Measurement of free and bound malondialdehyde in plasma by high-performance liquid chromatography as the 2,4-dinitrophenylhydrazine derivative

We established a method for the detection of free and total (free and bound) malondialdehyde (MDA) in human plasma samples after derivatisation with 2,4-dinitrophenylhydrazine (DNPH). Free MDA was prepared by perchloric acid deproteinisation whereas an alkaline hydrolysation step for 30 min at 60°C was introduced prior to protein precipitation for the determination of total MDA. Derivatisation was accomplished in 10 min at room temperature subsequently chromatographed by HPLC on a reversed-phase 3 μm C₁₈ column with UV detection (310 nm). The detection limit was 25 pmol/ml for free and 0.3 nmol/ml for total MDA. The recovery of MDA added to different human plasma samples was 93.6% (n=11; RSD 7.1%) for the hydrolysation procedure. In samples from 12 healthy volunteers who underwent a hypoxic treatment (13% O₂ for 6 h) we estimated a baseline value of total MDA of 2.16 nmol/ml (SD 0.29) (ambient air) with a significant increase to 2.92 (nmol/ml, SD 0.57; P=0.01) after the end of this physiological oxidative stress challenge. Plasma values of free MDA in these samples were close to our detection limit. The presented technique can easily performed with an isocratic HPLC apparatus and provides highly specific results for MDA as do sophisticated GC–MS methods.     

Validation of methyl malondialdehyde as internal standard for malondialdehyde detection by capillary electrophoresis

The aim of this study was to validate, by capillary electrophoresis, the use of synthesized methyl malondialdehyde as the internal standard for the direct quantification of free and total (free+bound) malondialdehyde in biological samples. All analyses were performed in 20 cm x 50 microm uncoated capillaries at 20 degrees C, using 25 mmol/L borax (pH 9.3) and 5 mmol/L tetradecyltrimethylammonium bromide as running buffer. The applied voltage was -4kV (about 8 microA), the detector being set at 260 nm for a total run time of 8 min per sample. Free malondialdehyde was evaluated after acetonitrile extraction, while the samples evaluated for total malondialdehyde were, before extraction, hydrolyzed for 1h at 60 degrees C in the presence of 1 mol/L NaOH. The detection threshold was 0.2 micromol/L in microsomes and 0.4 micromol/L in plasma. As an application of the method, three pools of rat liver microsomes were quantified before (0.35+/-0.1 and 1.1+/-0.5 nmol/mg protein, free and total malondialdehyde, respectively, mean+/-SD) and after lipoperoxidation induction using systems able to generate oxygen free radicals (18.4+/-3.2 and 19.7+/-2.0 nmol/mg protein). The results were confirmed by isotopic dilution gas chromatography-mass spectrometry, used as the reference method. The feasibility of capillary electrophoresis for malondialdehyde determination in normal and pathological human plasma was also investigated.     

Diaminonaphtalene, a new highly specific reagent for HPLC-UV measurement of total and free malondialdehyde in human plasma or serum.

We describe a new method to measure free and total malondialdehyde (MDA) in human plasma or serum, which is based on the derivatization of MDA with diaminonaphtalene (DAN) in an acidic medium at 37 degrees C. Derivatization is complete after 180 min at room temperature. By HPLC separation on a C18 column and diode array detection, the diazepinium thus formed exhibits a highly specific UV spectrum with a sharp maximum at 311 nm, which clearly distinguishes MDA from other short-chain aldehydes. Direct injection of deproteinized plasma avoids the use of an internal standard. The between-run imprecision is 9.1% (141 +/- 13 nM) for plasma and 6.6% (658 +/- 44 nM) for a commercial control. Typical within-day imprecision is 8% (93 +/- 7.5 nM) for total MDA, 3.2% (16 +/- 0.5 nM) for free MDA in plasma, and 1.6% (630 +/- 10 nM) for a commercial control. The recovery of MDA added to 10 different plasmas is 93-108% (mean = 100%). Plasma levels in healthy women (n = 79, 45-51 years) are 162 +/- 51 and 24 +/- 15 nM for total and free MDA, respectively. In younger men (n = 19, 21-37 years) total and free MDA are, respectively, 138 +/- 28 and 19 +/- 9 nM.     

Measurement of free and bound fractions of extracellular ATP in biological solutions using bioluminescence.

