Spectrofluorometric studies of the lipid probe, nile red

We found that the dye nile red, 9-diethylamino-5H-benzo[alpha]phenoxazine-5-one, can be applied as a fluorescent vital stain for the detection of intracellular lipid droplets by fluorescence microscopy and flow cytofluorometry (J. Cell. Biol. 1985. 100: 965-973). To understand the selectivity of the staining, we examined the fluorescence properties of nile red in the presence of organic solvents and model lipid systems. Nile red was found to be both very soluble and strongly fluorescent in organic solvents. The excitation and emission spectra of nile red shifted to shorter wavelengths with decreasing solvent polarity. However, the fluorescence of nile red was quenched in aqueous medium. Nile red was observed to fluoresce intensely in the presence of aqueous suspensions of phosphatidylcholine vesicles (excitation maximum: 549 nm; emission maximum: 628 nm). When neutral lipids such as triacylglycerols or cholesteryl esters were incorporated with phosphatidylcholine to form microemulsions, nile red fluorescence emission maxima shifted to shorter wavelengths. Serum lipoproteins also induced nile red fluorescence and produced spectral blue shifts. Nile red fluorescence was not observed in the presence of either immunoglobulin G or gelatin. These results demonstrate that nile red fluorescence accompanied by a spectral blue shift reflects the presence of nile red in a hydrophobic lipid environment and account for the selective detection of neutral lipid by the dye. Nile red thus serves as an excellent fluorescent lipid probe.     

Nile red: a selective fluorescent stain for intracellular lipid droplets

We report that the dye nile red, 9-diethylamino-5H-benzo[alpha]phenoxazine-5-one, is an excellent vital stain for the detection of intracellular lipid droplets by fluorescence microscopy and flow cytofluorometry. The specificity of the dye for lipid droplets was assessed on cultured aortic smooth muscle cells and on cultured peritoneal macrophages that were incubated with acetylated low density lipoprotein to induce cytoplasmic lipid overloading. Better selectivity for cytoplasmic lipid droplets was obtained when the cells were viewed for yellow-gold fluorescence (excitation, 450-500 nm; emission, greater than 528 nm) rather than red fluorescence (excitation, 515-560 nm; emission, greater than 590 nm). Nile red-stained, lipid droplet-filled macrophages exhibited greater fluorescence intensity than did nile red-stained control macrophages, and the two cell populations could be differentiated and analyzed by flow cytofluorometry. Such analyses could be performed with either yellow-gold or red fluorescence, but when few lipid droplets per cell were present, the yellow-gold fluorescence was more discriminating. Nile red exhibits properties of a near-ideal lysochrome. It is strongly fluorescent, but only in the presence of a hydrophobic environment. The dye is very soluble in the lipids it is intended to show, and it does not interact with any tissue constituent except by solution. Nile red can be applied to cells in an aqueous medium, and it does not dissolve the lipids it is supposed to reveal.     

Nile red staining of lysosomal phospholipid inclusions

Summary We have employed the fluorescent dye nile red to distinguish between normal cells and cells containing lysosomal accumulations of phospholipids. When fibroblasts from an individual with a genetic deficiency in lysosomal sphingomyelinase activity (Niemann-Pick disease) were stained with nile red and visualized by fluorescence microscopy, orange-colored inclusions were observed throughout the cytoplasm. The orange fluorescent bodies could be distinguished from the neutral lipid droplets that fluoresce a brilliant yellow-gold in the presence of nile red. These inclusions were also observed in alveolar macrophages obtained from rats treated with amiodarone, an antiarrhythmic agent known to produce lysosomal phospholipidosis. Flow cytofluorometric analysis revealed that staining of these phospholipid-rich macrophages with nile red can distinguish them from control alveolar macrophages. These results demonstrate that nile red can be employed for the rapid staining of cellular phospholipid inclusions.     

