Peptidomic analysis of skin secretions from the bullfrog Lithobates catesbeianus (Ranidae) identifies multiple peptides with potent insulin-releasing activity

Using a combination of reversed-phase HPLC and electrospray mass spectrometry, peptidomic analysis of norepinephrine-stimulated skin secretions of the American bullfrog Lithobates catesbeianus Shaw, 1802 led to the identification and characterization of five newly described peptides (ranatuerin-1CBb, ranatuerin-2CBc, and -CBd, palustrin-2CBa, and temporin-CBf) together with seven peptides previously isolated on the basis of their antimicrobial activity (ranatuerin-1CBa, ranatuerin-2CBa, brevinin-1CBa, and -1CBb, temporin-CBa, -CBb, and -CBd). The abilities of the most abundant of the purified peptides to stimulate the release of insulin from the rat BRIN-BD11 clonal β cell line were evaluated. Ranatuerin-2CBd (GFLDIIKNLGKTFAGHMLDKIRCTIGTCPPSP) was the most potent peptide producing a significant stimulation of insulin release (119% of basal rate, P < 0.01) from BRIN-BD11 cells at a concentration of 30 nM, with a maximum response (236% of basal rate, P < 0.001) at a concentration of 3 μM. Ranatuerin-2CBd did not stimulate release of the cytosolic enzyme, lactate dehydrogenase at concentrations up to 3 μM, indicating that the integrity of the plasma membrane had been preserved. Brevinin-1CBb (FLPFIARLAAKVFPSIICSVTKKC) produced the maximum stimulation of insulin release (285% of basal rate, P < 0.001 at 3 μM) but the peptide was cytotoxic at this concentration.     

Simultaneous assay of isotopic enrichment and concentration of guanidinoacetate and creatine by gas chromatography-mass spectrometry

A gas chromatography-mass spectrometry (GC-MS) method for the simultaneous measurement of isotopic enrichment and concentration of guanidinoacetate (GAA) and creatine in plasma sample for kinetic studies is reported. The method, based on preparation of the bis(trifluoromethyl)pyrimidine methyl ester derivatives of GAA and creatine, is robust and sensitive. The lowest measurable m₁ and m₃ enrichment for GAA and creatine, respectively, was 0.3%. The calibration curves for measurements of concentration were linear over ranges of 0.5 to 250 μM GAA and 2 to 500 μM for creatine. The method was reliable for inter- and intraassay precision, accuracy, and linearity. The technique was applied in a healthy adult to determine the in vivo fractional synthesis rate of creatine using primed-constant rate infusion of [1-¹³C]glycine. It was found that isotopic enrichment of GAA reached a plateau by 30 min of infusion of [1-¹³C]glycine, indicating either a small pool size or a rapid turnover rate (or both) of GAA. In contrast, the tracer appearance in creatine was slow (slope = 0.00097), suggesting a large pool size and a slow rate of synthesis of creatine. This method can be used to estimate the rate of synthesis of creatine in vivo in human and animal studies.     

An enzymatic cycling method for the determination of serum total bile acids with recombinant 3α-hydroxysteroid dehydrogenase

A highly sensitive enzymatic cycling method was developed for the serum total bile acids assay. We constructed a prokaryotic expression system to prepare the recombinant 3α-hydroxysteroid dehydrogenase in place of the natural enzyme and for the first time used it in the total bile acids assay. The production rate of thio-NADH correlated with the bile acids concentration and was measured by the change of absorbance at 405/660 nm. The enzymatic cycling method could detect 0.22 μmol/L total bile acids in serum. Within-run and between-run imprecisions were 1.2-3.7% and 2.3-4.8%, respectively. The calibration curve for total bile acids in serum was linear between 0.5 and 180 μmol/L. This method was free from interference by bilirubin, hemoglobin, ascorbate, and lactate dehydrogenase. In conclusion, serum total bile acids could be measured by the enzymatic cycling method with recombinant 3α-hydroxysteroid dehydrogenase as the tool enzyme.     