Measurement of extracellular ATP in biological solutions is complicated by protein-binding and rapid enzymatic degradation. We hypothesized that the concentration of extracellular ATP could be determined luminometrically by limiting degradation and measuring the free and protein-bound fractions. ATP was added (a) at constant concentration to solutions containing varying albumin concentrations; (b) at varying concentrations to a physiological albumin solution (4 gm/dL); (c) at varying concentrations to plasma. After centrifugation, a fraction of each supernatant was heated. ATP in heated and unheated samples was measured luminometrically. Blood was drawn into saline or an ATP-stabilizing solution and endogenous plasma ATP measured. ATP-albumin binding was a linear function of albumin concentration (3.5% ATP bound at 100 micromol/L to 33.2% ATP bound at 1000 micromol/L) but independent of ATP concentration (29.3%, 10-1000 nmol/L ATP in 602 micromol/L albumin). Heating released the majority of bound ATP from albumin-containing solutions (94.8 +/- 1.7%) and plasma (97.6 +/- 5.1%). Total endogenous plasma ATP comprised 93 +/- 27 nmol/L (free) and 150 +/- 40 nmol/L (total fraction). Without stabilizing solution, degradation of free endogenous plasma ATP occurred. Within a physiological range (10-1000 nmol/L), ATP binds albumin independently of ATP concentration. Heating releases bound ATP, enabling accurate luminometric measurement of total extracellular ATP (free and bound) in biological samples.     

Simple method for the quantitative analysis of endogenous folate catabolites p-aminobenzoylglutamate (pABG) and its acetamido (apABG) derivative in human serum and urine by liquid chromatography-tandem mass spectrometry

OBJECTIVE: To develop a routine method for quantitative measurement of the folate catabolites p-aminobenzoylglutamate (pABG) and acetamidobenzoylglutamate (apABG) in serum and urine using liquid chromatography-tandem mass spectrometry (LC-MS/MS). DESIGN AND METHODS: Urine, serum and aqueous standards were thawed. Two microliters of d3-glutamic acid (d3-Glu; 1 mmol/L) was added to 200 uL of specimen as internal standard. The samples were acidified with 4 uL 6N HCL, and aliquots were precipitated with 2 volumes (412 uL) of acetonitrile. For urine specimens 30 volumes (6.18 mL) of acetonitrile was used. Samples were centrifuged at 1900 x g for 10 min and the supernatant (10 microL) injected into a Biorad CAT/MET analytical column fitted to the LC-MS/MS. Detection of the catabolites was by selective multiple ion monitoring (multiple SRM) of the respective transitions. Urine and serum samples were analysed in a group of healthy volunteers and in anonymous samples from patients being tested for PTH and urinary catecholamines. RESULTS: pABG and apABG eluted at 5.2 and 4.74 min, respectively while the d3-glutamic acid eluted at around 7 min. Limit of quantitation (LOQ) for both catabolites was 10 nmol/L (which is equivalent to 33.3 fmol for a 10 microL injection). Limit of detection (LOD) was 1 nmol/L based on a signal to noise ratio of 5:1. A linear calibration curve was obtained from 10 to 100 nmol/L for serum specimens and from 10 to 200 micromol/L for urines. Imprecision for spiked serum samples (n=10) was between 2.5 and 20% for apABG and 4.5 and 21% for pABG (at 10 and 100 nmol/L, respectively). Imprecision for spiked urine samples (n=10) was between 2.9 and 4.0% for apABG and 6.0-12.7% for pABG. Recoveries were between 80 and 122% for serum samples and between 92 and 102% for urine specimens. Total folate catabolites in random urine samples from volunteers (n=5) are 2.9+/-2.3 umol/L (mean+/-S.D.). This group also had total serum catabolites of 11.9+/-7.6 nmol/L and serum folate of 35.3+/-5.8 nmol/L. Serum from patients being tested for PTH (n=11) had serum folate levels of 27.0+/-10.4 nmol/L with total serum catabolites of 20.4+/-23.8 nmol/L. Levels of serum folate and total catabolites in pregnant women (n=18) were 33.9+/-22.7 and 11.4+/-8.7 nmol/L, respectively. Mean urinary folate catabolites in patients being tested for urinary catecholamines (n=19) was 581.8+/-368.4 nmol/L. CONCLUSION: A simple, reliable and highly specific method by LC-MS/MS for detecting and quantifying the folate catabolites pABG and apABG was developed. This enables, for the first time, the routine clinical analysis of folate utilization in patients.     