尼罗红荧光法快速检测培养过程中湛江等鞭金藻的中性脂

研究一种快速准确测定微藻中中性脂的方法。湛江等鞭金藻是一种中性脂含量高且具有开发潜力的能源微藻。以湛江等鞭金藻为实验对象,首先优化尼罗红染色的条件。当二甲基亚砜体积分数为2.0%、尼罗红质量浓度为1.00μg/m L、细胞密度为1.0×106个/m L、激发波长为480 nm、检测波长为580 nm时,优化的染色时间为10min。其次测定了背景荧光对检测的影响。结果表明,在不同细胞状态下,背景荧光强度大约是微藻内荧光强度的20%左右,可以忽略。最后比较了尼罗红荧光法和重量法。结果表明,荧光强度与中性脂含量的相关系数R2=0.946 8,虽然两者相关性并不十分高,但作为一种快速测定微藻中中性脂的方法,尼罗红荧光法依然是研究微藻培养过程中中性脂含量变化的有效方法。     

Nile red staining of lysosomal phospholipid inclusions.

We have employed the fluorescent dye nile red to distinguish between normal cells and cells containing lysosomal accumulations of phospholipids. When fibroblasts from an individual with a genetic deficiency in lysosomal sphingomyelinase activity (Niemann-Pick disease) were stained with nile red and visualized by fluorescence microscopy, orange-colored inclusions were observed throughout the cytoplasm. The orange fluorescent bodies could be distinguished from the neutral lipid droplets that fluoresce a brilliant yellow-gold in the presence of nile red. These inclusions were also observed in alveolar macrophages obtained from rats treated with amiodarone, an antiarrhythmic agent known to produce lysosomal phospholipidosis. Flow cytofluorometric analysis revealed that staining of these phospholipid-rich macrophages with nile red can distinguish them from control alveolar macrophages. These results demonstrate that nile red can be employed for the rapid staining of cellular phospholipid inclusions.     

Application of Nile red, a fluorescent hydrophobic probe, for the detection of neutral lipid deposits in tissue sections: comparison with oil red O

Nile red is a phenoxazone dye that fluoresces intensely, and in varying color, in organic solvents and hydrophobic lipids. However, the fluorescence is fully quenched in water. The dye acts, therefore, as a fluorescent hydrophobic probe. We utilized this novel property of nile red to develop a sensitive fluorescent histochemical stain for tissue lipids. Nile red was prepared by boiling Nile blue A under reflux for 2 hr in 0.5% H2SO4, and extracting the product into xylene. For staining, the purified dye is dissolved in 75% glycerol (1-5 micrograms/ml) and applied to frozen tissue sections. Tissue lipids then fluoresce yellow-gold to red, depending on their relative hydrophobicity. Using sections of liver and aorta from a cholesterol-fed rabbit, we assessed the value of Nile red as a stain for neutral lipids by comparing the staining pattern obtained with that produced by oil red O, a commonly used dye for tissue cholesteryl esters and triacylglycerols. In the cholesterol fatty liver, Nile red staining was comparable to that of oil red O. In contrast, Nile red staining of rabbit aortic atheroma revealed ubiquitous lipid deposits not observed with oil red O staining. These latter results suggest that Nile red can detect neutral lipid deposits, presumably unesterified cholesterol, not usually seen with oil red O or other traditional fat stains.     

尼罗红染色法筛选产油酵母及定量检测胞内油脂含量的研究

【目的】建立产油酵母筛选以及胞内油脂含量测定的简便方法。【方法】利用尼罗红与胞内油脂成分结合后在紫外光照射下发出荧光且荧光强弱与油脂含量相关的原理。通过在添加尼罗红的培养基中培养酵母,并观察菌落荧光的方法对385株深海酵母进行产油脂菌株筛选,利用26S rDNA D1/D2区序列分析方法对筛选获得的产油酵母菌株进行鉴定,并以其中的一株高产油脂酵母(2A00015)为试验菌株,建立了一套尼罗红染色快速测定油脂含量的方法。【结果】获得22株产油酵母,其中油脂含量最高可达62.9%,经分子鉴定后显示这22株酵母分别属于(Candida viswanathii)、近平滑假丝酵母(Candidaparapsilosis)、粘质红酵母(Rhodotorula mucilaginosa)、汉逊德巴利酵母(Debaryomyceshansenii)、季也蒙毕赤酵母(Pichia guilliermondii)以及Rhodosporidium paludigenum酵母。尼罗红染色快速测定油脂含量方法的最佳检测条件为:菌悬液OD600小于1.2,尼罗红浓度0.5 mg/L,染色时间5 min,激发波长488 nm,发射波长570 nm。该测定方法得到相对荧光强度与称重法得到油脂含量呈正相关性,R2=0.9637。     

