Stereoselective metabolism of benalaxyl in liver microsomes from rat and rabbit

Benalaxyl (BX), methyl‐N‐phenylacetyl‐N‐2,6‐xylyl alaninate, is a potent acylanilide fungicide and consist of a pair of enantiomers. The stereoselective metabolism of BX was investigated in rat and rabbit microsomes in vitro. The degradation kinetics and the enantiomer fraction (EF) were determined using normal high‐performance liquid chromatography with diode array detection and a cellulose‐tris‐(3,5‐dimethylphenylcarbamate)‐based chiral stationary phase (CDMPC‐CSP). The t_1/2 of (?)‐R‐BX and (+)‐S‐BX in rat liver microsomes were 22.35 and 10.66 min of rac‐BX and 5.42 and 4.03 of BX enantiomers. However, the t_1/2 of (?)‐R‐BX and (+)‐S‐BX in rabbit liver microsomes were 11.75 and 15.26 min of rac‐BX and 5.66 and 9.63 of BX enantiomers. The consequence was consistent with the stereoselective toxicokinetics of BX in vitro. There was no chiral inversion from the (?)‐R‐BX to (+)‐S‐BX or inversion from (+)‐S‐BX to (?)‐R‐BX in both rabbit and rat microsomes. These results suggested metabolism of BX enantiomers was stereoselective in rat and rabbit liver microsomes. Chirality, 2011. © 2010 Wiley‐Liss, Inc.     

N‐terminal guanidinylation of the cyclic 1,4‐ureido‐deltorphin analogues: the synthesis,receptor binding studies,and resistance to proteolytic digestion

The synthesis of a series of N‐guanidinylated cyclic ureidopeptides, analogues of 1,4‐ureido‐deltorphin/dermorphine tetrapeptide is described. The δ‐ and μ‐opioid receptor affinity of new guanidinylated analogues and their non‐guanidinylated precursors was determined by the displacement radioligand binding experiments. Our results indicate that the guanidinylation of cyclic 1,4‐ureidodeltorphin peptide analogues does not exhibit a uniform influence on the opioid receptor binding properties, similarly as reported earlier for some linear peptides. All analogues were also tested for their in vitro resistance to proteolysis during incubation with large excess of chymotrypsin, pepsin, and papain by means of mass spectroscopy. Guanidinylated ureidopeptides 1G–4G showed mixed μ agonist/δ agonist properties and high enzymatic stability indicating their potential as therapeutic agents for treatment of pain. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.     

Gender‐Related In Vitro Metabolism of Hexaconazole and Its Enantiomers in Rats

In the present study we investigated the enantioselective disappearance of hexaconazole in rat liver microsomes system prepared from both genders. High‐performance liquid chromatography (HPLC) was used for identification and quantification. The degradation of the (+)‐hexaconazole was faster than that of the (?)‐hexaconazole in racemic hexaconazole and single enantiomer incubation in both sexes. The degradation half‐life of the (+)‐hexaconazole or (?)‐hexaconazole was also gender‐related. The metabolism of (+)‐hexaconazole and (?)‐hexaconazole were faster in male rat hepatic microsomes than that in female, suggesting that at least one of the cytochrome P450s (CYP) in the male rat liver microsomes system responsible for hexaconazole metabolism was male‐specific or considerably more active. Kinetic assays showed that the intrinsic clearance in male rat liver microsomes was higher than that in female. All these results strongly suggest that sexual dimorphic metabolism of hexaconazole exists in rats. The inhibition experiments with CYP inhibitors showed that the inhibitory effect of inhibitors was enantioselective and affected by sex. The results suggest that the enantioselective metabolism of hexaconazole was determined by the amount of hepatic cytochrome P450 and the expression of individual isoforms of CYPs. Chirality 25:852–857, 2013. © 2013 Wiley Periodicals, Inc.     

