An improved immunocytochemical method for the detection of human cytomegalovirus antigens in peripheral blood leucocytes

A recently described immunoperoxidase method for the detection of nuclear human cytomegalovirus (HCMV) immediate early antigen (IEA) directly on peripheral blood leucocytes suffers from the drawback that the antigen is vulnerable to endogenous peroxidase inactivation procedures. To solve this problem a procedure is developed in which endogenous peroxidase is inactivated after binding and immobilization of the primary antibody with 4% formaldehyde. In combination with this procedure, three types of inactivation were investigated: glucose/glucose oxidase, hydrochloric acid and methanol/H2O2. Of these three, the first gives optimal results, especially in combination with methanol/acetic acid (20/1 v/v) as the primary fixative. This procedure results in preparations which allow for a more objective evaluation and enable automated examination using bright field microscopy. As a second improvement we developed a simple adherence method in order to diminish the risk of infection for the laboratory staff during processing of unknown blood samples. The protocol described shows great clinical potential for the diagnosis of HCMV infections.     

Cytochrome c peroxidase from a methylotrophic yeast: physiological role and isolation

Mutant strains of the methylotrophic yeast Hansenula polymorpha defective in catalase (cat) and in glucose repression of alcohol oxidase synthesis (gcr1) have been isolated following multiple UV mutagenesis steps. One representative gcr1 cat mutant C-105 grows during batch cultivation in a glucose/methanol medium. However, growth is preceded by a prolonged lag period. C-105 and other gcr1 cat mutants do not grow on methanol medium without an alternative carbon source. A large collection of second-site suppressor catalase-defective (scd) revertants were isolated with restored ability for methylotrophic growth (Mth⁺) in the absence of catalase activity. These Mth⁺ gcr1 cat scd strains utilize methanol as a sole source of carbon and energy, although biomass yields are reduced relative to the wild-type strain. In contrast to the parental C-105 strain, H₂O₂ does not accumulate in the methanol medium of the revertants. We show that restoration of methylotrophic growth in the suppressor strains is strongly correlated with increased levels of the alternative H₂O₂-destroying enzyme, cytochrome c peroxidase. Cytochrome c peroxidase from cell-free extracts of one of the scd revertants has been purified to homogeneity and crystallized. Received: 9 December 1996 / Received revision: 5 May 1997 / Accepted: 25 May 1997     

Glucose oxidase as label in histological immunoassays with enzyme-amplification in a two-step technique: coimmobilized horseradish peroxidase as secondary system enzyme for chromogen oxidation

Summary A sensitive staining procedure for glucose oxidase (GOD) as marker in immunohistology is described. The cytochemical procedure involves a two-step enzyme method in which GOD and horseradish peroxidase (HRP) are coimmobilized onto the same cellular sites by immunological bridging or by the principle of avidin-biotin interaction. In this coupled enzyme technique, H₂O₂ generated during GOD reaction is the substrate for HRP and is utilized for the oxidation of chromogens such as 3,3-diaminobenzidine or 3-amino-9-ethylcarbazole. Due to the immobilization of the capture enzyme HRP in close proximity to the marker enzyme (GOD), more intense and specific staining is produced than can be obtained with soluble HRP as coupling enzyme in the substrate medium. Indirect antibody labelled and antibody bridge techniques including the avidin (streptavidin)-biotin principle have proven the usefulness of this GOD labelling procedure for antigen localization in paraffin sections. Antigens such as IgA in tonsil, alpha-feroprotein in liver and tissue polypeptide antigen in mainmary gland served as models. The immobilized twostep enzyme procedures have the same order of sensitivity and specificity as comparable immunoperoxidase methods. The coupled GOD-HRP principle can be superior to conventional immunoperoxidase labelling for the localization of biomolecules in tissue preparations rich in endogenous peroxidase activities.     