Improved procedure for the separation of phospholipids by high-performance liquid chromatography

We describe a rapid and efficient high-performance liquid chromatography procedure for the separation of phospholipids. The separation is accomplished on a microparticulate silica gel column using isocratic elution and UV detection at 203 nm. The solvent mixture is acetonitrile—methanol—85% phosphoric acid(130:5:1.5, v/v). Complete separation is achieved within 30 min of phosphatidylinositol, phosphatidylserine, phosphatidylethanolamine, phosphatidyldimethylethanolamine, lysophosphatidylethanolamine, phosphatidylcholine, lysophosphatidylcholine and sphingomyelin. The method is suitable for the analysis of phospholipids in tissue extracts.     

Separation of chloroplast polar lipids and measurement of galactolipid metabolism by high-performance liquid chromatography

Procedures are described for the separation of polar lipids from plant chloroplasts by high-performance liquid chromatography, using a polar-modified silica column. Glycolipids and phospholipids were eluted with a gradient of 2-propanol/n-hexane (80:55, v/v) and 2-propanol/n-hexane/water/methanol (80:55:15:10, v/v). The lipids were detected by uv absorbance at 202 nm. Diacylglycerol and mono-, di-, and trigalactosyldiacylglycerol and phosphatidylcholine were separated on a LiChrosorb NH2 column (7-microns particles, Merck, FRG), but acidic lipids were retained. These lipids could be quantified from their 202-nm absorbance recording. The absorption coefficients obtained depended on the mean number of double bonds in the different lipid classes. The separation was applied for a rapid monitoring of the lipid composition in thylakoids and in fractionated inner and outer envelopes. The activities of galactosyltransferases involved in galactolipid metabolism, UDPGal:diacylglycerol galactosyltransferase and galactolipid:galactolipid galactosyltransferase, could be measured quantitatively in specific assays for both enzymes.     

Fatty acids from 11 marine macroalgae of the French Brittany coast

Four species of red marine algae (Rhodophyceae), five species of brown marine algae (Pheophyceae) and two species of green marine algae (Chlorophyceae) were examined for the fatty acid composition of the three lipid groups separated by silica gel column chromatography (neutral lipids, glycolipids, phospholipids). The four red algae had high contents of 16:0 and C20-polyunsaturated fatty acids (PUFA), 20:5n-3 ranging from 18 to 49% of the total fatty acid content and 20:4n-6 from 1.4 to 22.5%, these fatty acids were evenly distributed in all lipid groups. The five brown algae had high contents of 18:1n-9, 18:2n-6 and 18:3n-3 but low content of 20:5n-3. No precise trend was detected for the distribution of these fatty acids in the three lipid groups. The two green algae had high contents of 16:0, 18:1n-7 and 18:3n-3 and a very low content of PUFA. They contained also large amounts of 16:4n-3 together with 16:2n-6 and 16:3n-3. While 16:2n-6 was mainly found in phospholipids, 16:4n-3 was mainly distributed in neutral lipids and glycolipids.Porphyra umbilicalis represents the richest source of 20:5n-3 whileUndaria pinnatifida can be selected when a balanced mixture of (n-6) and (n-3) PUFA is required.Author for correspondence     