Inhibition of d(-)-3-hydroxybutyrate dehydrogenase by malonate analoges

(1) d(-)-3-Hydroxybutyrate dehydrogenase activity from guinea pig, rat, and bovine heart and from guinea pig liver is inhibited by malonate and tartronate, and more potently by the analogs methylmalonate, bromomalonate, chloromalonate, and mesoxalate. Little or no inhibitory effect was found for aminomalonate, ethylmalonate, dimethylmalonate, succinate, glutarate, oxaloacetate, malate, propionate, pyruvate, d- and l-lactate, n-butyrate, isobutyrate, and cyclopropanecarboxylate. (2) In initial velocity kinetics at pH 8.1 with a soluble enzyme preparation from bovine heart, the inhibition by the active malonate derivatives is competitive with respect to 3-hydroxybutyrate and uncompetitive with respect to acetoacetate, NAD⁺ or NADH. With d-3-hydroxybutyrate as the variable reactant (K_{m app} = 0.26 mM) the inhibition constant of methylmalonate (K_is) was 0.09 mm. (3) The rate of utilization of d-3-hydroxybutyrate (78 μm) by coupled rat heart mitochondria in the presence of ADP was inhibited 50% by 150 μm methylmalonate. (4) With coupled guinea pig liver mitochondria oxidizing n-octanoate in the absence of added ADP, methylmalonate (1–3 mm) depressed 3-hydroxybutyrate formation substantially more than total ketone production. However, the intramitochondrial NADH (or NADPH) levels were unchanged by the addition of methylmalonate, indicating that the changes in ratios of accumulated 3-hydroxybutyrate and acetoacetate were caused by direct inhibition of 3-hydroxybutyrate dehydrogenase. Methylmalonate had the same effect on 3-hydroxybutyrate/acetoacetate ratios and ketone body formation with pyruvate or acetate as the source of acetyl groups. Similar results were obtained with malonate (10 mm) although the inhibition of total ketone formation from octanoate was more severe.     

Aluminium induces changes in organic acids metabolism in Coffea arabica suspension cells with differential Al-tolerance

The primary Al-tolerance mechanism in plants involves exudation and/or accumulation of specific organic acid species, which form non-phytotoxic complexes with Al³⁺ under physiological conditions. An evaluation was done of the role of organic acids in the tolerance mechanism of a cell suspension line of coffee Coffea arabica that exhibits Al-tolerance (LAMt) but for which the metabolic tolerance mechanism remains unknown. Significant differences existed in malate dehydrogenase and citrate synthase activities (key enzymes in organic acids metabolism) between protein extracts (day 7 of culture cycle) of the L2 (Al-sensitive) and LAMt (Al-tolerant) cells when cell suspensions were treated with 100 μM AlCl₃. HPLC analysis showed that the suspension cells of both lines exudate malate when incubated in a minimal solution but that exudation was not enhanced by treatment with AlCl₃ (100 μM). This is the first study demonstrating that plant Al-tolerance may be associated with down-regulation of malate dehydrogenase and citrate synthase activities.     

The utilization of bathocuproinedisulfonic acid as a reagent for determining D-glucose and D-galactose levels in glycoconjugates

A sensitive, rapid, and reliable method for measuring d-glucose and d-galactose levels in glycoconjugates has been developed. In this method, the NAD(P)H produced from the enzymatic oxidation of the monosaccharides is reacted with a CuSO₄-bathocuproinedisulfonic acid reagent (Cu-BCS) to produce a color complex absorbing maximally at 486 nm. With galactose dehydrogenase and glucose dehydrogenase serving as the model enzymes, graphs of absorbance versus varying d-glucose or d-galactose concentrations yielded a linear plot from 2.5 to 250 nmol of sugar. Using this procedure, sugar released by acid hydrolysis from lactose, porcine submaxillary mucin and raffinose was quantified. When p-nitrophenyl-α-d-glucopyranoside and p-nitrophenyl-β-d-galactopyranoside were acid hydrolyzed and assayed with the Cu-BCS reagent, the amount of sugar released from each of the p-nitrophenyl compounds was found to be equal to the levels of p-nitrophenol in solution. This method is easy to use and with minor modifications can be employed for the quantification of d-glucose and d-galactose in other glycoconjugates.     