Modulation of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity with cAMP and wth protein fractions of rat liver cytosol

3-Hydroxy-3-methylglutaryl coenzyme A reductase activity is diminished in several $\text{in vitro}$ liver systems preincubated in the presence of cAMP. Reductase activity in isolated, washed liver microsomes is inactivated by ATP, Mg⁺⁺, and a protein fraction separated from the liver cytosol. This effect is augmented by 3′–5′ cyclic AMP. Reductase activity in previously inactivated microsomes can be partially restored by incubation with a second protein fraction of the cytosol.     

Obese subjects respond to the stimulatory effect of the ghrelin agonist growth hormone-releasing peptide-2 on food intake

Objective: The administration of the growth hormone (GH) secretagogue GH‐releasing peptide (GHRP)‐2, like ghrelin, increases food intake (FI) in lean healthy men. The aim of this study was to investigate whether this effect occurs in obese subjects and whether it is dose‐dependent. Research Methods and Procedures: Nineteen subjects (10 lean and nine obese), all healthy and weight stable, received a double‐blind randomized subcutaneous infusion of GHRP‐2 at high dose (HD; 1 μg/kg per hour), low dose (0.1 μg/kg per hour), or placebo for 270 minutes over three study visits. Blood for hormone assays was collected through an intravenous forearm catheter. Hunger and fullness were rated on visual analog scales before and after a fixed breakfast (320 kcal at 120 minutes) and a buffet lunch at 240 minutes. Before lunch, subjects received taped instructions to eat as much as they wanted. Results: GHRP‐2 infusion significantly increased ad libitum FI in a dose‐dependent manner by 10.2 ± 3.9% at low dose (p = 0.011) and by 33.5 ± 5.8% at HD (p = 0.000) compared with placebo. Obesity status did not influence the effect of GHRP‐2 on FI. All subjects had greater ratings of appetite before but similar levels of fullness after the meal with the HD GHRP‐2. Serum GH levels increased dose dependently in all subjects. Discussion: The dual stimulatory effect of GHRP‐2 on FI and human GH is dose dependent. Obese individuals retain their ability to respond to GHRP‐2 both in terms of FI and human GH.     

Variation in microsomal subfractions obtained from normal animal tissues and transformed cells following cell disruption by nitrogen cavitation

Summary Microsomal membranes were obtained from MPC-11 cells, L-cells, Krebs II ascites cells and various normal animal tissues following cell disruption by nitrogen cavitation. Membrane preparations were applied to discontinuous sucrose gradients designed to separate three fractions — heavy rough (HR), light rough (LR) and smooth (S) microsomes. In each of the transformed cell lines all three fractions were found whilst in the normal tissues tested the HR fraction was absent. Of the normal tissues liver and pancreas were rich in both LR and S microsomes, the presence of large amounts of LR indicating a rich protein synthesizing activity on membrane-bound polysomes. Kidney also contained appreciable LR but much less than both liver and pancreas. Both heart and lung contained virtually only S microsomal material — a reflection of low protein synthetic activity on membrane-bound polysomes. Attempts to promote the appearance of the HR fraction in liver, kidney and pancreas by incubation in tissue culture medium, or, in the case of pancreas, by cholecystokinin/pancreozymin/secretin, stimulation bothin vivo andin vitro were unsuccessful.     

Metabolism of benzo(a)pyrene by microsomes from tissues of pregnant and fetal hamsters

Pretreatment of hamsters with benzo (a) pyrene (BaP) greatly increased the $\text{in vitro}$ metabolism of BaP by lung microsomes from pregnant hamsters, and had less effect on the metabolism of BaP by liver microsomes. The production of various metabolites of BaP by lung microsomes was increased to different extents: 3-hydroxy-BaP (3-OH-BaP) was one of the major metabolites; the metabolic yields of 9, 10-dihydrodihydroxy-BaP (9, 10-diol) and 7,8-diol were increased more than that of the 4,5-diol. In the case of liver microsomes, only the yields of 9,10-diol and 7,8-diol were increased over the control levels. The presence of cyclohexene oxide in the incubation mixtures decreased the production of the diols. Basal-level enzyme activities in placental, fetal liver, and fetal skin microsomes in metabolizing BaP were very low. Pretreatment of pregnant hamsters with BaP induced BaP-metabolizing enzymes in fetal tissue 2–3 fold.     

