Ocular Pharmacokinetic Study of l-Carnosine and N-Acetyl-l-carnosine in Rabbit by Microdialysis Coupled with UPLC-MS-MS

In order to provide useful information for rational drug design, the ocular pharmacokinetics of l-carnosine (CAR) and its acetylized prodrug N-acetyl-l-carnosine (NAC) were investigated. The in vivo microdialysis sampling coupled with ultra-performance liquid chromatography-tandem mass spectrometry (UPLC-MS-MS) was developed for continuously simultaneous monitoring of CAR and NAC in rabbit aqueous humor. The measured in vitro recoveries of the probe were 61.3% for CAR and 65.8% for NAC, while in vivo recoveries decreased to 43.1% for CAR and 43.0% for NAC, respectively. The method was sensitive with LLOQ 20.5 ng mL^?1 for CAR and 20.4 ng mL^?1 for NAC. The initial data indicated that the value of C _max and AUC_(0?C??) of NAC were higher than these of CAR (C _max 2305 vs. 1,802 ng mL^?1), (AUC_(0?C??) 1,337 vs. 1,891 ng h mL^?1), which indicated that the NAC exhibited better ocular bioavailability and duration. The method was rapid, specific and sensitive for continuously monitoring of aqueous humor and it was successfully applied to pharmacokinetic studies of CAR and NAC.     

LC–MS–MS Simultaneous Determination of l-Dopa and Its Prodrug l-Dopa n-Pentyl Ester Hydrochloride in Rat Plasma

A sensitive, simple and rapid LC–MS–MS method has been developed and validated for the simultaneous determination of l-dopa and l-dopa n-pentyl ester hydrochloride in rat plasma in the present study. The analytes were separated on a C₁₈ column (5 μm, 2.1 × 150 mm) with a security guard C₁₈ column (5 μm, 4 × 20 mm) and a triple-quadrupole mass spectrometer was applied for detection. The method was linear over the concentration ranges of 25–5,000 ng mL^?1 for l-dopa and 12.5–2,500 ng mL^?1 for l-dopa n-pentyl ester hydrochloride. Finally, the method was successfully applied to support the pharmacokinetic study.     

Amperometric Detection of 3-(3,4-Dihydroxyphenyl)-l-alanine (l-Dopa) in Raw and Cooked Mucuna Bean Seeds Employing Micro-HPLC

Amperometric detection of 3-(3,4-dihydroxyphenyl)-l-alanine (l-dopa) on a glassy carbon electrode at oxidation potential of +0.70 V in Mucuna pruriens after micro-high performance liquid chromatography separation is reported. Optimised eluent consisted of 0.87 mM 1-octane sulphonic acid sodium salt, 18.2 mM citric acid, and 82.8 mM sodium acetate with pH adjusted to 2.18 using 85% orthophosphoric acid. Detection of low concentrations of l-dopa up to 5.12 ng mL^?1 was achieved. The method was employed to determine l-dopa in raw and cooked beans after water extraction through a 0.45 μm membrane with no further sample treatment.     

Enantiomeric LC Separation of Epinephrine on Amylose based sorbent

A simple, rapid, and robust chiral HPLC method has been developed and validated for separation of the enantiomers of epinephrine, l-1-(3,4-dihydroxyphenyl)-2-(methylamino)ethanol, an antihypertensive drug, in the bulk drug. The enantiomers were resolved on an amylose-based stationary phase with n-hexane–2-propanol–methanol–trifluoroacetic acid–diethylamine 90:05:05:0.2:0.2 (v/v) as mobile phase at a flow rate of 1.0 mL min^?1. In the optimized method resolution between the enantiomers was not less than 3.0. The trifluoroacetic acid and diethylamine in the mobile phase were important for enhancing chromatographic efficiency and hence the resolution of the enantiomers. The method was extensively validated and proved to be robust. The calibration plot for the d enantiomer was highly linear over the concentration range 100–2,000 μg mL^?1. The limits of detection and quantification for the d enantiomer were 0.15 and 0.45 μg mL^?1, respectively. Recovery of the d enantiomer from bulk drug samples of epinephrine ranged between 99.5 and 101.5%. Epinephrine sample solution was stable for up to 48 h. The method was suitable for accurate quantitative determination of the d enantiomer in the bulk drug substance     