Determination of free and total (free plus protein-bound) melatonin in plasma and cerebrospinal fluid by high-performance liquid chromatography with fluorescence detection

A simple, sensitive and accurate method for the estimation of free and total (free plus protein-bound) melatonin (MLT) in human plasma and cerebrospinal fluid (CSF) is described. Via Chem-Elut cartridges, free and total MLT (the latter obtained after a deproteinization step) were quantified in dichloromethane-extracted samples and analyzed in one chromatographic run by high-performance liquid chromatography (HPLC) with fluorimetric detection. The column used was an Extrasil ODS-2 (3 microm, 150 x 4.6 mm I.D.), while the mobile phase consisted of 75 mM sodium acetate-acetonitrile (72:28, v/v) (pH 5.0). Repeatability and reproducibility of the method were 3.24 and 9.4%, respectively. The recovery of melatonin from plasma and CSF was 99.9+/-4.0% for non-deproteinized samples and 93.2+/-4.8% for deproteinized samples. The detection limit of the assay was 0.5 pg/ml. In human plasma, the mean+/-SD concentrations in the darkness period were 23.18+/-7.44 pg/ml for free melatonin and 82.5+/-36.48 pg/ml for total melatonin, while the lowest concentrations detected during daytime were 2.23+/-2.22 and 7.40+/-5.68 pg/ml, respectively. Detection of MLT in CSF was 5.01+/-2.31 and 28.55+/-6.95 pg/ml for the free and total fraction, respectively.     

Heat inhibition of in vitro lipolysis and 14C ibuprofen protein binding in plasma from heparinized uraemic subjects

Protein binding determination in post heparin plasma samples is complicated by the continued post heparin lipase activity, in vitro, during the binding analysis. The decomposition of lipoproteins and accumulation of nonesterified fatty acids (NEFA) results in artifically elevated free fractions of many drugs. This artefact is particularly accentuated in haemodialysis patients who are frequently hypertriglyceridaemic and receive large doses of heparin. Rapid heat treatment (60 degrees for 15 min) of plasma from heparinized uraemic subjects is shown to inhibit the in vitro lipolysis occurring during 2 hours of equilibrium dialysis at 37 degrees (ED). Mean NEFA concentrations in heat treated plasma after ED (means = 400 +/- 141 mumol/L) were not different (p greater than 0.05, n = 9) from the baseline values in fresh plasma (means 351 +/- 117 mumol/L) but were considerably less (p less than 0.005) than NEFA levels in untreated plasma after ED (means = 1025 +/- 523 mumol/L). The degree of in vitro lipolysis inhibition (92 +/- 6.6%) was very much greater than using the chemical inhibitors phenyl methyl sulphonyl fluoride, EDTA, Triton X100 or protamine sulphate. Heat treatment at 60 degrees for 15 min increased the percentage of free 14C ibuprofen in 3.5% isolated human serum albumin from 0.34% to 0.62%. Reduced binding as a result of heat treatment was not observed however in whole plasma. The percentage free ibuprofen in heat treated, whole plasma from both heparinized and non heparinized subjects (means = 1.22 +/- 0.19; n = 29) was not different (p greater than 0.05) from the percentage free determined in plasma from a non heparinized group (means = 1.16 +/- 0.23; n = 15). In contrast the % free ibuprofen in untreated plasma from heparinized subjects was markedly higher (means = 1.56 +/- 0.41; n = 24; p less than 0.05). There was a strong correlation between % free ibuprofen and plasma NEFA concentration (r = 0.8; p less than 0.005; n = 68). The heat treatment of plasma for 15 min at 60 degrees is proposed as an effective means of controlling heparin induced lipolysis in vitro and may be valuable in overcoming the post heparin binding artefact.     