UFLC-MS/MS研究胡椒碱在不同种属肝微粒体中的代谢稳定性和代谢表型

应用体外肝微粒体孵育体系,考察胡椒碱在人、SD大鼠、小鼠、恒河猴和比格犬5个种属肝微粒体中的代谢稳定性,比较代谢的种属差异,确定其在人肝微粒体中的代谢表型。通过UFLC-MS/MS检测方法,测定胡椒碱在各个种属肝微粒体中孵育后的剩余浓度,考察他们的代谢稳定性及体外代谢动力学参数。采用化学抑制法考察胡椒碱在人肝微粒体中的代谢表型。结果表明胡椒碱在人、SD大鼠、小鼠、恒河猴和比格犬的肝微粒体中,半衰期T1/2分别为31. 36、48. 46、138. 60、147. 45、165. 00 min;体外固有清除率CLint分别为0. 0442、0. 0286、0. 0100、0. 0094、0. 0084m L/(m L·mg);在人肝微粒体中,胡椒碱主要被CYP3A4和CYP2C9酶代谢。推测胡椒碱在各种肝微粒体中的代谢均相对较稳定,其中大鼠和人的肝微粒体代谢性质最相近,在后续的实验中可以考虑用大鼠的代谢结果预测人的代谢结果;人肝微粒体中参与胡椒碱代谢的酶主要有CYP3A4和CYP2C9。     

Metabolism of carbosulfan. I. Species differences in the in vitro biotransformation by mammalian hepatic microsomes including human

The in vitro metabolism of carbosulfan, a widely used carbamate insecticide, by hepatic microsomes from human, rat, mouse, dog, rabbit, minipig, and monkey was studied. Altogether eight (8) phase I metabolites were detected by LC–MS; phase II metabolites were not found in human homogenates fortified with appropriate cofactors. The primary metabolic pathways were the initial oxidation of sulfur to carbosulfan sulfinamide (‘sulfur oxidation pathway’) and the cleavage of the nitrogen sulfur bond (N–S) to give carbofuran and dibutylamine (‘carbofuran pathway’). Carbofuran was further hydroxylated to 3-hydroxycarbofuran and/or 7-phenolcarbofuran, which were further oxidized to 3-ketocarbofuran or 3-hydroxy-7-phenolcarbofuran, respectively, and finally to 3-keto-7-phenolcarbofuran. 3-Hydroxycarbofuran was the main metabolite in all species, but otherwise there were some qualitative interspecies differences in carbofuran pathway metabolites. Only rabbit liver microsomes were able to metabolize carbofuran via hydroxylation to 7-phenolcarbofuran. Carbofuran was not detected in dog liver microsomes due to rapid further metabolism. In general, liver microsomes from all seven species produced more toxic products (carbofuran, 3-hydroxy-carbofuran, 3-ketocarbofuran) more rapidly than a detoxification product (carbosulfan sulfinamide). Differences in intrinsic hepatic clearances (CL_int) between the lowest and highest species were moderate; 2-fold for the carbofuran pathway, 2.7-fold for carbosulfan sulfinamide and 6.2-fold for dibutylamine. Our studies, although restricted to in vitro metabolic data from human and animal hepatic preparations, provide valuable quantitative carbosulfan-specific data for risk assessment, which suggest that interspecies differences, for carbosulfan active chemical moiety, in toxicokinetics are within the standard applied factor for species extrapolation in toxicokinetics. These results will be valuable in further defining the risks associated with exposure to carbosulfan.     

A short procedure to measure phospholipid exchange in mitochondria and microsomes

A short procedure is described to study the exchange of phospholipids between rat liver organelles in vitro. ³²P-Labeled microsomes are bound to Ca²⁺, sedimented at 30g, and incubated with unlabeled post-700g-supernatant of liver homogenate. After recovering the originally labeled microsomes at 700g, mitochondria and microsomes of the unlabeled fraction are isolated and specific activity of ³²P measured. Net transfer of phospholipids is comparable to that found after incubation of separate fractions.     