Rapid Blood Ketone Body Estimation in the Diagnosis of Diabetic Ketoacidosis

Different methods of assessing ketone body concentrations in blood and plasma of ketoacidotic patients have been compared. We confirmed that Ketostix reacts strongly with acetoacetate, giving a useful range of 0 to 10 mM for plasma acetoacetate, that acetone reacts weakly, and that 3-hydroxybutyrate does not react at all. Plasma Ketostix readings correlated only moderately well with enzymatically determined whole-blood acetoacetate. All samples giving a + + + reaction contained more than 1·6 mM acetoacetate while only 4 out of 21 samples showing 0 contained more than 0·4 mM. Comparison of Ketostix readings with total blood ketone body content showed poor correlation. One reason for this was the large variation in the ratio of 3-hydroxybutyrate to acetoacetate in ketoacidosis; another was that often Ketostix had been stored in such a way that they had become damp, which impairs their reliability. If the Ketostix reading and estimation of the blood pH show a discrepancy we suggest that an enzymatic assay should be used to determine the ketone bodies and lactate.     

Determination of TJ0711 hydrochloride in rat plasma by high performance liquid chromatography with fluorescence detection and its application to pharmacokinetics

In the present study, a simple and sensitive high performance liquid chromatography with fluorescence detection (HPLC-FD) method was developed to determine TJ0711 hydrochloride, a novel α- and β-receptor blocker. TJ0711 hydrochloride and verapamil hydrochloride (the internal standard) were separated on Knauer Eurospher C₁₈ (250 mm × 4.0 mm i.d., 5 μm) column at 50 °C. The mobile phase was methanol:perchloric acid (12 nM, aq) (56:44, v:v), with a flow rate of 1.0 mL/min. The wavelengths of FD were set at 246 nm for excitation and 300 nm for emission. For plasma samples of rats, the analytes were extracted with acetic ether from alkalinized plasma, and then back-extracted into 10 mM dilute sulfuric acid. The linearity was over a concentration range of 20–10,000 ng/mL. The intra- and inter-day precisions referred by relative standard deviation were less than 2.0% and 4.3%, respectively. The mean analytical recoveries of TJ0711 hydrochloride at different concentrations (50, 1000 and 8000 ng/mL) ranged from 88.3% to 92.9%. The lower limit of quantification (LLOQ) was 20 ng/mL. Finally, this method was successfully applied to the estimation of pharmacokinetic parameters of TJ0711 hydrochloride after intravenous doses of 4, 8 and 16 mg/kg in rats.     

Determination of asymmetric Nα-acetyldimethylarginine in humans: A phase II metabolite of asymmetric dimethylarginine

Asymmetric dimethylarginine (ADMA) is produced by protein methylation, a common mechanism of posttranslational protein modification. Elevated levels of ADMA lead to impaired endothelial nitric oxide production and subsequently to a range of cardiovascular and other diseases related to decreased nitric oxide production. Knowledge of the elimination pathways of ADMA and the possibility of influencing them is therefore of major clinical interest. One of these pathways is the N-acetylation and subsequent renal elimination of ADMA in the form of asymmetric N_α-acetyldimethylarginine (Ac-ADMA). In this work, we describe the first method to quantitatively determine Ac-ADMA in human plasma and urine. Ac-ADMA was separated by HPLC on a porous graphitic carbon column and selectively analyzed by tandem mass spectrometry. Ac-ADMA and the internal standard D₇-Ac-ADMA were synthesized in-house. Precision and accuracy of the method were better than 5% in plasma and urine quality control samples. First results obtained with this method in samples of healthy volunteers showed plasma levels of 0.643 ± 0.454 nmol/L and urine levels of 152.7 ± 76.7 nmol/L or 13.0 ± 8.9 nmol/mmol creatinine. The method is a suitable tool for investigating this currently mostly neglected ADMA elimination pathway.     