The yjjN of E. coli codes for an l-galactonate dehydrogenase and can be used for quantification of l-galactonate and l-gulonate

Escherichia coli is able to utilize l-galactonate as a sole carbon source. A metabolic pathway for l-galactonate catabolism is described in E. coli, and it is known to be interconnected with d-galacturonate metabolism. The corresponding gene encoding the first enzyme in the l-galactonate pathway, l-galactonate-5-dehydrogenase, was suggested to be yjjN. However, l-galactonate dehydrogenase activity was never demonstrated with the yjjN gene product. Here, we show that YjjN is indeed an l-galactonate dehydrogenase having activity also for l-gulonate. The K _m and k _cat for l-galactonate were 19.5?±?0.6 mM and 0.51?±?0.03 s^?1, respectively. In addition, YjjN was applied for a quantitative detection of the both of these substances in a coupled assay. The detection limits for l-galactonate and l-gulonate were 1.65 and 10 μM, respectively.     

A Validated Chiral LC Method for the Enantiomeric Separation of Nateglinide and the Quantitative Determination of Its l-Enantiomer

A simple and accurate chiral liquid chromatographic method was developed for the enantiomeric purity determination of d-nateglinide and quantitative determination of l-nateglinide in bulk drug samples. Good resolution (R _s  > 6.0) between d-enantiomer and l-enantiomer of nateglinide were achieved with Chiralpak AD-H (250 × 4.6 mm, 5 μm particle size) column using hexane and ethanol (90:10 v/v) as mobile phase at 25 °C temperature. Flow rate was kept as 1.0 mL min^?1 and elution was monitored at 210 nm. The effects of the mobile phase composition, the flow rate and the temperature on the chromatographic separation were investigated. Developed method is capable to detect (LOD) and quantitate (LOQ) l-nateglinide to the levels of 0.3 and 1.0 μg mL^?1 respectively, for 10 μL injection volume. The percentage RSD of the peak area of six replicate injections of l-nateglinide at LOQ concentration was 5.2. The percentage recoveries of l-nateglinide from d-nateglinide ranged from 97.9 to 99.7. The test solution and mobile phase was found to be stable up to 24 h after preparation. The developed method was validated with respect to LOD, LOQ, precision, linearity, accuracy, robustness and ruggedness.     

A Novel Derivatization Method for Separation of Sarcosine from Isobaric l-Alanine in Human Urine by GC–MS

Sarcosine, an isomer of l-alanine, has been recently proposed as a potential biomarker for prostate cancer risk and aggressiveness, while some studies debated its importance. As both sarcosine and l-alanine are present in human urine, it is a great challenge to separate and accurately quantify these isobaric (i.e., same m/z) compounds by chromatographic separation and mass spectrometric detection. In this study, we developed a novel 1,3-dipolar cycloaddition derivatization method that resolves sarcosine from l-alanine and allows accurate quantification of sarcosine in human urine by gas chromatography–mass spectrometry (GC–MS). This novel derivatization approach was specific to sarcosine only, while the common silylanization method resulted in overlapped derivates of both sarcosine and l-alanine. The derivatization conditions, including reagent amount, reaction temperature and time, were optimized. The method developed here has excellent precision (relative standard deviation <4.7 %, n = 5), good linearity (slope = 0.2408; r ² = 0.9996, 0.1–100 μg mL^?1), and a low limit of detection in human urine (0.15 ng mL^?1). Application of this analytical method to urine samples spiked with standard sarcosine indicates that it is a robust and powerful alternative for resolving and quantifying sarcosine from l-alanine isomer in human urine by GC–MS.     