Isolation and comparative analysis of glycolipid fractions in bifidobacteria

A comparative TLC analysis of lipid extracts from Bifidobacterium longum B 379 M, B. bifidum 791, and B. adolescentis 94 BIM has been performed. It is demonstrated that carbohydrate-containing lipid components were present in the bacteria, which differed in their chromatographic mobility (Rf) from similar compounds isolated from actinomycetes Stomatococcus mucilaginosus PCM 2415T, Nocardiopsis dassonvillei PCM 2492, Propionibacterium propionicum PCM 2431, Saccharopolyspora hirsuta PCM 2279 (= ATCC 27875T), Rhodococcus equi PCMT 559 (= ATCC 3969), and Gordonia bronchialis PCM 2167. Polar lipids of bifidobacteria exhibited the closest similarity to their counterparts from propionic acid bacteria. Preparative chromatography (silica gel column I; elution with chloroform, acetone, and methanol) of the lipid extract of B. adolescentis 94 BIM made it possible to isolate fractions containing nonpolar lipids, glycolipids, and phospholipids. Further purification of the glycolipid fraction (column II; eluant, methanol gradient in chloroform) produced preparations of glycolipids and phospholipids. The preparations were studied by two-dimensional TLC using solvent systems chloroform-methanol-H2O MiLi Q (65 : 25 : 4, v/v/v) and n-butanol-acetic acid-H2O MiLi Q (60 : 20 : 20, v/v/v) for directions I and II, respectively. Two major glycolipids were revealed (G1 and G2), in addition to compounds characteristic of the polar lipid group and minor glycolipids (g), the latter being present in considerably lesser amounts.     

Quantitative determination of the lipid peroxidation product 4-hydroxynonenal by high-performance liquid chromatography

4-Hydroxynonenal is a product formed in tissue and tissue fractions from polyunsaturated membrane lipids through a free radical-induced lipid peroxidation process. The biological properties of this aldehyde have been studied in many respects. This article describes for the first time a sensitive and reproducible method for quantitative analysis of 4-hydroxynonenal in biological samples as well as in lipid-containing foodstuffs. The method involves extraction of the aldehyde by dichloromethane from cells or microsomes trapped on an Extrelut column. Oils and foodstuffs are extracted with excess water. After additional sample cleanup by solid-phase extraction on a disposable octadecyl silica gel (ODS) extraction column, the sample is analyzed by high-performance liquid chromatography using an ODS column and methanol/water 65/35 (v/v) or acetonitrile/water 40/60 (v/v) as eluant; the detection wavelength is 220 nm. The method developed has a high precision with coefficients of variation of 1.4% (microsomes) to 3.5% (olive oil). The recovery depends on the sample type and lies between 45% (control microsomes) and 96% (solution of hydroxynonenal in water). The method has been used for the determination of 4-hydroxynonenal in microsomes, platelets, and various foodstuffs.     

Variable recoveries of fatty acids following the separation of lipids on commercial silica gel TLC plates Selective loss of unsaturated fatty acids on certain brands of plates

Since we recently noticed poor recoveries of unsaturated fatty acids (UFA) when the parent lipids were first separated on TLC plates, we investigated the source of this error by examining several variables, including the brand of TLC plate, nature of the lipid, and conditions of methylation. Of the five commercial brands of plates used, two (Baker and Whatman) showed loss of UFA, and three (Alltech Hardlayer, Alltech Softlayer, and Merck) did not. This loss occurred in both neutral and phospholipids, did not affect saturated acids, and was independent of the methylation reagent used. No loss occurred, however, if the lipids were eluted from the silica gel before methylation, indicating that the loss is due to oxidation of UFA in presence of certain brands of silica gel. These results show that some brands of TLC plates may be unsuitable for lipid analysis, if the aim is to determine the fatty acid composition by GC using direct methylation.     