Estimation of lipoperoxidative damage and antioxidant status in diabetic children: relationship with individual antioxidants

Increased oxidative stress has emerged as a potential mechanism implicated in the pathogenesis, progression and cell dysfunction associated with many diseases including diabetes. In routine clinical practice, the estimation of the degree of oxidative damage and antioxidant status, even in paediatric patients, by appropriate techniques appears to be of interest. The aim of this study was to reliably identify patients with increased oxidant stress and/or reduced antioxidant defence mechanisms with a small blood sample and verify the applicability to the study of diabetic children (DC) at clinical onset of the disease. In 1-ml blood samples from 30 DC and 34 controls, techniques for accurately measuring malondialdehyde (MDA) concentrations in plasma and erythrocytes (using HPLC analysis with fluorometric detection), total radical antioxidant potential (TRAP) and blood plasma oxidizability were adapted and validated. Plasma alpha-tocopherol (HPLC), uric acid and sulfhydryl (SH) groups were also determined. At clinical onset of diabetes a significant reduction in plasma TRAP values (P<0.01) was observed in DC compared with controls. Similarly, a significant fall in individual antioxidant levels (alpha-tocopherol/total lipids, uric acid and protein SH) was noted in plasma of DC. Highly significant increases were found in both plasma and erythrocyte MDA levels in DC (p-MDA:1.7+/-0.2 microM; er-MDA: 7.2+/-0.7 nmol/g Hb) compared with controls (p-MDA:0.86+/-0.09 microM; P<0.0003; er-MDA:3.8+/-0.2 nmol/g Hb, P<0.0001). Plasma MDA and triglyceride levels correlated directly only in DC (P<0.001). Whole plasma oxidizability was significantly higher in DC than in controls (P<0.0001) and this parameter correlated significantly with plasma cholesterol and triglyceride concentrations (P<0.0001). The micromethods adapted and applied to the simultaneous detection of lipid peroxidation products and antioxidant status permit accurate and reliable assessment of the oxidative stress process in small plasma samples. Our results clearly show systemic peroxidative damage associated with insufficient defence mechanisms against ROS to be already present at clinical onset of type 1 diabetes mellitus in children and adolescents.     

Plasma protein carbonyl concentration is not enhanced by chronic intake of high-protein diets in adult rats

We tested the hypothesis of whether high dietary protein intake is linked to oxidative stress as measured by the concentration of reactive carbonyl residues in plasma proteins. Three groups of male Wistar rats ( approximately 230 g, n = 10) were fed either 15% (15C), 30% (30C), or 60% (60C) casein diets over a period of 18 weeks. For comparison, a vitamin E deficient diet (60C-E) based on diet 60C was given to an additional group to provoke oxidative stress. Concentrations of alpha-tocopherol in plasma and of reactive carbonyl residues in total plasma proteins were measured by high performance liquid chromatography using fluorescence and by diode array detection after 2,4-dinitrophenylhydrazine reaction, respectively. After 1 week the concentration of reactive carbonyl residues in plasma proteins was found to be significantly (P < 0.05) higher in the 60C and 60C-E groups ( approximately 2.7 nmol/mg protein) compared with the 15C and 30C groups ( approximately 1.7 nmol/mg protein). After 14 weeks the 15C (3.4 +/- 1.2 nmol/mg protein) and 60C-E groups (3.9 +/- 1.7 nmol/mg protein) showed a significantly increased concentration of reactive carbonyl residues in plasma protein compared with the 30C and 60C groups (2.5 +/- 1.0 nmol/mg protein; 2.6 +/- 0.8 nmol/mg protein). As expected, chronic vitamin E deficiency (60C-E) resulted in significantly decreased alpha-tocopherol concentrations (3.91 +/- 2.42 micromol/mL vs. 31.3 +/- 4.8 micromol/mL) and a higher concentration of reactive carbonyl residues in plasma proteins. These results do not support the hypothesis that a chronic intake of high-protein diets leads to oxidative stress in adult rats. However, in the non-adapted state (1 week) a high protein intake contributes to oxidative modifications of protein-bound amino acid residues.     

Altered lipoprotein subclass distribution and PAF-AH activity in subjects with generalized aggressive periodontitis