On the loss of gangliosides by dialysis

The Gangliosides represent a family of sialic acidcontaining sphingoglycolipids which have ceramide (N-acyl-sphingosine) as the basic hydrophobic portion (Svennerholm , 1972). A heteropolysaccharide is glycosidically linked through the primary hydroxyl group of ceramide and the aldehyde of glucose. There are usually three or four different carbohydrates and up to a total of seven in the chain. The isolated gangliosides are soluble both in organic and aqueous solvents presumably because of their content of both hydrophobic and hydrophilic groups. The most commonly employed extraction procedure is based upon their solubility in chloroform-methanol (2: 1, v/v) and subsequent partitioning into an aqueous methanol phase (FOLCH, LEES and SLOANE-STANLEY, 1957). This methanolic solution is then dialysed against water to remove small molecular-weight contaminants. This paper reports the loss of gangliosides upon dialysis when they are present at low concentrations. Gangliosides were prepared from fresh calf brain as previously described (Kanfer , 1969) and contained 25-25% GMl, as judged by quantitative thin-layer chromatography (Suzuki , 1964). GM2 was prepared from this material by treatment with neuraminidase as previously described (Kolodny , Brady , Quirk and Kanfer , 1970) and purified by the procedure of Winterbourne (1971). GM2 was isolated from brain tissue of a Tay-Sachs child provided by Dr. B. Volk. Thin-layer chromatography was carried out on Analtech Silica Gel G plates (Analtech Co., Wilmington, Del.) with chloroformmethanol-2.5 N NH₄OH (60 : 30 : 8, by vol.) as developing solvent. Total sialic acid was quantified by the resorcinol procedure according to Suzuki (1964). Duplicate known quantities of gangliosides were dissolved in 2 ml of methanol 41 M KCI(1 : 1, v/v) and dialysed overnight in untreated Visking tubing (0.22-in. dia.; Fisher Scientific Co., Pittsburgh, Pa.; Cat. No. 1000) against a 500-fold vol. of distilled water at 4°C. The contents of the sacs were removed and the total volume was measured; a 10-1 5 per cent increase in volume was usually observed. Portions were analysed in duplicate for total sialic acid content, and the remainder was lyophilized for examination by TLC.     

Rapid quantification of indinavir in human plasma by high-performance liquid chromatography with ultraviolet detection

A rapid, sensitive and specific high-performance liquid chromatography (HPLC) procedure for the quantification of indinavir, a potent human immunodeficiency virus (HIV) protease inhibitor, in human plasma is described. Following C₁₈ solid-phase extraction, indinavir was chromatographed on a reversed-phase C₈ column using a simple binary mobile phase of phosphate buffer–acetonitrile (60:40, v/v). UV detection at 210 nm led to an adequate sensitivity without interference from endogenous matrix components. The limit of quantification was 25 ng/ml with a 0.1 ml plasma sample. The standard curve was linear across the range from 25 to 2500 ng/ml with an average recovery of 91.4%. The mean relative standard deviations for concentrations within the standard curve ranged between 1.4 and 9.7%. Quality control standards gave satisfactory intra- and inter-assay precision (R.S.D. from 3.5 to 15.8%) and accuracy within 15% of the nominal concentration. Sample handling experiments, including HIV heat inactivation, demonstrated analyte stability under expected handling processes. The assay is suitable for the analysis of samples from adult and pediatric patients infected with HIV.     

Comparison of quenching and extraction methodologies for metabolome analysis of Lactobacillus plantarum

Background

A reliable quenching and metabolite extraction method has been developed for Lactobacillus plantarum. The energy charge value was used as a critical indicator for fixation of metabolism.

Results

Four different aqueous quenching solutions, all containing 60% of methanol, were compared for their efficiency. Only the solutions containing either 70 mM HEPES or 0.85% (w/v) ammonium carbonate (pH 5.5) caused less than 10% cell leakage and the energy charge of the quenched cells was high, indicating rapid inactivation of the metabolism. The efficiency of extraction of intracellular metabolites from cell cultures depends on the extraction methods, and is expected to vary between micro-organisms. For L. plantarum, we have compared five different extraction methodologies based on (i) cold methanol, (ii) perchloric acid, (iii) boiling ethanol, (iv) chloroform/methanol (1:1) and (v) chloroform/water (1:1). Quantification of representative intracellular metabolites showed that the best extraction efficiencies were achieved with cold methanol, boiling ethanol and perchloric acid.