New colorimetric method for the quantitative estimation of phospholipids without acid digestion

A unique colorimetric method for the quantitative determination of phospholipids that does not involve the acid digestion of the lipid is described. The phospholipids, after separation by thin-layer chromatography and elution from the silica gel, are heated with a chromogenic solution that is a modification of a spray reagent formulated by Vaskovsky and Kostetsky (1968, J. Lipid Res., 9: 396). The absorbance of the colored complex was read at 710 nm, and it followed Beer's law in the range of 1-10 micro g of phospholipid phosphorus.     

The use of a fluorescent dye, Nile red, to evaluate the lipid content of single mammalian oocytes

This study aimed to investigate the use of Nile red, a fluorescent dye specific for intracellular lipid droplets, to quantify the lipid content of single mammalian oocytes. It was hypothesized that a higher amount of lipid present in lipid droplets in an oocyte would result in a higher amount of emitted fluorescent light. Following fixation and subsequent staining of denuded oocytes, the fluorescence of the whole oocyte was visualized by fluorescence microscopy and quantified with a photometer and photomultiplier connected to the microscope. The peak of fluorescence was observed in the yellow spectrum (590 nm) and the fluorescence was restricted to the lipid droplets corresponding to apolar lipids. Nile red concentrations ranging from 0.1 to 10 microg/ml yielded similar results. After fixation, a minimum of 2 h staining was necessary to reach maximal fluorescence which remained stable for several hours. The position of the microscopic focus within the oocyte had no influence on the amount of measured fluorescence. Successive measurements of the same oocyte yielded very similar results indicating the repeatability of the method. Finally, the technique was validated by comparing the lipid content of bovine, porcine and murine immature oocytes, which are known to contain different amounts of lipids. After staining, the fluorescence of murine oocytes was 2.8-fold lower than the fluorescence of bovine oocytes which in turn were 2.4 times less fluorescent than porcine oocytes. Based on this study, it can be said that this rather fast and easy technique allows for the relative quantification of the lipid content (present in the lipid droplets) of one single oocyte. The different amounts of emitted fluorescent light in bovine, porcine and murine oocytes correlated with the known lipid contents in these three species. This technique could be used to compare the lipid content of oocytes originating from different donors, from different sized follicles or cultured in various conditions.     

Flow cytometric analysis of steroidogenic organelles in differentiating granulosa cells.

Functional and structural changes accompany the differentiation of granulosa cells during follicular development. We used flow cytometry and fluorescent dyes to characterize two organelles important to the steroidogenic process. Mitochondria, which contain the rate-limiting enzyme responsible for cholesterol conversion to pregnenolone, and lipid droplets, which store cholesterol substrate, were probed in viable hen granulosa cells during differentiation. The fluorescent dye Dio3-C5 (DiO) was used to probe mitochondrial membrane potential, indicative of mitochondrial activity and/or number, during rapid granulosa cell differentiation in a hierarchy of individual developing hen preovulatory follicles (F6, smallest, to F1, largest). Cellular DiO fluorescence, granularity, and cell size were significantly elevated with increasing maturation state. Treatment with LH significantly increased DiO fluorescence in granulosa cells from F1 but not F3. The increased mitochondrial activity/number in granulosa cells that accompanies follicular maturation and is influenced by LH may reflect, at least in part, increased activity or amount of hormone-regulated mitochondrial enzymes controlling steroidogenesis. Flow spectrofluorometry and the metachromatic lipid dye, nile red, were used to probe lipid droplets in differentiating granulosa cells from F6 to F1. There was a dramatic increase in the fluorescence component related to lipid droplets with increasing stages of follicular maturation, suggesting recruitment of lipids into droplets during the differentiation of granulosa cells into hormone-responsive steroidogenic cells. The results demonstrate the dynamic nature of the granulosa cell morphology involved in steroidogenesis during follicular development.(ABSTRACT TRUNCATED AT 250 WORDS)     

Separation and quantification of chicken and bovine growth plate cartilage matrix vesicle lipids by high-performance liquid chromatography using evaporative light scattering detection