In this study, we examined whether the documented increase of plasma triglycerides in patients with generalized aggressive periodontitis (GAgP) is associated with changes in lipoprotein subclass distribution and/or LDL-associated platelet-activating factor acetylhydrolase (PAF-AH) activity. Lipoprotein subclasses were analyzed in whole plasma samples using nuclear magnetic resonance methods. Compared with subjects without periodontitis (NP subjects; n = 12), GAgP subjects (n = 12) had higher plasma levels of large, medium, and small VLDL (35.0 +/- 6.7 vs. 63.1 +/- 9.6 nmol/l; P = 0.025), higher levels of intermediate density lipoprotein (24.8 +/- 11.6 vs. 87.2 +/- 16.6 nmol/l; P = 0.006), lower levels of large LDL (448.3 +/- 48.5 vs. 315.8 +/- 59.4 nmol/l; P = 0.098), and higher levels of small LDL (488.2 +/- 104.2 vs. 946.7 +/- 151.6 nmol/l; P = 0.021). The average size of LDL from NP and GAgP subjects was 21.4 +/- 0.2 and 20.6 +/- 0.3 nm, respectively (P = 0.031). Compared with NP subjects, GAgP subjects had a greater number of circulating LDL particles (961.3 +/- 105.3 vs. 1,349.0 +/- 133.2 nmol/l; P = 0.032). Differences in the plasma levels of large, medium, and small HDL were not statistically significant. NP and GAgP subjects had similar plasma levels of total LDL-associated PAF-AH activity; however, LDL of GAgP subjects contained less PAF-AH activity per microgram of LDL protein (1,458.0 +/- 171.0 and 865.2 +/- 134 pmol/min/microg; P = 0.014). These results indicate that, in general, GAgP subjects have a more atherogenic lipoprotein profile and lower LDL-associated PAF-AH activity than NP subjects. These differences may help explain the increased risk of GAgP subjects for cardiovascular disease.     

Effect of polyethylene glycol on lipid peroxidation in cold-stored rat hepatocytes

A mechanism suggested to cause injury to preserved organs is the generation of oxygen free radicals either during the cold-storage period or after transplantation (reperfusion). Oxygen free radicals can cause peroxidation of lipids and alter the structural and functional properties of the cell membranes. Methods to suppress generation of oxygen free radicals of suppression of lipid peroxidation may lead to improved methods of organ preservation. In this study we determined how cold storage of rat hepatocytes affected lipid peroxidation by measuring thiobarbituric acid reactive products (malondialdehyde, MDA). Hepatocytes were stored in the UW solution +/- glutathione (GSH) or +/- polyethylene glycol (PEG) for up to 96 h and rewarmed (resuspended in a physiologically balanced saline solution and incubated at 37 degrees C under an atmosphere of oxygen) after each day of storage. Hepatocytes rewarmed after storage in the UW solution not containing PEG or GSH showed a nearly linear increase in MDA production with time of storage and contained 1.618 +/- 0.731 nmol MDA/mg protein after 96 h. When the storage solution contained PEG and GSH there was no significant increase in MDA production after up to 72 h of storage and at 96 h MDA was 0.827 +/- 0.564 nmol/mg protein. When freshly isolated hepatocytes were incubated (37 degrees C) in the presence of iron (160 microM) MDA formation was maximally stimulated (3.314 +/- 0.941 nmol/mg protein). When hepatocytes were stored in the presence of PEG there was a decrease in the capability of iron to maximally stimulate lipid peroxidation. The decrease in iron-stimulated MDA production was dependent upon the time of storage in PEG (1.773 nmol/mg protein at 24 h and 0.752 nmol/mg protein at 48 h).(ABSTRACT TRUNCATED AT 250 WORDS)     

Dietary carbohydrate and cholesterol influence the number of particles and distributions of lipoprotein subfractions in guinea pigs

Guinea pigs (n=10/group) were fed one of three diets: a high carbohydrate (CHO) (42% energy), low cholesterol (0.04%) diet (LChHC), a diet with the same amount of CHO but with 0.25% cholesterol (HChHC) or a diet with 11% of energy from CHO and 0.25% cholesterol (HChLC) for 12 weeks. VLDL- and LDL cholesterol (LDL-C) were higher in the HChLC and HChHC groups than in the LChHC group (P<.0001). Lipoprotein subclasses and size were analyzed by nuclear magnetic resonance. Dietary cholesterol (HChHC and HChLC groups) resulted in larger VLDL particles (71.1+/-6.9, 78.9+/-3.33 nm, respectively) than those in the LChHC group (44.3+/-10.8 nm). In addition, there were higher concentrations of the large VLDL (>60 nm) and the medium VLDL (>35 nm) in the high cholesterol groups (P<.01). Similarly, the concentration of the medium (>8.2 nm) and small HDL (>7.2 nm) was higher in the HChHC and HChLC groups (P<.001). In contrast, CHO restriction affected the concentrations of LDL subfractions. The number of total LDL particles was lower in the HChLC (291.3+/-85.0 nmol/L) than in the HChHC group (467.6+/-113.1 nmol/L), indicating that the cholesterol in LDL was distributed in less particles in the former group. The concentrations of medium LDL (>19.8 nm) (98.4+/-90.8) and small LDL (>18 nm) (29.3+/-24.9 nmol/L) were lower in the HChLC group than in the HChHC group (261.8+/-105.8 and 64.9+/-27.9 nmol/L, respectively). These results indicate that dietary cholesterol increased the atherogenicity of both VLDL and HDL while CHO restriction increased the number of large LDL and decreased the concentrations of the more atherogenic smaller LDL subfractions.     