Conclusion

The ammonium carbonate solution was selected as the most suitable quenching buffer for metabolomics studies in L. plantarum because (i) leakage is minimal, (ii) the energy charge indicates good fixation of metabolism, and (iii) all components are easily removed during freeze-drying. A modified procedure based on cold methanol extraction combined good extractability with mild extraction conditions and high enzymatic inactivation. These features make the combination of these quenching and extraction protocols very suitable for metabolomics studies with L. plantarum.     

Citric acid accumulation by cycloheximide-sensitive mutant strains of Aspergillus niger

 Mutants having impaired protein synthesis, that is cycloheximide-sensitive mutants of a citric-acid-hyper-accumulating strain, were induced from Aspergillus niger WU-2223L. Selection was on the basis of a presumption that the mutants should be more sensitive to cycloheximide than WU-2223L. In shake culture without methanol as a promotor substance, seven mutants accumulated approximately 1.8–3.5 times as much citric acid as WU-2223L. The best mutant, CHM I-C3, accumulated 69.4 mg citric acid/ml from 120 mg glucose/ml in shake culture without methanol, this amount being 1.1 times the amount accumulated by WU-2223L with methanol. Furthermore, under the conditions without methanol the mutants appeared to be more efficient than WU-2223L in employing the consumed glucose for the accumulation of citric acid. It was also confirmed that CHM I-C3 exhibited a significantly increased level of intracellular NH⁺ ₄ accumulation. The addition of 2% (v/v) methanol or 20 μg cycloheximide/ml to the medium caused a remarkable increase of citric acid accumulation by WU-2223L: about 3.1 and 2.4 times respectively. However, the addition of these substances produced negative effects on citric acid accumulation by the mutants. With 2% (v/v) methanol, WU-2223L showed a remarkably decreased level of protein accumulation but a substantially increased level of intracellular NH⁺ ₄ accumulation. However, these phenomena were also observed in CHM I-C3 without methanol. These results indicate that the intracellular circumstances of the cycloheximide-sensitive mutants without methanol were similar to those of WU-2223L with methanol, and that the impairment of protein synthesis contributed to increased citric acid accumulation by the mutants in the absence of methanol. Received: 21 November 1994 / Received last revision: 10 July 1995 / Accepted: 26 July 1995     

Measurement of bumetanide in plasma and urine by high-performance liquid chromatography and application to bumetanide disposition

A high-performance liquid chromatographic method for the measurement of bumetamide in plasma and urine is described. Following precipitation of proteins with acetonitrile, bumetanide was extracted from plasma or urine on a 1-ml bonded-phase C₁₈ column and eluted with acetonitrile. Piretanide dissolved in methanol was used as the internal standard. A C₁₈ Radial Pak column and fluorescence detection (excitation wavelength 228 nm; emission wavelength 418 nm) were used. The mobile phase consisted of methanol—water—glacial acetic acid (66:34:1, v/v) delivered isocratically at a flow-rate of 1.2 ml/min. The lower limit of detection for this method was 5 ng/ml using 0.2 ml of plasma or urine. Nafcillin, but not other semi-synthetic penicillins, was the only commonly used drug that interfered with this assay. No interference from endogenous compounds was detected. For plasma, the inter-assay coefficients of variation of the method were 7.6 and 4.4% for samples containing 10 and 250 ng/ml bumetanide, respectively. The inter-assay coefficients of variation for urine samples containing 10 and 2000 ng/ml were 8.1 and 5.7%, respectively. The calibration curve was linear over the range 5–2000 ng/ml.     

