OC 8510 BIOTRANSFORMATION OF PRAZIQUANTEL FOR THE PHARMACOKINETIC OPTIMISATION OF PRAZIQUANTEL USE IN MASS DRUG ADMINISTRATION AND DEVELOPMENT OF NEW PAEDIATRIC FORMULATIONS

BackgroundPraziquantel (PZQ) is the only drug available for the treatment of all forms of schistosomiasis. New paediatric formulations for the active enantiomer R-PZQ and the racemate PZQ are currently under development. There is however limited drug metabolism and pharmacokinetic data on PZQ available to support these initiatives. Detailed knowledge of PZQ metabolism will enable the use of PBPK modelling to determine appropriate doses for the new formulations in paediatric patients and to predict risks for drug-drug interactions in mass drug administration.MethodsBiotransformation studies on PZQ were conducted in human liver microsomes and recombinant Cytochrome P450s (CYPs). Structure elucidation was inferred from mass spectra. Enzyme kinetic studies to determine the Michaelis-Menten kinetics, Km and Vmax, of the formation of the main metabolites and analysis of clinical samples were determined by LC-MS/MS.ResultsCYP reaction phenotyping studies with HLM and r-CYPs indicate major involvement of CYP1A2, 2 C19, 2D6 and 3A4/5 in the metabolism of R- and S-PZQ. Biotransformation studies showed that PZQ is metabolised to cis-4-OH-PZQ mainly by CYP1A2 and CYP2C19. CYP3A4/5 metabolises PZQ to a mono-hydroxyl metabolite (X-OH-PZQ) whilst CYP2D6 metabolises PZQ to minor novel mono-hydroxyl metabolite (Y-OH-PZQ) both pending structural elucidation by nuclear magnetic resonance. R-PZQ was more rapidly cleared than S–PZQ with variable interindividual AUC and Cmax.Discussion and conclusionThe differential role of CYP1A2 and CYP2C19 and of CYP3A4 and CYP3A5 in the formation the 4-OH-PZQ and the novel X-OH-PZQ respectively are intriguing findings as this has not been reported before in humans. In vitro, cis and not trans 4-OH-PZQ formation has been observed contrary in vivo reports in humans which indicate trans 4-OH-PZQ as the main metabolite. The data will enable us to understand the rapid clearance of PZQ and predict potential drug-drug-gene interactions which mayexplain the inter-individual variability of PZQ pharmacokinetics.

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Assessment of Inhibition of Bovine Hepatic Cytochrome P450 by 43 Commercial Bovine Medicines Using a Combination of In Vitro Assays and Pharmacokinetic Data from the Literature

Drug Metabolism Letters ◽

10.2174/1872312813666191120094649 ◽

2020 ◽

Vol 13 (2) ◽

pp. 123-131

Author(s):

Steven X. Hu ◽

Chase A. Mazur ◽

Kenneth L. Feenstra

Keyword(s):

Liver Microsomes ◽

In Vitro Assay ◽

In Vitro Assays ◽

Pharmacokinetic Studies ◽

Pharmacokinetic Data ◽

Vitro Assay ◽

Administration Routes ◽

Ic50 Values

Background: There has been a lack of information about the inhibition of bovine medicines on bovine hepatic CYP450 at their commercial doses and dosing routes. Objective: The aim of this work was to assess the inhibition of 43 bovine medicines on bovine hepatic CYP450 using a combination of in vitro assay and Cmax values from pharmacokinetic studies with their commercial doses and dosing routes in the literature. Methods: Those drugs were first evaluated through a single point inhibitory assay at 3 μM in bovine liver microsomes for six specific CYP450 metabolisms, phenacetin o-deethylation, coumarin 7- hydroxylation, tolbutamide 4-hydroxylation, bufuralol 1-hydroxylation, chlorzoxazone 6-hydroxylation and midazolam 1’-hydroxylation. When the inhibition was greater than 20% in the assay, IC50 values were then determined. The potential in vivo bovine hepatic CYP450 inhibition by those drugs was assessed using a combination of the IC50 values and in vivo Cmax values from pharmacokinetic studies at their commercial doses and administration routes in the literature. Results: Fifteen bovine medicines or metabolites showed in vitro inhibition on one or more bovine hepatic CYP450 metabolisms with different IC50 values. Desfuroylceftiour (active metabolite of ceftiofur), nitroxinil and flunixin have the potential to inhibit one of the bovine hepatic CYP450 isoforms in vivo at their commercial doses and administration routes. The rest of the bovine medicines had low risks of in vivo bovine hepatic CYP450 inhibition. Conclusion: This combination of in vitro assay and in vivo Cmax data provides a good approach to assess the inhibition of bovine medicines on bovine hepatic CYP450.