Accelerated dereplication of crude extracts using HPLC-PDA-MS-SPE-NMR: Quinolinone alkaloids of Haplophyllum acutifolium

Direct hyphenation of analytical-scale high-performance liquid chromatography, photo-diode array detection, mass spectrometry, solid-phase extraction and nuclear magnetic resonance spectroscopy (HPLC-PDA-MS-SPE-NMR) has been used for accelerated dereplication of crude extract of Haplophyllum acutifolium (syn. Haplophyllum perforatum). This technique allowed fast on-line identification of six quinolinone alkaloids, named haplacutine A-F, as well as of acutine, haplamine, eudesmine, and 2-nonylquinolin-4(1H)-one. Acutine and haplacutine E, isolated by preparative-scale HPLC, showed moderate antiplasmodial activity with IC₅₀ values of 2.17 ± 0.22 μM and 3.79 ± 0.24 μM, respectively (chloroquine-sensitive Plasmodium falciparum 3D7 strain).     

Development of a high-performance liquid chromatography method for the simultaneous quantitation of glutathione and related thiols

The development of drugs with the ability to increase the level of the antioxidant glutathione and related metabolites has become an important research area for many age-related diseases. Here we describe a high-performance liquid chromatography (HPLC) method that uses the thiol-specific, fluorogenic reagent 4-fluoro-7-aminosulfonylbenzofurazan (ABD-F) for the simultaneous determination of total glutathione (GSH), cysteine (Cys), cysteinylglycine (CysGly), and homocysteine (Hcys) in cell culture medium. ABD-F-labeled thiols were separated using an isocratic mobile phase consisting of 14% methanol and 86% 0.1M acetate buffer at pH4.0. The method was validated for linearity, accuracy, and intra- and interday precision, and the lower and upper limits of quantitation (LLOQ and ULOQ, respectively) were determined using a Dionex RF-2000 detector set to medium sensitivity. In addition, the suitability of N-acetylcysteine (NAC) as an internal standard was evaluated by external and internal standard calibration methods. Although both calibration methods showed acceptable linearity (correlation coefficients>0.99) and intra- and interday precision (relative standard deviations=10.2 and 6.6%, respectively), the external standard calibration method performed better in terms of accuracy (recovery=93.7-125%) and also had lower LLOQ values for all analytes (Cys=6.3μM, CysGly=0.8μM, Hcys=0.8μM, and GSH=1.6μM).     

A novel radiochemical method for the microdetermination of total and individual ketone bodies in biological materials

A novel radiochemical method has been developed for ultramicrodetermination of acetone based on the principle that ¹²⁵I-labeled iodoform is produced by iodination of acetone with ¹²⁵ICl. [¹²⁵I]Iodoform is readily counted as a measure of acetone after separation from unreacted iodide ions. Quantitative conversion of 3-hydroxybutyrate to acetoacetate takes place when NAD-dependent oxidation of 3-hydroxybutyrate by 3-hydroxybutyrate dehydrogenase is coupled with NADH-dependent reduction of pyruvate (or 2-oxoglutarate) by lactic dehydrogenase (or glutamic dehydrogenase). Acetoacetate thus formed produces acetone spontaneously when the acidified (deproteinized) reaction mixture is maintained at 50°C for 2 hr. Thus, total and individual ketone bodies in plasma are determined conveniently by combining the radiochemical determination of acetone with these conversion procedures.     

