAMP/ATP/magnesium acetate resulted in an 80% activation of crude homogenate triacylglycerol lipase activity; addition of exogenous cAMP-dependent protein kinase resulted in a further activation of lipolysis. 3 mM CaCl2 had no effect on basal triacylglycerol lipase activity. 1 M NaCl did not inhibit lipolysis, suggesting that the lipase activity measured was not due to lipoprotein lipase. Endogenous renomedullary triacylglycerols were hydrolysed by a lipase in the 100,000 X g pellet of renomedullary homogenates, resulting in the release of free fatty acids including arachidonic and adrenic acids. Dispersed renomedullary cells were prepared to monitor hormone-sensitive triacylglycerol lipase activity in intact cells. Addition of 10 microM forskolin and 10 microM epinephrine resulted in 8-fold and 50-fold increases in triacylglycerol lipase activity, respectively, as defined by release of free glycerol from the cells. These studies demonstrate that a cAMP-dependent hormone-sensitive triacylglycerol lipase is present in the renal medulla, and is responsible for the hydrolysis of renomedullary triacylglycerols.     

Determination of lipoprotein lipase activity using a novel fluorescent lipase assay

A novel, real-time, homogeneous fluorogenic lipoprotein lipase (LPL) assay was developed using a commercially available substrate, the EnzChek lipase substrate, which is solubilized in Zwittergent. The triglyceride analog substrate does not fluoresce, owing to apposition of fluorescent and fluorescent quenching groups at the sn-1 and sn-2 positions, respectively, fluorescence becoming unquenched upon release of the sn-1 BODIPY FA derivative following hydrolysis. Increase in fluorescence intensity at 37°C was proportional to LPL concentration. The assay was more sensitive than a similar assay using 1,2-O-dilauryl-rac-glycero-3-glutaric acid-(6-methylresorufin ester) and was validated in biological samples, including determination of LPL-specific activity in postheparin mouse plasma. The simplicity and reproducibility of the assay make it ideal for in vitro, high-throughput screening for inhibitors and activators of LPL, thus expediting discovery of drugs of potential clinical value.     

Biochemical characterisation and kinetic properties of a purified lipase from Aspergillus niger in bulk phase and monomolecular films

An isolate of Aspergillus niger was used as source of lipase which was purified to a specific activity of 729 U/mg. It has an acidic pH optimum and has a half-life of 42 h at pH 4.4, which can be increased to 138 h in the presence of 10 mM calcium ions. For the first time a lipase from Aspergillus niger was characterised using the monomolecular film technique. The lipase was classified to have a sn-1 selectivity using diacylglycerols and R-isomer hydrolytic preference with pseudolipids representing triacylglycerols in which two of the ester bonds were replaced with ether and amide linkages.     

Continuous monitoring of cholesterol oleate hydrolysis by hormone-sensitive lipase and other cholesterol esterases

Hormone-sensitive lipase (HSL) contributes importantly to the hydrolysis of cholesteryl ester in steroidogenic tissues, releasing the cholesterol required for adrenal steroidogenesis. HSL has broad substrate specificity, because it hydrolyzes triacylglycerols (TAGs), diacylglycerols, monoacylglycerols, and cholesteryl esters. In this study, we developed a specific cholesterol esterase assay using cholesterol oleate (CO) dispersed in phosphatidylcholine and gum arabic by sonication. To continuously monitor the hydrolysis of CO by HSL, we used the pH-stat technique. For the sake of comparison, the hydrolysis of CO dispersion was also tested using other cholesteryl ester-hydrolyzing enzymes. The specific activities measured on CO were found to be 18, 100, 27, and 3 micromol/min/mg for HSL, cholesterol esterase from Pseudomonas species, Candida rugosa lipase-3, and cholesterol esterase from bovine pancreas, respectively. The activity of HSL on CO is approximately 4- to 5-fold higher than on long-chain TAGs. In contrast, with all other enzymes tested, the rates of TAG hydrolysis were higher than those of CO hydrolysis. The relatively higher turnover of HSL on CO observed in vitro adds further molecular insight on the physiological importance of HSL in cholesteryl ester catabolism in vivo. Thus, HSL could be considered more as a cholesteryl ester hydrolase than as a TAG lipase.     

Studies on the involvement of lipolytic enzymes in endogenous lipolysis of the isolated rat heart

Rat hearts were depleted in vivo from both the heparin-releasable lipoprotein lipase and heparin-resistant tissue neutral triacylglycerol lipase activity by treatment of the animals with cycloheximide (2 mg/kg body weight), intraperitoneally injected 2.5 and 5 h prior to perfusion. The tissue acid lipase, mono- and diacylglycerol lipase activities were not affected by cycloheximide-induced inhibition of protein synthesis. Myocardial basal and glucagon-stimulated lipolysis, determined by the rate of glycerol production and release from the isolated hearts, was not significantly different in control and cycloheximide-treated rats. Tissue triacylglycerols were recovered with the highest relative specific distribution in the lysosomal fraction isolated from heart homogenates. Upon prolongation of the perfusion-duration the relative specific distribution of triacylglycerols in the lysosomal fraction decreased. In addition, the specific lysosomal triacylglycerol content (micrograms/mg protein) dropped significantly, indicating an important role of lysosomes in myocardial triacylglycerol turnover. Our data strongly suggest that the heparin-resistant neutral triacylglycerol lipase activity may not be the only determinant of endogenous lipolysis in the isolated rat heart and indicate that lipolysis may additionally be mediated by the lysosomal, acid lipase in concert with the microsomal mono-and diacylglycerol lipase.     

Purification and properties of lipase from Penicillium simplicissimum.

A Penicillium simplicissimum strain has been found to produce an inducible extracellular lipase. Triolein was the best inducer for the enzyme production with the highest activity being achieved after 48 h of incubation. The purified lipase showed a molecular weight of 56,000 by SDS-PAGE. The enzyme exhibited a high ratio of apolar amino acids. The lipase was stable in the pH range of 5-7 and at 50 degrees C for 15 min. The optimum assay conditions were 37 degrees C and pH 5.0. The enzyme showed a high stability in water immiscible organic solvents. Lipase from P. simplicissimum is nonspecific and hydrolyses each of the three bonds of triacylglycerols.