Chiral resolution of l- and d-alanine and a racemic macrocyclic nickel(II) complex: synthesis and crystal structures

The reactions of a racemic four-coordinate Ni(II) complex [Ni(rac-L)](ClO₄)₂ with l- and d-alanine in acetonitrile/water gave two six-coordinate enantiomers formulated as [Ni(RR-L)(l-Ala)](ClO₄)·2CH₃CN (1) and [Ni(SS-L)(d-Ala)](ClO4) (2) (L = 5,5,7,12,12,14-hexamethyl-1,4,8,11-tetraazacyclo-tetradecane, Ala^? = alanine anion), respectively. Evaporation from the remaining solutions gave two four-coordinate enantiomers characterized as [Ni(SS-L)](ClO₄)₂ (S-3) and [Ni(RR-L)](ClO₄)₂ (R-3), respectively. Single-crystal X-ray diffraction analyses of complexes 1 and 2 revealed that the Ni(II) atom has a distorted octahedral coordination geometry, being coordinated by four nitrogen atoms of L in a folded configuration, plus one carboxylate oxygen atom and one nitrogen atom of l- or d-Ala^? in mutually cis-positions. Complexes 1 and 2 are supramolecular stereoisomers, constructed via hydrogen bonding between [Ni(RR-L)(l-Ala)]⁺ or [Ni(SS-L)(d-Ala)]⁺ monomers to form 1D hydrogen-bonded zigzag chains. The homochiral natures of complexes 1 and 2 have been confirmed by CD spectroscopy.     

An Improved and Validated LC Method for Resolution of Panthenol

An improved LC method was developed and validated for determination of enantiomeric purity of panthenol in bulk drugs. The method is based on derivatization of panthenol with 3,5-dinitrobenzoyl chloride. Baseline separation with resolution >2.7 was achieved within 20 min on Kromasil CHI-DMB (250 × 4.6 mm) column using n-hexane:ethanol (95:5 v/v) as mobile phase at a flow rate of 1.5 mL min^?1. The analytes were detected by their UV absorbance at 265 nm. The effects of ethanol, 2-propanol and temperature on enantioselectivity and resolution of enantiomers were evaluated. The method was extensively validated and proved to be robust. The recoveries were between 98.3 and 101.4% with <1.6% relative standard deviation. The regression equations for the derivatives of d-panthenol and l-panthenol were y ₁ = 18.01x ₁ ? 32.56 (r ₁ ²  = 0.9984) and y ₂ = 17.855x ₂ ? 28.16 (r ₂ ²  = 0.9990), respectively. The LOD and LOQ for the derivative of d-panthenol were 10.6 and 37.4 μg mL^?1 and for the derivative of l-panthenol were 12.1 and 40 μg mL^?1, respectively. The improved method was found to be simple, rapid, and sensitive for the determination of enantiomeric purity of panthenol in bulk drugs.     

Exploiting thermodynamic data to optimize the enantioseparation of underivatized amino acids in ligand exchange capillary electrophoresis

Stereoselective amino acid analysis has increasingly moved into the scope of interest of the scientific community. In this work, we report a study on the chiral separation of underivatized d,l-His by ligand exchange capillary electrophoresis (LECE), utilizing accurate ex ante calculations. This has been obtained by the addition to the background electrolytes (BGE) of NaClO₄ which renders the separations “all in solution processes”, allowing to accurately calculate in advance the concentrations of the species present in solution and to optimize the system performances. To this aim, the formation of ternary complexes of Cu²⁺ ion and l-lysine (l-Lys) or l-ornithine (l-Orn) with l- and d-histidine (His), and histamine (Hm) have been studied by potentiometry and calorimetry at 25 °C and with 0.1 mol dm^?3 (KNO₃) in aqueous solution. The ternary species [Cu(L)(l-His)H]⁺ and [Cu(L)(d-His)H]⁺ (where L?=?l-Lys or l-Orn) show a slight but still detectable stereoselectivity, and the determination of ΔH° and ΔS° values allowed the understanding of the factors which determine this phenomenon. The stereoselectivity showed by the protonated ternary species has been exploited to chirally separate d,l-His in LECE, by using the binary complexes of copper(II) with l-Lys or l-Orn as background electrolytes added with the appropriate amounts of NaClO₄.