Antioxidant activity and protective effect on DNA cleavage of extracts from Cistus incanus L. and Cistus monspeliensis L.

The genus Cistus includes many typical species of Mediterranean flora; Cistus species are used as antidiarrheics, as general remedies for treatment of various skin diseases in folk medicine and as anti-inflammatory agents. These species contain flavonoids that are considered to be chain-breaking antioxidants. In this work, we have investigated the effects of crude aqueous extracts from Cistus incanus and Cistus monspeliensis on DNA cleavage and their free-radical scavenging capacity. In addition, their effect on lipid peroxidation in rat liver microsomes was evaluated. These extracts showed a protective effect on DNA cleavage and a dose-dependent free-radical scavenging capacity; Cistus monspeliensis was more active than Cistus incanus; these results were confirmed by a significant inhibition of lipid peroxidation in rat liver microsomes. The experimental evidence, therefore, suggests that because of their antioxidant activity these extracts may offer excellent photoprotection for skin and may be useful in the treatment of human diseases where oxidative stress plays a key role. This revised version was published online in July 2006 with corrections to the Cover Date.     

Biotransformation of 4‐fluoro‐N‐(1‐{2‐[(propan‐2‐yl)phenoxy]ethyl}‐8‐azabicyclo[3.2.1]octan‐3‐yl)‐benzenesulfonamide,a novel potent 5‐HT7 receptor antagonist with antidepressant‐like and anxiolytic properties: In vitro and in silico approach

The aim of the study was to investigate the metabolism of 4‐fluoro‐N‐(1‐{2‐[(propan‐2‐yl)phenoxy]ethyl}‐8‐azabicyclo[3.2.1]octan‐3‐yl)‐benzenesulfonamide (PZ‐1150), a novel 5‐HT₇ receptor antagonist with antidepressant‐like and anxiolytic properties, by the following three ways: in vitro with microsomes; in vitro employing Cunninghamella echinulata, and in silico using MetaSite. Biotransformation of PZ‐1150 with microsomes resulted in five metabolites, while transformation with C. echinulata afforded two metabolites. In both models, the predominant metabolite occurred due to hydroxylation of benzene ring. In silico data coincide with in vitro experiments, as three MetaSite metabolites matched compounds identified in microsomal samples. In human liver microsomes PZ‐1150 exhibited in vitro half‐life of 64 min, with microsomal intrinsic clearance of 54.1 μL/min/mg and intrinsic clearance of 48.7 mL/min/kg. Therefore, PZ‐1150 is predicted to be a high‐clearance agent. The study demonstrated the applicability of using microsomal model coupled with microbial model to elucidate the metabolic pathways of compounds and comparison with in silico metabolite predictions.     

Stereoselective Formation and Metabolism of 20(S)‐Protopanaxadiol Ocotillol Type Epimers in Vivo and in Vitro

(20S,24S)‐epoxy‐dammarane‐3,12,25‐triol (24S‐epimer) and (20S,24R)‐epoxy‐ dammarane‐3,12,25‐triol (24R‐epimer), a pair of ocotillol type epimers, were identified as the main metabolites of 20(S)‐protopanaxadiol (PPD). The aim of this study was to systematically investigate the formation and metabolism of this pair of epimers in vivo and in vitro and to elucidate the isoforms of cytochrome P450 enzymes responsible for the stereoselective metabolism of both epimers. The result showed that 24S‐epimer was a more predominant ingredient in rat plasma after oral administration of PPD with higher area under the curve (AUC) values. Both the enzyme kinetic evaluations of the formation and elimination of 24S‐epimer and 24R‐epimer in rat liver microsomes (RLM) and human liver microsomes (HLM) indicated that 24S‐epimer had a higher formation rate and a lower oxygenation metabolism rate than 24R‐epimer, and the stereoselective differences were more obvious in HLM than in RLM. The chemical inhibition and recombinant human P450 isoforms assay showed that CYP3A4 was the predominant isoform responsible for the further metabolism of 24R‐epimer in HLM. The biliary excretion ratio of the 24S‐epimer glucuronide was more than 28‐fold higher than that of 24R‐epimer glucuronide after intravenous administration to rats, which also indicated 24S‐epimer was more preferential to be metabolized as the glucuronide conjugate than 24R‐epimer. Chirality 27:170–176, 2015. © 2014 Wiley Periodicals, Inc.     