Changes in the LHCII-mediated energy utilization and dissipation adjust the methanol-induced biomass increase

Considerably low methanol concentrations of 0.5% (v/v), induce an immense increase in biomass production in cultures of the unicellular green alga Scenedesmus obliquus compared to controls without additional methanol. The effect is light-regulated and it mimics high-CO₂ induced changes of the molecular structure and function of the photosynthetic apparatus. There is evidence that methanol enhances under high light conditions by molecular changes in the LHCII - a decrease of the functional antenna-size per active reaction center - the photochemical effectiveness of the absorbed energy. This means that the non-photochemical quenching (NPQ) is minimized and thereby the overall dissipation energy. Experiments with mutants of Scenedesmus Wt produced evidence that the LHCII is the locus of the mechanism which regulates the methanol effect. The employed mutants were Wt-LHC, lacking a functioning LHCII, the light-dependent greening mutant C-2A′, and the double mutant C-2A′-LHC, combining both mutations.     

Glucose oxidase as label in histological immunoassays with enzyme-amplification in a two-step technique: coimmobilized horseradish peroxidase as secondary system enzyme for chromogen oxidation

A sensitive staining procedure for glucose oxidase (GOD) as marker in immunohistology is described. The cytochemical procedure involves a two-step enzyme method in which GOD and horseradish peroxidase (HRP) are coimmobilized onto the same cellular sites by immunological bridging or by the principle of avidin-biotin interaction. In this coupled enzyme technique, H2O2 generated during GOD reaction is the substrate for HRP and is utilized for the oxidation of chromogens such as 3,3'-diaminobenzidine or 3-amino-9-ethylcarbazole. Due to the immobilization of the capture enzyme HRP in close proximity to the marker enzyme (GOD), more intense and specific staining is produced than can be obtained with soluble HRP as coupling enzyme in the substrate medium. Indirect antibody labelled and antibody bridge techniques including the avidin (streptavidin)-biotin principle have proven the usefulness of this GOD labelling procedure for antigen localization in paraffin sections. Antigens such as IgA in tonsil, alpha-fetoprotein in liver and tissue polypeptide antigen in mammary gland served as models. The immobilized two-step enzyme procedures have the same order of sensitivity and specificity as comparable immunoperoxidase methods. The coupled GOD-HRP principle can be superior to conventional immunoperoxidase labelling for the localization of biomolecules in tissue preparations rich in endogenous peroxidase activities.     

A Phanerochaete chrysosporium mutant defective in lignin degradation as well as several other secondary metabolic functions

A pleiotropic mutant of Phanerochaete chrysosporium 104-2 lacking phenol oxidase and unable to form fruit bodies and a revertant strain 424-2 were isolated after UV mutagenesis. Strains 104-2 and 424-2 had no apparent dysfunction in primary metabolism with glucose as a carbon source. Unlike the wild type strain and strain 424-2, strain 104-2 was unable to evolve ¹⁴CO₂ from ¹⁴C ring, side chain and 3-O-¹⁴C-methoxy labeled lignin. In addition, strain 104-2 was unable to evolve ¹⁴CO₂ from a variety of lignin model compounds including ¹⁴C-4-methoxy labeled veratrylglycerol--guaiacyl (V) ether, -¹⁴C-guaiacylglycerol--guaiacyl ether (VI), as well as 1-(¹⁴C-4-methoxy, 3-methoxyphenyl)1,2 propene (III) and 1-(¹⁴C-4-methoxy-3-methoxyphenyl) 1,2 dihydroxypropane (IV). The addition of peroxidase/H₂O₂ to cultures of strain 104-2 did not alter its capacity to degrade the labeled lignins. A variety of unlabeled lignin model compounds previously shown to be degraded by the wild type organism including -aryl ether dimers and diaryl propane dimers were also not degraded by the mutant 104-2. The revertant strain 424-2 regained the capacity to degrade these compounds. The substrates described are degraded by oxygen requiring system(s) expressed during the secondary phase of growth, suggesting this pleiotropic mutant is possibly defective in the onset of postprimary metabolism. The inability of the mutant to produce the secondary metabolite veratryl alcohol and to elaborate enzymes in the veratryl alcohol biosynthetic pathway supports this hypothesis.Abbreviations GLC gas liquid chromatography - TMSi trimethylsilyl - MS mass spectrometry - LDS lignin degrading system     

Repression and inactivation by glucose of the maltose transport system of Candida utilis