Efficient Microbial Conversion of l-Tyrosine to l-DOPA by Brevundimonas sp. SGJ

l-DOPA (3,4-dihydroxyphenyl-l-alanine), the most widely used drug for the treatment of Parkinson??s disease, was produced in buffer using biomass of Brevundimonas sp. SGJ. The effects of enhancers, such as carrageenan, diatomaceous earth, and activated charcoal, on the l-DOPA production were evaluated to obtain the maximum yield. The optimal process conditions found were pH?8, 2?g?l^?1 cell mass, 2?g?l^?1 l-tyrosine, 0.04?g?l^?1 CuSO₄, 0.02?g?l^?1 l-ascorbic acid, 0.5?g?l^?1 carrageenan, and 40?°C temperature. In addition, repeated use of cells resulted in the highest yield of 3.81?g?l^?1 (95.2%) of l-DOPA with utilization of 4?g?l^?1 l-tyrosine, and the highest tyrosinase activity (9,201?U?mg^?1) was observed at 18?h of incubation. Furthermore, the produced l-DOPA was confirmed by high-performance thin-layer chromatography, high-performance liquid chromatography, and gas chromatography?Cmass spectroscopy. Kinetic studies showed significant values of Y _p/s, Q _s, and q _s after optimization of the process. Thus, Brevundimonas sp. SGJ could be an eventual new source for large-scale production of l-DOPA.     

LC-MS Determination and Pharmacokinetic Study of Luteolin-7-O-β-d-glucoside in Rat Plasma after Administration of the Traditional Chinese Medicinal Preparation Kudiezi Injection

A rapid and sensitive LC-MS method has been developed for the determination of luteolin-7-O-β-d-glucoside in rat plasma after solvent extraction. Separation was on an Elite Hypersil ODS2 column (250 mm × 4.6 mm i.d., 5 μm) with a mobile phase of acetonitrile-0.3% acetic acid (26:74, v/v). The samples were analyzed by using positive electrospray ionization MS in selected ion monitoring mode. The selected ions for luteolin-7-O-β-d-glucoside and the internal standard, isoquercitrin, were m/z 448.95 and m/z 464.95. Good linearity was observed over the range of 20–2,000 ng mL^?1 with a lower limit of quantification of 20 ng mL^?1. No interference peaks or matrix effects were observed. The validated method was applied to the pharmacokinetic study of luteolin-7-O-β-d-glucoside in rat plasma after intravenous administration of Kudiezi Injection.     

Enantioselective extraction of fenvaleric acid enantiomers by two-phase (W/O) recognition chiral extraction

To establish an extraction method for fenvaleric acid (FA) enantiomers using l-iso-butyl-l-tartaric esters and hydroxypropyl-β-cyclodextrin (HP-β-CD) as chiral selector, the distribution of FA enantiomers was examined in methanol aqueous solution containing HP-β-CD and 1,2-dichloroethane organic solution containing l-iso-butyl-l-tartaric esters. The influences of the concentration of l-iso-butyl-l-tartaric esters and HP-β-CD, organic diluent, pH, extraction temperature and the concentration of methanol aqueous solution on the partition coefficient (k) and separation factor (α) of FA were investigated. The experiment results showed that the complex formed by l-iso-butyl-l-tartaric esters with S-enantiomer is stabler than that with R-enantiomer. With the increase of the concentration of l-iso-butyl-l-tartaric ester, k and α increased; With the increase of the concentration of HP-β-CD, k increased firstly, and then decreased, but α increased all the while, k was the highest when the concentration of HP-β-CD was 4 mmol L^?1. 1,2-dichloroethane organic diluent was better than the others. With the increase of pH, k and α decreased; with further increasing concentration of methanol aqueous solution, k and α decreased, k and α were the highest when the concentration of methanol aqueous solution was 10%. The extraction temperature had a great influence on k and α, too.     