Acquisition and use of humanin vitro liver preparations

Humanin vitro liver preparations — i.e., slices, hepatocyte suspensions, primary hepatocyte cultures and microsomes — are increasingly used in the drug development process. The main applications are prediction of drug metabolite profiles, drug-drug interactions and toxicity. The use of thesein vitro models is limited, however, because of their erratic availability, the absence of validated protocols and the difficulties of extrapolation ofin vitro data to thein vivo situation.     

Stereoselective Degradation of Chiral Fungicide Myclobutanil in Rat Liver Microsomes

Myclobutanil, (RS)‐2‐(4‐chlorophenyl)‐2‐(1H‐1, 2, 4‐triazol‐1‐ylmethyl)hexanenitrile is a broad‐spectrum systemic triazole fungicide which consists of a pair of enantiomers. The stereoselective degradation of myclobutanil was investigated in rat liver microsomes. The concentrations of myclobutanil enantiomers were determined by high‐performance liquid chromatography (HPLC) with a cellulose‐tris‐(3,5‐dimethyl‐phenylcarbamate)‐based chiral stationary phase (CDMPC‐CSP) under reversed phase condition. The t_1/2 of (+)‐myclobutanil is 8.49 min, while the t_1/2 of (–)‐myclobutanil is 96.27 min. Such consequences clearly indicated that the degradation of myclobutanil in rat liver microsomes was stereoselective and the degradation rate of (+)‐myclobutanil was much faster than (–)‐myclobutanil. In addition, significant differences between two enantiomers were also observed in enzyme kinetic parameters. The V_max of (+)‐myclobutanil was about 4‐fold of (–)‐myclobutanil and the CL_int of (+)‐myclobutanil was three times as much as (–)‐myclobutanil after incubation in rat liver microsomes. Corresponding consequences may shed light on the environmental and ecological risk assessment for myclobutanil and may improve human health. Chirality 26:51–55, 2013. © 2013 Wiley Periodicals, Inc.     

Studies on the interaction of furan with hepatic cytochrome P-450

In vitro incubation of rat liver micro-somes with [¹⁴C]-furan in the presence of NADPH resulted in the covalent incorporation of furan-derived radioactivity in microsomal protein. Compared to microsomes from untreated rats a two- to threefold increase in binding was observed with microsomes from phenobarbital-treated rats and a four- to five-fold increase was observed with microsomes from rats pretreated with imidazole or pyrazole. Covalent binding was reduced with microsomes from rats pretreated with β-naphthoflavone. Chemicals containing an amine group (semicarbazide), those in which the amine group is blocked but have a free thiol group (N-acetylcysteine), and those which have both an amine and a thiol group (glutathione) effectively blocked binding of [¹⁴C]-furan to microsomal protein. A decrease in cytochrome P-450 (P-450) content and decreases in the activities of P-450-dependent aniline hydroxylase, 7-ethoxycoumarin-O-deethylase (BCD), and 7-ethoxyresorufin-O-deethylase (ERD) was observed 24 hours after a single oral administration of 8 or 25 mg/kg of furan, suggesting that the reactive intermediate formed during P-450 catalyzed metabolism could be binding with nucleophilic groups within the P-450. In vitro studies indicated a significant decrease in the activity of aniline hydroxylase in pyrazole microsomes and BCD in phenobarbital microsomes without any significant change in the CO-binding spectrum of P-450 or in the total microsomal heme content, suggesting that furan inhibits the P-450s induced by PB and pyrazole. An almost equal distribution of furan-derived radioactivity in the heme and protein fractions of the CO-binding particles after In vitro treatment of microsomes with furan suggests binding of furan metabolites with heme and apoprotein of P-450, and, probably, due to this interaction, furan is acting as a suicide inhibitor of P-450.     