Matrix vesicles (MV) are lipid bilayer-enclosed nanoscale structures that initiate extracellular mineral formation in most vertebrate species. Little attention has been given to differences between species in membrane lipid composition or to how new mineral is formed in MV. To explore more precisely the lipids of MV isolated from avian and bovine species, we developed a new high-performance liquid chromatography (HPLC) method used in combination with evaporative light scattering detection (ELSD) to quantify their lipid composition. HPLC analyses were performed on a Lichrosorb silica column using separate binary gradient elution systems for analyzing polar and nonpolar lipids. Standard mixtures of both phospholipids and nonpolar lipids were used to prepare calibration curves for each lipid, which were analyzed mathematically by polynomial regression for accurate quantitation. This new methodology provides high-resolution separations and quantitation of both the polar and the nonpolar lipids typically present in biological membranes, including lyso- (monoacyl-) phospholipids. We have applied this method to quantitate the phospholipid and nonpolar lipid composition of MV isolated from chicken and bovine growth plate cartilage. We also compared the ability of these MV to induce mineral formation. While the ability to induce mineralization and the lipid composition were generally similar, some significant differences between MV from these two disparate species were seen.     

Use of fluorescence to monitor the incorporation of horseradish peroxidase into a sol-gel derived medium

The solvatochromic dye nile red has been employed to monitor the incorporation of an enzyme (horseradish peroxidase) into a sol-gel derived medium. The fluorescence spectrum of the dye, when incorporated into the enzyme, was analysed as the sum of Gaussian component spectra and relative changes between these component spectra were monitored upon encapsulation of the dye-enzyme system within the host matrix. Activity of the confined enzyme was verified and the effect of temperature was also investigated, through the examination of nile red fluorescence in the sol-gel derived matrix, where a stabilising effect was noted.     

Simple detection of point mutations in DNA oligonucleotides using SYBR Green I

A novel and simple method for detection of mutations in DNA oligonucleotides using a double-stranded DNA specific dye (SYBR Green I) is reported. The SYBR Green I is bound specifically with a duplex DNA oligonucleotide (intercalation). This intercalation induces fluorescent emission at 525 nm with excitation at 494 nm. The fluorescence intensity of mismatched oligonucleotides (40-mer) decreases (by more than 13%) in comparison with the perfectly matched oligonucleotides. Moreover, fluorescence measurement of the SYBR Green I can distinguish various types of single-base mismatches, except for the T-G terminal mismatch. The addition of 20% (v/v) formamide, however, to an oligonucleotide solution improved the sensitivity of detection and also enabled the detection of the T-G terminal-mismatch. This detection method requires only a normal fluorescence spectrophotometer, an inexpensive dye and just 50 pmol of sample DNA.     

Isolation and characterization of a novel biosurfactant produced by hydrocarbon‐degrading bacterium Alcanivorax dieselolei B‐5

Aims: Our goal was to identify a novel biosurfactant produced by a marine oil‐degrading bacterium. Methods and Results: Biosurfactants were produced by Alcanivorax dieselolei strain B‐5^T growing with diesel oil as the sole carbon and energy source. Culture supernatant was first extracted with chloroform/methanol (1 : 1, v/v), then further purified step by step with a normal phase silica gel column, a Sephadex LH20 gel column and a preparative thin layer plate. The main component was determined to be a lipopeptide; it was chemically characterized with nuclear magnetic resonance, liquid chromatography‐quadrupole ion‐trap mass spectrometry, amino acid analysis and GC–MS and was found to be a mixture of proline lipids. The monomers of the proline lipids were composed of a proline residue and a fatty acid (C_14:0, C_16:0 or C_18:0). The critical micelle concentration of the mixed proline lipids was determined to be 40 mg l^?1. Moreover, activity variations in ranges of pH, temperature and salinity were also detected and showed reasonable stability. Conclusions: Alcanivorax dieselolei B‐5 produced a novel linear lipoamino biosurfactant, characterized as a proline lipid. Significance and Impact of the Study: A proline lipid was characterized for the first time as a bacterial biosurfactant. This product has potential in both environmental and industrial applications.