l-Ribose Production from l-Arabinose by Immobilized Recombinant Escherichia coli Co-expressing the l-Arabinose Isomerase and Mannose-6-Phosphate Isomerase Genes from Geobacillus thermodenitrificans

l-Ribose is an important precursor for antiviral agents, and thus its high-level production is urgently demanded. For this aim, immobilized recombinant Escherichia coli cells expressing the l-arabinose isomerase and variant mannose-6-phosphate isomerase genes from Geobacillus thermodenitrificans were developed. The immobilized cells produced 99 g/l l-ribose from 300 g/l l-arabinose in 3 h at pH 7.5 and 60 °C in the presence of 1 mM Co²⁺, with a conversion yield of 33 % (w/w) and a productivity of 33 g/l/h. The immobilized cells in the packed-bed bioreactor at a dilution rate of 0.2 h^?1 produced an average of 100 g/l l-ribose with a conversion yield of 33 % and a productivity of 5.0 g/l/h for the first 12 days, and the operational half-life in the bioreactor was 28 days. Our study is first verification for l-ribose production by long-term operation and feasible for cost-effective commercialization. The immobilized cells in the present study also showed the highest conversion yield among processes from l-arabinose as the substrate.     

Simultaneous Determination of Safingol and d-erythro-Sphinganine in Human Plasma by LC with Fluorescence Detection

l-threo-Sphinganine (safingol) is a putative synthetic sphingosine kinase inhibitor currently being tested in clinical trials as an anticancer agent. To enable defining the pharmacokinetic properties of safingol in humans, we developed a sensitive analytical method to simultaneously quantitate safingol and its naturally-occurring diastereomer, d-erythro-sphinganine in human plasma. Of the two different fluorogenic derivatization agents (NDA and OPA) and several pH conditions compared for the derivatization, we found that NDA derivatization achieved more than 20 times greater sensitivity compared with OPA derivatization, and pH 9.0 showed the highest sensitivity for both compounds. An analytical method for liquid chromatography (LC) with a fluorescence detector (FLD) was developed and validated with calibration curve ranges of 20–1,000 ng mL^?1 for safingol and d-erythro-sphinganine. Our LC-FLD method using NDA-derivatization enabled simultaneous quantification of safingol and its naturally-occurring diastereomer, d-erythro-sphinganine with satisfactory sensitivity in human plasma.     

Enhanced l-Lactic Acid Production from Biomass-Derived Xylose by a Mutant Bacillus coagulans

Xylose effective utilization is crucial for production of bulk chemicals from low-cost lignocellulosic substrates. In this study, an efficient l-lactate production process from xylose by a mutant Bacillus coagulans NL-CC-17 was demonstrated. The nutritional requirements for l-lactate production by B. coagulans NL-CC-17 were optimized statistically in shake flask fermentations. Corn steep liquor powder and yeast exact were identified as the most significant factors by the two-level Plackett–Burman design. Steepest ascent experiments were applied to approach the optimal region of the two factors, and a central composite design was employed to determine their optimal levels. The optimal medium was used to perform batch fermentation in a 3-l bioreactor. A maximum of 90.29 g l^?1? l-lactic acid was obtained from 100 g l^?1 xylose in 120 h. When using corn stove prehydrolysates as substrates, 23.49 g l^?1? l-lactic acid was obtained in 36 h and the yield was 83.09 %.     

Interactions of some protonated α-amino acid methyl esters with hexaethyl p-tert-butylcalix[6]arene hexaacetate in nitrobenzene saturated with water

The exchange extraction constants corresponding to the general equilibrium C⁺(aq) + 1·Cs⁺(nb) ? 1·C⁺ (nb) + Cs⁺(aq) occurring in the two-phase water–nitrobenzene system (C⁺ = protonated α-amino acid methyl ester, 1 = hexaethyl p-tert-butylcalix[6]arene hexaacetate; aq = aqueous phase, nb = nitrobenzene phase) were evaluated on the basis of extraction experiments and γ-activity measurements. Further, the stability constants of the 1·C⁺ cationic complex species in nitrobenzene saturated with water were calculated; they were found to increase in the following cation order: protonated l-tryptophan methyl ester < protonated l-phenylalanine methyl ester < protonated l-leucine methyl ester < protonated l-methionine methyl ester < protonated l-valine methyl ester.     

d- and l-amino acids in Antarctic lakes: assessment of a very sensitive HPLC-MS method