Summary The maltose utilization system of Candida utilis was affected by glucose through two different mechanisms: catabolite repression and inactivation. Maltose permease was under the control of both, whereas -glucosidase was only repressed.In glucose-maltose continuous culture, both sugars were consumed simultaneously at glucose steady-state concentrations in the fermentor below 100 mg/l, corresponding to dilution rates lower than 0.4 h^-1. At higher dilution rates, and consequently higher glucose concentrations, repression increased steeply, being complete when glucose concentration reached 170 mg/l.Glucose induced inactivation of maltose permease, in maltose-growing and resting cells, by decreasing V _max, without changing maltose affinity for its transport system. The inactivation process apparently required the entrance of the inactivator into the cell and its subsequent phosphorylation because: 1) The specific inactivation rate showed a dependence on glucose similar to that of glucose transport and 2) only rapidly phosphorylated glucose analogues could mimic the inactivation effect.     

Immunoaffinity layering of enzymes

A general procedure for the high yield immobilization of enzymes with the help of specific anti-enzyme antibodies is described. Polyclonal antibodies were raised against Aspergillus niger glucose oxidase and horseradish peroxidase in rabbits and the gamma globulin (IgG) fraction from the immune sera isolated by ammonium sulphate fractionation followed by ion-exchange chromatography. Immobilization of glucose oxidase and horseradish peroxidase was achieved by initially binding the enzymes to a Sepharose matrix coupled with IgG isolated from anti-(glucose oxidase) and anti-(horseradish peroxidase) sera, respectively. This was followed by alternate incubation with the IgG and the enzyme to assemble layers of enzyme and antibody on the support. The immunoaffinity-layered preparations obtained thus were highly active and, after six binding cycles, the amount of enzyme immobilized could be raised about 25 times over that bound initially. It was also possible to assemble layers of glucose oxidase using unfractionated antiserum in place of the IgG. The bioaffinity-layered preparations of glucose oxidase and horseradish peroxidase exhibited good enzyme activities and improved resistance to heat-induced inactivation. The sensitivity of a flow injection analysis system for measuring glucose and hydrogen peroxide could be remarkably improved using immunoaffinity-layered glucose oxidase and horseradish peroxidase. For the detection of glucose, a Clark-type oxygen electrode, constructed as a small flow-through cell integrated with a cartridge bearing immunoaffinity-layered glucose oxidase was employed. The hydrogen peroxide concentration was analysed spectrophotometrically using a flow-through cell and the layered horseradish peroxidase packed into a cartridge. The immunoaffinity-layered enzymes could be conveniently solubilized at acid pH and fresh enzyme loaded onto the support. Immunoaffinity-layered glucose oxidase was successfully used for the on-line monitoring of the glucose concentration during the cultivation of Streptomyces cerevisiae. Received: 16 November 1998 / Received revision: 22 March 1999 / Accepted: 26 March 1999     

Constitutive appearance of peroxisomes in a regulatory mutant of the methylotrophic yeast Hansenula polymorpha

Summary A selection by glucosamine for mutants of Hansenula polymorpha insensitive to glucose repression of methanol assimilation is described. Constitutive synthesis of enzymes is established in standard batch cultures of glucosegrown cells. Upon prolonged glucose metabolism the phenotype is masked by catabolite inactivation and degradation of enzymes. Addition of the substrate methanol remarkably improves constitutive synthesis by preventing catabolite inactivation and delaying degradation. Regular peroxisomes of reduced number are formed in mutant cells under repressed conditions. No constitutive synthesis is detectable using ethanol as a carbon source. In addition, this alcohol is detrimental to growth of the mutants, indicating that H. polymorpha is constrained to repress synthesis of enzymes involved in the C₁-metabolism when ethanol is present as a substrate.     