Simultaneous liquid chromatographic assessment of thiamine,thiamine monophosphate and thiamine diphosphate in human erythrocytes: a study on alcoholics

An isocratic HPLC procedure for the assessment of thiamine (T), thiamine monophosphate (TMP) and thiamine diphosphate (TDP) in human erythrocytes is described. Several aspects of the procedure make it suitable for both clinical and research purposes: limits of detection and quantification of 1 and 2.5 nmol/l, respectively, recovery of 102% on average (range 93-112%), intra- and inter-day precisions within 5 and 9%, respectively, total elution time 15 min. This analytical methodology was applied to a case-control study on erythrocyte samples from 103 healthy subjects and 36 alcohol-dependent patients at risk of thiamine deficiency. Mean control values obtained were: T=89.6+/-22.7 nmol/l, TMP=4.4+/-6.6 nmol/l and TDP=222.23+/-56.3 nmol/l. T and TDP mean values of alcoholics were significantly lower than those of control cases: T=69.4+/-35.9 nmol/l (P<0.001) and TDP=127.4+/-62.5 nmol/l (P<10(-5)). The diagnostic role of TDP was evaluated and a significant role for thiamine was established in the study of alcohol related problems.     

Measurement of the anti-cancer agent gemcitabine in human plasma by high-performance liquid chromatography

A reversed-phase HPLC assay has been developed to determine the concentration of the anti-metabolite 2',2'-difluorodeoxycytidine (gemcitabine, dFdC) in human plasma over the concentration range of 0.5-150 microM (0.13-39.44 microg/ml), and 2',2'-difluorodeoxyuridine (dFdU), the deaminated, inactive metabolite, over the range of 1.0-227 microM (0.26-60 microg/ml). After the addition of 20 nmol 2'-fluorodeoxycytidine (FdC) as an internal standard, 0.5-ml samples of plasma were subjected to acetonitrile precipitation, followed by analysis using a gradient reversed-phase HPLC assay with UV detection. A Phenomenex Columbus C(18) column, 5 microm, 150 x 4.6 mm, and a Waters C(18), 4 microm, Nova-Pak Sentry guard column were used to achieve separation. FdC, dFdC and dFdU were monitored at 282, 269 and 258 nm, respectively, on a Waters 996 photodiode array detector. The mobile phase, run at a total flow-rate of 1.5 ml/min, was composed of two solvents: 50 mM ammonium acetate pH 5.0 in either 2% (solvent A) or 10% methanol (solvent B, v/v); 100% solvent A was run for 17 min, followed by a linear gradient to 100% solvent B over 14 min. FdC, dFdC and dFdU were resolved from endogenous compounds and had retention times of 13.6+/-0.5, 18.1+/-1.1 and 29.0+/-0.6 min, respectively. The assay was useful in measuring the plasma levels of both analytes in samples obtained from adult cancer patients participating in a Phase I trial of gemcitabine given as either a 1- or 2-h infusion weekly for 3 of 4 weeks.     

Fluorimetric assay of D-lactate.

A fluorimetric assay for D-lactate in human blood samples was developed using an endpoint enzymatic assay with D-lactate dehydrogenase from Staphylococcus epidermidis. The intrabatch and interbatch coefficients of variance were 8.7% (n = 4) and 16.6% (n = 4), respectively. The limit of detection in blood was 3.73 nmol/ml. The assay suffers minor interference from S-D-lactoylglutathione, which was also present in the blood samples. The concentration of D-lactate in blood was (mean +/- SE, nmol/ml) normal healthy individuals, 11.0 +/- 1.2 (n = 7); and diabetic patients, 20.0 +/- 1.3 (n = 55) (a significant increase in diabetes mellitus; P < 0.01, Mann-Whitney U test).     