Amino acids represent a fraction of organic matter in marine and freshwater ecosystems, and a source of carbon, nitrogen and energy. l-Amino acids are the most common enantiomers in nature because these chiral forms are used during the biosynthesis of proteins and peptide. To the contrary, the occurrence of d-amino acids is usually linked to the presence of bacteria. We investigated the distribution of l- and d-amino acids in the lacustrine environment of Terra Nova Bay, Antarctica, in order to define their natural composition in this area and to individuate a possible relationship with primary production. A simultaneous chromatographic separation of 40 l- and d-amino acids was performed using a chiral stationary phase based on teicoplainin aglycone (chirobiotic tag). The chromatographic separation was coupled to two different mass spectrometers—an LTQ-Orbitrap XL (Thermo Fisher Scientific) and an API 4000 (ABSciex)—in order to investigate their quantitative performance. High-performance liquid chromatography coupled with mass spectrometry methods were evaluated through the estimation of their linear ranges, repeatability, accuracy and detection and quantification limits. The high-resolution mass spectrometer LTQ-Orbitrap XL presented detection limits between 0.4 and 7 μg?l ^?1, while the triple quadrupole mass spectrometer API 4000 achieved the best detection limits reported in the literature for the quantification of amino acids (between 4 and 200 ng?l ^?1). The most sensitive method, HPLC-API 4000, was applied to lake water samples. Figure

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The Development and Validation of a Stability-Indicating UHPLC-DAD Method for Determination of Perindopril l-Arginine in Bulk Substance and Pharmaceutical Dosage Form

A stability-indicating ultra-high-performance liquid chromatography (UHPLC) method with a diode array detector was developed and validated for the determination of cis/trans isomers of perindopril l-arginine in bulk substance and pharmaceutical dosage form. The separation was achieved on a Poroshell 120 Hilic (4.6 × 150 mm, 2.7 µm) column using a mobile phase composed of acetonitrile–0.1 % formic acid (20:80 v/v) at a flow rate of 1 mL min^?1. The injection volume was 5.0 µL and the wavelength of detection was controlled at 230 nm. The selectivity of the UHPLC-DAD method was confirmed by determining perindopril l-arginine in the presence of degradation products formed during acid–base hydrolysis and oxidation as well as degradation in the solid state, at an increased relative air humidity and in dry air. The method’s linearity was investigated in the ranges 0.40–1.40 µg mL^?1 for isomer I and 0.40–2.40 µg mL^?1 for isomer II of perindopril l-arginine. The UHPLC-DAD method met the precision and accuracy criteria for the determination of the isomers of perindopril l-arginine. The limits of detection and quantitation were 0.1503 and 0.4555 µg mL^?1 for isomer I and 0.0356 and 0.1078 µg mL^?1 for isomer II, respectively.     

Extracellular l-Asparaginase from a Protease-Deficient Bacillus aryabhattai ITBHU02: Purification, Biochemical Characterization, and Evaluation of Antineoplastic Activity In Vitro

An extracellular l-asparaginase produced by a protease-deficient isolate, Bacillus aryabhattai ITBHU02, was purified to homogeneity using ammonium sulfate fractionation and subsequent column chromatography on diethylaminoethyl-Sepharose fast flow and Seralose CL-6B. The enzyme was purified 68.9-fold with specific activity of 680.47 U mg^?1. The molecular weight of the purified enzyme was approximately 38.8 kDa on SDS-PAGE and 155 kDa on native PAGE gel as well as gel filtration column revealing that the enzyme was a homotetramer. The optimum activity of purified l-asparaginase was achieved at pH 8.5 and temperature 40 °C. Kinetic studies depicted that the K _m, V _max, and k _cat values of the enzyme were 0.257 mM, 1.537 U μg^?1, and 993.93 s^?1, respectively. Circular dichroism spectroscopy has showed that the enzyme belonged to α?+?β class of proteins with approximately 74 % α-helices and 12 % β-sheets. BLASTP analysis of N-terminal sequence K-T-I-I-E-A-V-P-E-L-K-K-I-A of purified l-asparaginase had shown maximum similarity with Bacillus megaterium DSM 319. In vitro cytotoxicity assays with HL60 and MOLT-4 cell lines indicated that the l-asparaginase has significant antineoplastic properties.