Improved coupled column liquid chromatographic method for high-speed direct analysis of urinary trans,trans-muconic acid, as a biomarker of exposure to benzene

A coupled column liquid chromatographic (LC–LC) method for high-speed analysis of the urinary ring-opened benzene metabolite, trans,trans-muconic acid (t,t-MA) is described. Efficient on-line clean-up and concentration of t,t-MA from urine samples was obtained using a 3 μm C₁₈ column (50×4.6 mm I.D.) as the first column (C-1) and a 5 μm C₁₈ semi-permeable surface (SPS) column (150×4.6 mm I.D.) as the second column (C-2). The mobile phases applied consisted, respectively, of methanol–0.05% trifluoroacetic acid (TFA) in water (7:93, v/v) on C-1, and of methanol–0.05% TFA in water (8:92, v/v) on C-2. A rinsing mobile phase of methanol–0.05% TFA in water (25:75, v/v) was used for cleaning C-1 in between analysis. Under these conditions t,t-MA eluted 11 min after injection. Using relatively non-specific UV detection at 264 nm, the selectivity of the assay was enhanced remarkably by the use of LC–LC allowing detection of t,t-MA at urinary levels as low as 50 ng/ml (S/N>9). The study indicated that t,t-MA analysis can be performed by this procedure in less than 20 min requiring only pH adjustment and filtration of the sample as pretreatment. Calibration plots of standard additions of t,t-MA to blank urine over a wide concentration range (50–4000 ng/ml) showed excellent linearity (r>0.999). The method was validated using urine samples collected from rats exposed to low concentrations of benzene vapors (0.1 ppm for 6 h) and by repeating most of the analyses of real samples in the course of measurement sequences. Both the repeatability (n=6, levels 64 and 266 ng/ml) and intra-laboratory reproducibility (n=6, levels 679 and 1486 ng/ml) were below 5%.     

Characterization of catalase-negative mutants of methylotrophic yeastHansenula polymorpha

Three recently isolated catalase-negative mutants ofHansenula polymorpha lost the ability to grow on methanol but grew in media containing glucose, ethanol or glycerol. Their incubation in a medium with methanol resulted in an accumulation of hydrogen peroxide and cell death. During growth of a catalase-negative mutant in chemostat on a mixture of methanol and glucose, neither H₂O₂ accumulation nor cell death were observed up to the molar ratio of 10:1 of the two substrates. Cytochrome-c peroxidase and NADH-peroxidase activities were detected in the cells. In methylotrophic yeasts, catalase seems to be an enzyme characteristic of the metabolism of methanol but not needed for the metabolism of multicarbon substrates. The hydrogen peroxide produced during growth of the mutants on mixed substrates is detoxified by cytochrome-c peroxidase and other peroxidases. Translated by Č. Novotny     

C<Subscript>1</Subscript> compounds as auxiliary substrate for engineered <Emphasis Type="Italic">Pseudomonas putida</Emphasis> S12

The solvent-tolerant bacterium Pseudomonas putida S12 was engineered to efficiently utilize the C₁ compounds methanol and formaldehyde as auxiliary substrate. The hps and phi genes of Bacillus brevis, encoding two key steps of the ribulose monophosphate (RuMP) pathway, were introduced to construct a pathway for the metabolism of the toxic methanol oxidation intermediate formaldehyde. This approach resulted in a remarkably increased biomass yield on the primary substrate glucose when cultured in C-limited chemostats fed with a mixture of glucose and formaldehyde. With increasing relative formaldehyde feed concentrations, the biomass yield increased from 35% (C-mol biomass/C-mol glucose) without formaldehyde to 91% at 60% relative formaldehyde concentration. The RuMP-pathway expressing strain was also capable of growing to higher relative formaldehyde concentrations than the control strain. The presence of an endogenous methanol oxidizing enzyme activity in P. putida S12 allowed the replacement of formaldehyde with the less toxic methanol, resulting in an 84% (C-mol/C-mol) biomass yield. Thus, by introducing two enzymes of the RuMP pathway, co-utilization of the cheap and renewable substrate methanol was achieved, making an important contribution to the efficient use of P. putida S12 as a bioconversion platform host.     