Isolation and characterization of human Lp-B lipoprotein containing apolipoprotein B as the sole apolipoprotein

A sequential immunoaffinity chromatography procedure was developed to isolate from whole normolipidemic human plasma a subpopulation of apoB containing particles (Lp-B) which is virtually free of non apoB protein. The absence of non apoB protein in Lp-B was assessed by enzyme immunoassay against apolipoproteins A-I, A-II, A-IV, E, C-III and (a). Electron microscopy and fractionation of the isolated particles by gel filtration demonstrated that these particles were heterogeneous in size. However, most of them had diameters between 18 and 26 nm. These particles were found to be rich in cholesterol (molar ratio cholesterol/apoB = 2246 +/- 995) poor in triacylglycerol (molar ratio triacylglycerol/apoB = 555 +/- 518) and had a phospholipids/apoB molar ratio of 713 +/- 348. Most of the cholesterol was esterified (66% +/- 5%). Lp-B particles bound to the apoB, E receptor of HeLa cells with a lower affinity than LDL prepared by ultracentrifugation (1.030 kg/l less than d less than 1.053 kg/l). (KD = 18.9 vs 10.5 nmol/l).     

Studies in humans using deuterium-labeled alpha- and gamma-tocopherols demonstrate faster plasma gamma-tocopherol disappearance and greater gamma-metabolite production

We hypothesized that human plasma alpha- and gamma-tocopherol concentrations reflect differences in their kinetics, especially influenced by gamma-tocopherol metabolism. Vitamin E kinetics were evaluated in humans (n=14) using approximately 50 mg each of an equimolar ratio of d6-alpha- and d2-gamma-tocopheryl acetates administered orally. Mass spectrometry was used to measure deuterated plasma tocopherols, as well as plasma and urinary vitamin E metabolites, alpha- and gamma-carboxyethylhydroxychromans (CEHCs). Plasma d2-gamma-tocopherol fractional disappearance rates (FDR; 1.39+/-0.44 pools/day, mean+/-SD) were more than three times greater than those of d6-alpha-tocopherol (0.33+/-0.11, p<0.001). The d2-gamma-tocopherol half-life was 13+/-4 h compared with 57+/-19 for d6-alpha-tocopherol. Whereas neither plasma nor urinary d6-alpha-CEHC was detectable (limit of detection 1 nmol/L), gamma-CEHC (labeled plus unlabeled) increased from 129+/-20 to 258+/-40 nmol/L by 12 h and returned to baseline by 48 h; at 12 h d2-gamma-CEHC represented 54+/-4% of plasma gamma-CEHC. Women compared with men had a greater d2-gamma-tocopherol FDR (p<0.004) and a greater maximal plasma d2-gamma-CEHC concentration (p<0.02) and CEHC FDR (p<0.007), as well as excreting four times as much d2-gamma-CEHC (p<0.04) in urine. Thus, gamma-tocopherol is rapidly metabolized to gamma-CEHC, and to a greater degree in women than in men, whereas alpha-tocopherol is maintained in the plasma and little is metabolized to alpha-CEHC.     

Rapid isolation of neuroblastoma plasma membranes on Percoll gradients. Characterization and lipid composition

A purified plasma membrane fraction was isolated from cultured neuroblastoma (N1E-115) cells on a discontinuous gradient of 5, 25 and 35% Percoll within 1 h of cell disruption by nitrogen cavitation. Yield of plasma membrane, banding in the 25% Percoll (d = 1.051), was high as judged by the recoveries of the marker enzymes, 5'-nucleotidase (58.0 +/- 5.4%, n = 5), alkaline phosphatase (46.0 +/- 3.0%, n = 4) and Mg2+-stimulated neutral sphingomyelinase (48.0 +/- 4.2%, n = 3); enrichment of specific activities of these enzymes relative to total cell homogenate (lysate) were 10.9 +/- 1.0-, 9.1 +/- 1.0- and 9.6 +/- 0.4-fold, respectively. Levels of marker enzymes for other organelles were less than 3% of total activity, except for microsomes (less than 9%). The plasma membrane fraction was further characterized by 2-, 5- and 6-fold higher content (nmol/mg protein) of total phospholipids, free cholesterol and sphingomyelin, respectively, compared to lysate. Ratios of free cholesterol to phospholipids and of sphingomyelin to phosphatidylcholine in the plasma membrane fraction were about 2-fold greater than that of lysate. The cholesterol ester content of plasma membrane (36 +/- 8 nmol/mg protein) was 2-3-fold higher than that of lysate. Sphingomyelin of the plasma membrane fraction had a higher concentration of long-chain fatty acids (more than 18 carbon atoms) relative to lysate or microsomes. Significant differences also were observed in the fatty acyl composition of diphosphatidylglycerol, cholesterol esters and triacylglycerol of plasma membrane. Thus, we have devised a rapid and reliable method for isolation of highly purified plasma membranes of cultured neuroblastoma cells that is suitable for comparison of metabolic relationships between the plasma membrane and other cellular organelles.     