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Assessment of inhibitory effects on major human cytochrome P450 enzymes by spasmolytics used in the treatment of overactive bladder syndrome

Therapeutic Advances in Urology ◽

10.1177/1756287217708951 ◽

2017 ◽

Vol 9 (7) ◽

pp. 163-177

Author(s):

Dominik Dahlinger ◽

Sevinc Aslan ◽

Markus Pietsch ◽

Sebastian Frechen ◽

Uwe Fuhr

Keyword(s):

Cytochrome P450 ◽

Liver Microsomes ◽

Fold Increase ◽

Pharmacokinetic Data ◽

Cytochrome P450 Enzymes ◽

Trospium Chloride ◽

Screening Experiments ◽

Human Cytochrome

Background: The objective of this study was to examine the inhibitory potential of darifenacin, fesoterodine, oxybutynin, propiverine, solifenacin, tolterodine and trospium chloride on the seven major human cytochrome P450 enzymes (CYP) by using a standardized and validated seven-in-one cytochrome P450 cocktail inhibition assay. Methods: An in vitro cocktail of seven highly selective probe substrates was incubated with human liver microsomes and varying concentrations of the seven test compounds. The major metabolites of the probe substrates were simultaneously analysed using a validated liquid chromatography tandem mass spectrometry (LC-MS/MS) method. Enzyme kinetics were estimated by determining IC50 and Ki values via nonlinear regression. Obtained Ki values were used for predictions of potential clinical impact of the inhibition using a static mechanistic prediction model. Results: In this study, 49 IC50 experiments were conducted. In six cases, IC50 values lower than the calculated threshold for drug–drug interactions (DDIs) in the gut wall were observed. In these cases, no increase in inhibition was determined after a 30 min preincubation. Considering a typical dosing regimen and applying the obtained Ki values of 0.72 µM (darifenacin, 15 mg daily) and 7.2 µM [propiverine, 30 mg daily, immediate release (IR)] for the inhibition of CYP2D6 yielded a predicted 1.9-fold and 1.4-fold increase in the area under the curve (AUC) of debrisoquine (CYP2D6 substrate), respectively. Due to the inhibition of the particular intestinal CYP3A4, the obtained Ki values of 14 µM of propiverine (30 mg daily, IR) resulted in a predicted doubling of the AUC for midazolam (CYP3A4 substrate). Conclusions: In vitro/ in vivo extrapolation based on pharmacokinetic data and the conducted screening experiments yielded similar effects of darifenacin on CYP2D6 and propiverine on CYP3A4 as obtained in separately conducted in vivo DDI studies. As a novel finding, propiverine was identified to potentially inhibit CYP2D6 at clinically occurring concentrations.

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Pharmacokinetics of Darolutamide in Mouse – Assessment of the Disposition of the Diastereomers, Key Active Metabolite and Interconversion Phenomenon: Implications to Cancer Patients

Drug Metabolism Letters ◽

10.2174/1872312814666200521091236 ◽

2020 ◽

Vol 14 ◽

Author(s):

Neeraj Kumar Saini ◽

Bhavesh Babulal Gabani ◽

Umesh Todmal ◽

Suresh P Sulochana ◽

Vinay Kiran ◽

...

Keyword(s):