A procedure for the purification of ferritin from human liver by heating a methanol-treated homogenate

A simple, rapid technique for purification of ferritin from human liver tissue is described. Methanol, at a final concentration of 40% (v/v) in liver homogenate, precipitates the majority of proteins but does not affect ferritin. Subsequent heating of this homogenate at 75 degrees C for 10 min results in a purified ferritin preparation as judged by immunoelectrophoresis and polyacrylamide gel electrophoresis. The resultant purified ferritin contained the same amount of iron as the original endogenous ferritin. There were no significant differences (paired t tests) in the amount of protein in the purified ferritin preparation when measured by rocket immunoelectrophoresis and by the Lowry procedure, suggesting that the antigenecity of ferritin was unaffected by the methanol and heat treatment. Both endogenous liver ferritin and radiolabeled human liver ferritin added to liver homogenates were recovered after methanol and heat treatment with similar yields (77 +/- 7% and 70 +/- 2%, respectively) when compared with the standard treatment of heating a homogenate at 75 degrees C. The overall ferritin yield with this rapid procedure was 40%.     

Avidity of IgG antibodies distinguishes primary from non-primary cytomegalovirus infection in pregnant women

Background: Human cytomegalovirus (HCMV) is the most common cause of viral intrauterine infection. Fetal damage is mostly linked to maternal primary infection. It is therefore important to differentiate primary from non-primary infection in pregnant females. IgM tests often used for this purpose are not reliable enough.Objective: To evaluate an HCMV–IgG urea-elution assay for its ability to distinguish primary from non-primary infection. In this assay, soaking the antigen–antibody complex with an urea containing solution frees antibodies with low avidity but has no influence on those with high avidity. An avidity index (AI) was calculated: AI=(OD with urea/OD without urea)×100.Study design: HCMV–IgG avidity was measured on a single serum of 79 patients with past infection (pregnant women, graft recipients and blood donors) and of 63 patients (78 sera) with documented seroconversion (pregnant women and graft recipients). Sixty-one pregnant women positive or equivocal for HCMV–IgM but without a documented seroconversion were included in this study.Results: Most (72/79) of the patients with past infection had an AI>65% and all but one had an AI>50%. In pregnant women, in the case of a primary infection within the past 3 months, AI are usually (51/53)<50% and never>65%. Among the IgM positive pregnant women who lack a seroconversion history, 38 had AI>65% suggestive of an infection that had occured at least 3 months earlier, 11 had an AI in a grey area between 50 and 65% and 12 had an AI<50%, suggestive of a recent primary infection.Conclusions: In pregnant women, measurement of the IgG avidity may help to date a HCMV infection, an AI >65% highly suggests a past infection while an AI <50% corresponds to a recent primary infection.     

Sensitive isocratic liquid chromatographic assay for the determination of 5, 10, 15, 20-tetra(m-hydroxyphenyl)chlorin in plasma and tissue with electrochemical detection

A simple extraction procedure and a sensitive high-performance liquid chromatographic (HPLC) method are described for the determination of the photodynamic therapeutic agent 5, 10, 15, 20-tetra(m-hydroxyphenyl)chlorin (mTHPC) in plasma and tumour tissue. Reversed-phase high-performance liquid chromatography was performed on a C₁₈ column (70×4.6 mm I.D.) with a mobile phase of 0.01 M potassium dihydrogenphosphate buffer, pH 2.5-acetonitrile (55:45, v/v) and a coulometric detection (+0.80 V). The mean recoveries of mTHPC in the concentration ranges (5–2000 and 10–1000 ng/ml) were 90 and 89% for plasma and tumour samples, respectively. The procedure for plasma and tissue preparation involved solvent precipitation using methanol combined with ammonia solution and dimethyl sulphoxide (4, 0.2, 0.1, v/v/v) and (2, 0.1, 0.1, v/v/v) for plasma and tissue, respectively. For mTHPC at concentrations ranging from 5 to 2000 ng/ml, the within-day relative standard deviations, based on triplicate determinations were less than 8% and the between-day relative standard deviations calculated by performing extraction procedure of plasma samples on three different days ranged from 3 to 18%. This highly sensitive method, 5 and 10 ng/ml for plasma and tissue respectively, was applied successfully to the determination of mTHPC in mouse tumours for pharmacokinetic studies.