Bacterial resistance modifying tetrasaccharide agents from Ipomoea murucoides

As part of an ongoing project to identify oligosaccharides which modulate bacterial multidrug resistance, the CHCl₃-soluble extract from flowers of a Mexican arborescent morning glory, Ipomoea murucoides, through preparative-scale recycling HPLC, yielded five lipophilic tetrasaccharide inhibitors of Staphylococcusaureus multidrug efflux pumps, murucoidins XII-XVI (1-5). The macrocyclic lactone-type structures for these linear hetero-tetraglycoside derivatives of jalapinolic acid were established by spectroscopic methods. These compounds were tested for in vitro antibacterial and resistance modifying activity against strains of Staphylococcus aureus possessing multidrug resistance efflux mechanisms. Only murucoidin XIV (3) displayed antimicrobial activity against SA-1199B (MIC 32 μg/ml), a norfloxacin-resistant strain that over-expresses the NorA MDR efflux pump. The four microbiologically inactive (MIC > 512 μg/ml) tetrasaccharides increased norfloxacin susceptibility of this strain by 4-fold (8 μg/ml from 32 μg/ml) at concentrations of 25 μg/ml, while murucoidin XIV (3) exerted the same potentiation effect at a concentration of 5 μg/ml.     

Nitrogen excretion by the sheep abomasal parasite Teladorsagia circumcincta

Excretion of nitrogenous substances by Teladorsagia circumcincta was investigated during incubation of L3 in phosphate buffer for up to 30 h and adult worms for 4-6 h. Ammonia was the main excretory product, with about 20% urea. For the first 4-6 h, ammonia excretion by L3 was temperature dependent, directly proportional to the number of larvae, but independent of the pH or strength of the phosphate buffer. Later, ammonia excretion slowed markedly in L3 and adults and reversed to net uptake in L3 by 30 h. An initial external ammonia concentration of 600 μM did not alter the pattern or magnitude of excretion. Re-uptake of ammonia did not occur at extremes of pH or low buffer strength and was slightly reduced at the highest external concentrations. Ammonium transporters and enzymes of glutamate metabolism, including glutamate dehydrogenase, glutamine synthetase and possibly glutamate synthase, are worthy of further investigation as anthelmintic targets.     

Plasmodium falciparum: enhanced soluble expression, purification and biochemical characterization of lactate dehydrogenase

Plasmodium lactate dehydrogenase (pLDH), owing to unique structural and kinetic properties, is a well known target for antimalarial compounds. To explore a new approach for high level soluble expression of Plasmodium falciparum lactate dehydrogenase (PfLDH) in E. coli, PfLDH encoding sequence was cloned into pQE-30 Xa vector. When transformed E. coli SG13009 cells were induced at 37 °C with 0.5 mM isopropyl β-d-thiogalactoside (IPTG) concentration, the protein was found to be exclusively associated with inclusion bodies. By reducing cell growth temperature to 15 °C and IPTG concentration to 0.25 mM, it was possible to get approximately 82% of expressed protein in soluble form. Recombinant PfLDH (rPfLDH) was purified to homogeneity yielding 18 mg of protein/litre culture. rPfLDH was found to be biologically active with specific activity of 453.8 μmol/min/mg. The enzyme exhibited characteristic reduced substrate inhibition and enhanced k_cat [(3.2 ± 0.02) × 10⁴] with 3-acetylpyridine adenine dinucleotide (APAD⁺). The procedure described in this study may provide a reliable and simple method for production of large quantities of soluble and biologically active PfLDH.     

Acetone production by methylobacteria

An accumulation of acetone was observed during the metabolism of ethane and products of ethane oxidation by washed suspensions of Methylosinus trichosporium OB3B. This strain possessed an acetoacetate decarboxylase and 3-hydroxybutyrate dehydrogenase, and a decline in poly--hydroxybutyric acid occurred under the same conditions as acetone formation. A pathway of acetone production from poly--hydroxybutyric acid via 3-hydroxybutyrate and acetoacetate was suggested.     