High-performance liquid chromatographic method for determination of 2-difluoromethyl-DL-ornithine in plasma and cerebrospinal fluid

A simple, sensitive, selective and reproducible method based on anion-exchange liquid chromatography with post-column derivatisation was developed for the determination of eflornithine (2-difluoromethyl-DL-ornithine; DFMO) in human plasma and cerebrospinal fluid. The 1-alkylthio-2-alkyl-isoindoles fluorescent derivative of the drug was separated from the internal standard (MDL 77246A) on an anion-exchange column (PRP-X300, 250x2.1 mm, 7-microm particle size: Hamilton, USA), with retention times of 6.9 and 10.7 min, respectively. Fluorescence detection was set at 430/340 nm (emission/excitation wavelength). The elution solvent consisted of a solution of 30 mM potassium dihydrogen phosphate buffer (pH 2.2) and acetonitrile (50:50, v/v), running through the column at a flow-rate of 0.3 ml/min. The chromatographic analysis was operated at 37 degrees C. Sample preparation for either plasma or CSF (100 microl) was done by single-step protein precipitation with 20% trichloroacetic acid after incubation at 4 degrees C for 1 h. Calibration curves for plasma (100, 200, 400, 600, 800 and 1200 nmol/100 microl, and 10, 20, 40, 80, 120 and 160 nmol/100 microl for the high and low concentration range curves, respectively) and CSF (1, 2, 4, 8, 16, 32 nmol/100 microl) were all linear with correlation coefficients better than 0.999. The precision of the method based on within-day repeatability and reproducibility (day-to-day variation) at high concentration range was below 15%, whereas at low concentration range was below 20% (% coefficient of variations: %C.V.) Good accuracy was observed for both the intra-day or inter-day assays, as indicated by the minimal deviation of mean values found with measured samples from that of the theoretical values (below +/-15 and +/-20% at high and low concentration range, respectively. The limit of quantification was accepted as 0.1 nmol using 100-microl samples. The mean recovery for DFMO and the internal standard were greater than 95%. The method was free from interference from commonly used drugs including antimalarials and antihelminthics. The method appears to be robust and has been applied to a pharmacokinetic study of DFMO in patients with African trypanosomiasis following oral doses of Ornidyl (Aventis Pharma, Frankfurt, Germany) at 500 mg/kg body weight (125 mg q.i.d.) for 14 days.     

Determination of plasma melatonin levels by enzyme-linked immunosorbent assay (EIA) in turbot (Scophtalmus maximus L.) and tench (Tinca tinca L.)

An enzymoimmunoassay (EIA) kit for plasma melatonin (MLT) measurements was employed in tench (Tinca tinca) and in turbot (Scophtalmus maximus). Tench and turbot plasma samples were purified with a C18 reversed phase extraction columns because this kit is designed for human serum measurements. The lowest detection limit of the technique was 11.48 pg/well with a sensitivity at 50% binding of 100 pg/well. Intra-assay and inter-assay CV (%) were always less than 5% (n=8), and 9% (n=6) in tench plasma samples, and less than 5% (n=8) and 13% (n=5) in turbot plasma samples, respectively. Correlation coefficients between EIA and RIA measurements in tench and turbot plasma samples were 0.93 and 0.89 (p<0.001) respectively. Diurnal and nocturnal plasma melatonin mean levels were 14.7+/-2.1 pg/ml and 87.4+/-11 pg/ml in tench (n=15), and 3.5+/-0.4 pg/ml and 28.1+/-2.1 pg/ml in turbot (n=15). These species showed a melatonin circadian rhythm as in other animals studied. The results suggest that the commercial kit used in this experiment could be a suitable and alternative method to RIA for plasma MLT determinations in tench and turbot although it is necessary to increase volumes (1ml) and concentrate daytime samples.