Thein vitro activity of the microsomal fraction isolated from the spleen and the lymph nodes after immunization of the donor

The microsomal fraction from the spleen (after perfusion) of immunized rabbits incubated for 20 min at 37° C under usual conditions in the presence of energy sources incorporates¹⁴C-labelled amino acids both into the solubilized (by adding deoxycholate), and into the nonsolubilized part (15%). The cell supernatant incorporates under these conditions the¹⁴C-labelled amino acids into total proteins in the absence of microsomes but in a lower degree. The cell supernatant contains gamma globulin detectable by immunoelectrophoresis. Gamma globulin obtained by specific precipitation of the solubilized microsomal fraction with antigamma-globulin serum had an measurable radioactivity. The precipitate of gamma globulin obtained from the supernatant of the incubation medium in the same manner (after removing the microsomes) had a specific activity twice as high. On separating the microsomal fraction extract and the incubation medium supernatant on DEAE cellulose most fractions show on extinction maximum at 260 nm in the first case and at 280 nm in the second case. The microsomal fraction isolated from the spleen and lymph nodes of immunized pigs-48 and 72 h after revaccination, when incubatedin vitro, incorporated¹⁴C-labelled amino acids into total protein. After ultrasonic disintegration in 0.14m NaCl and filtration through a Sephadex G 25 column it is specifically precipitated with the antigammaglobulin serum. Gamma globulin isolated after incubation of the microsomal fraction had a measurable radioactivity. AntiHSA antibodies determined by adsorption on immunosorbent did not possess significant radioactivity. Only the concentrated supernatant of the incubation medium showed minute radioactivity of 75–94 counts/min /ml. The problem of investigating the formation of nascent specific antibodies on a subcellular levelin vitro during the early period of secondary response to the antigen is discussed, in particular the problem of their detection. An erratum to this article is available at .     

Synthesis and mass spectrometry analysis of quaternary cryptando‐peptidic conjugates

The bicyclic amines in the form of cryptands, the crown ether analogs, were used in the synthesis of cryptando‐peptidic conjugates with simultaneous formation of quaternary ammonium nitrogen moiety. A series of model cryptando‐peptidic conjugates at the peptide N‐terminus was efficiently prepared by the standard Fmoc solid phase synthesis. Tandem mass spectrometric analysis of the obtained conjugates has shown the specific fragmentation pattern during MS/MS experiment. The obtained cryptandic quaternary ammonium group undergoes the Hofmann elimination during collision‐induced dissociation fragmentation followed by the ethoxyl group elimination. The presented quaternization of cryptands by iodoacetylated peptides is relatively easy and compatible with standard solid‐phase peptide synthesis. Additionally, the applicability of such peptide derivatives and their isotopologues selectively deuterated at the α‐carbon in the quantitative LC‐MS analysis was analyzed. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.     

Simultaneous determination of taxol and its metabolites in microsomal samples by a simple thin-layer chromatography radioactivity assay — inhibitory effect of NK-104, a new inhibitor of HMG-CoA reductase

The inhibitory effect of NK-104, a potent inhibitor of HMG-CoA reductase, on taxol metabolism was examined using radio-TLC. This method is described for in vitro measurement of taxol metabolites as an alternative to the commonly used HPLC assay. After incubation of ¹⁴C-taxol with human liver microsomes, the supernatants were developed using a solvent system consisting of toluene–acetone–formic acid (60:39:1, v/v) and quantified with a bioimaging analyzer. The described method provides a valuable tool for the simultaneous determination of unchanged taxol and its major metabolites. There was no inhibitory effect of NK-104 on CYP-mediated metabolism of taxol in human liver microsomes.