Quantitative analysis of 3α,6α,24-trihydroxy-24,24-di(trifluoromethyl)-5β-cholane,a potent synthetic steroidal liver X receptor agonist in plasma using liquid chromatography–tandem mass spectrometry

The steroidal liver X receptor agonist, 3α,6α,24-trihydroxy-24,24-di(trifluoromethyl)-5β-cholane (ATI-829) is a potential therapeutic agent for the treatment of atherosclerosis. A sensitive and selective liquid chromatography–tandem mass spectrometry (LC–MS–MS) method for the quantification of ATI-829 in mouse plasma was developed and validated. Proteins in a 25 μL aliquot of mouse plasma were precipitated, and ATI-829 was extracted from the precipitate by the addition of 125 μL methanol. The overall extraction efficiency was greater than 99%. LC–MS–MS with negative ion electrospray and selected reaction monitoring was used for the quantitative analysis of ATI-829. The lower limit of quantitation of ATI-829 corresponded to 5.0 ng/mL (9.7 nM) plasma. Interference from matrix was negligible. The calibration curve was linear over the range 5–2000 ng/mL. The intra-day precision and inter-day precision of the analyses were <4.5% and <6%, respectively, and the accuracy ranged from 92% to 103%. ATI-829 in plasma was stable for at least 6 h at room temperature, 1 week at 4 °C, and 3 weeks at −20 °C. The validated method was then utilized for pharmacokinetic studies of ATI-829 administered to mice.     

Development and validation of a nylon6 nanofibers mat-based SPE coupled with HPLC method for the determination of docetaxel in rabbit plasma and its application to the relative bioavailability study

A simple and sensitive HPLC method was established and validated for the determination of docetaxel (DTX) in rabbit plasma. Biosamples were spiked with paclitaxel (PCX) as an internal standard (I.S.) and pre-treated by solid-phase extraction (SPE). The SPE procedure followed a simple protein digestion was based on nylon6 electrospun nanofibers mats as sorbents. Under optimized conditions, target analytes in 500 μL of plasma sample can be completely extracted by only 2.5 mg nylon6 nanofibers mat and eluted by 100 μL solvent. The HPLC separation was obtained on C18 column and UV detector was used to quantify the target analytes. The extraction recovery was more than 85%; the standard curve was linear over the validated concentrations range of 10–5000 ng/mL and the limit of detection was 2 ng/mL. The inter-day coefficient of variation (CV%) of the calibration standards was below 5.0% and the mean accuracy was in the range of 92.8–113.4%. Moreover, analysing quality control plasma samples in 3 days, the results showed that the method was precise and accurate, for the intra- and inter-day CV% within 10% and the accuracy from 96.0% to 114.0%. The developed and validated method was successfully applied to relative bioavailability study for the preclinical evaluation of a new injectable DTX–sulfobutyl ether beta-cyclodextrin (DTX–SBE-β-CD) inclusion complex freeze-dried powder (test preparation), compared with the reference preparation (DTX injection, Taxotere^®) in healthy rabbits. On the basis of the mean AUC(0–t) and AUC(0–infinity), the relative bioavailability of the test preparation was found to be 113.1%.     

Measurement of ketone bodies in subcellular fractions using a spectrophotometric iron-chelate assay

A sensitive spectrophotometric assay for 3-hydroxybutyrate determination in biological samples is described. Linearity between the amount of 3-hydroxybutyrate and ΔA₅₄₆ was obtained in the range of 0.3 to 4.0 nmol 3-hydroxybutyrate/assay. The same method is applicable for acetoacetate determination after its enzymatic reduction. The assay proved to be useful for the study of the subcellular distribution of ketone bodies in isolated liver cells. The assay procedure is adequate to measure the concentration of ketone bodies in 5-mg and 20μl samples from liver and blood, respectively.