Protein Binding ◽

Liver Microsomes ◽

Stability Study ◽

Pharmacokinetic Data ◽

Chiral Inversion ◽

Tissue Samples ◽

Clinical Pharmacokinetics ◽

Oral And Intravenous Dosing

Background: Darolutamide is recently approved for the treatment of non-metastatic castrate resistance prostate cancer. Hitherto, no stereoselective pharmacokinetic data has been published pertaining to darolutamide and its diastereomers in animals or humans. The key aims of the experiment were to examine darolutamide, S,S-darolutamide and S,R-darolutamide with respect to (a) assessment of in vitro stability and protein binding (b) characterization of in vivo oral and intravenous pharmacokinetics in mice. Method: In vitro (liver microsomes stability and protein binding) and in vivo experiments (oral/intravenous dosing to mice) were carried out using darolutamide, S,S-darolutamide and S,R-darolutamide. Besides, tissue levels of darolutamide, S,S-darolutamide and S,R-darolutamide were measured following oral and intravenous dosing. Appropriate plasma/tissue samples served to determine the pharmacokinetics of various analytes in mice. Liquid chromatography in tandem with mass spectrometry procedures enabled the delineation of the plasma pharmacokinetics, in vitro and tissue uptake data of the various analytes. Results: Chiral inversion was absent in the metabolic stability study. However, darolutamide showed profound stereoselectivity (S,Sdarolutamide greater than S,R-darolutamide) after either intravenous or oral dosing. S,R-darolutamide but not S,S-darolutamide showed conversion to its antipode post oral and intravenous dosing to mice. Regardless of oral or intravenous dosing, active keto darolutamide formation was evident after administration of darolutamide, S,S-darolutamide or S,R- darolutamide. Tissue data supported the observations in plasma; however, tissue exposure of the various darolutamide, S,S-darolutamide and S,R-darolutamide were much lower as compared to plasma. Conclusion: In lieu of the human pharmacokinetic data, although the administration of diastereomeric darolutamide was justified, it is proposed to delineate the clinical pharmacokinetics of S,R-darolutamide and S,S-darolutamide relative to darolutamide in future clinical pharmacology studies.

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On the Usefulness of Two Small-Scale In Vitro Setups in the Evaluation of Luminal Precipitation of Lipophilic Weak Bases in Early Formulation Development

Pharmaceutics ◽

10.3390/pharmaceutics12030272 ◽

2020 ◽

Vol 12 (3) ◽

pp. 272 ◽

Cited By ~ 2

Author(s):

Patrick J. O’Dwyer ◽

Georgios Imanidis ◽

Karl J. Box ◽

Christos Reppas

Keyword(s):

Risk Mitigation ◽

Small Scale ◽

Pharmacokinetic Data ◽

Formulation Development ◽

Pbpk Modelling ◽

Minimal Impact ◽

Weak Bases ◽

Physiologically Based Pharmacokinetic

A small-scale biphasic dissolution setup and a small-scale dissolution-permeation (D-P) setup were evaluated for their usefulness in simulating the luminal precipitation of three lipophilic weak bases—dipyridamole, ketoconazole and itraconazole. The transition from the gastric to intestinal environment was incorporated into both experimental procedures. Emulsification during the biphasic dissolution experiments had a minimal impact on the data, when appropriate risk mitigation steps were incorporated. Precipitation parameters estimated from the in vitro data were inputted into the Simcyp® physiologically based pharmacokinetic (PBPK) modelling software and simulated human plasma profiles were compared with previously published pharmacokinetic data. Average Cmax and AUC values estimated using experimentally derived precipitation parameters from the biphasic experiments deviated from corresponding published actual values less than values estimated using the default simulator parameters for precipitation. The slow rate of transport through the biomimetic membrane in the D-P setup limited its usefulness in forecasting the rates of in vivo precipitation used in the modelling of average plasma profiles.

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Characterization of Casearin X Metabolism by Rat and Human Liver Microsomes

Planta Medica ◽

10.1055/a-0765-9523 ◽

2018 ◽

Vol 85 (04) ◽

pp. 282-291 ◽

Cited By ~ 2

Author(s):

Rodrigo Moreira da Silva ◽

Cristiane de Gaitani ◽

Lucas Marques ◽

Karina Fraige Baraco ◽

Alberto Cavalheiro ◽

...

Keyword(s):

Human Liver ◽

High Performance ◽

Liver Microsomes ◽

Hepatic Clearance ◽

Human Liver Microsomes ◽

European Medicines Agency ◽

Antitumor Action ◽

Pharmacokinetic Data

AbstractCasearin X (CAS X) is the major clerodane diterpene isolated from the leaves of Casearia sylvestris and has been extensively studied due to its powerful cytotoxic activity at low concentrations. Promising results for in vivo antitumor action have also been described when CAS X was administered intraperitoneally in mice. Conversely, loss of activity was observed when orally administered. Since the advancement of natural products as drug candidates requires satisfactory bioavailability for their pharmacological effect, this work aimed to characterize the CAS X metabolism by employing an in vitro microsomal model for the prediction of preclinical pharmacokinetic data. Rat and human liver microsomes were used to assess species differences. A high-performance liquid chromatography with diode-array detection (HPLC-DAD) method for the quantification of CAS X in microsomes was developed and validated according to European Medicines Agency guidelines. CAS X was demonstrated to be a substrate for carboxylesterases via hydrolysis reaction, with a Michaelis-Menten kinetic profile. The enzyme kinetic parameters were determined, and the intrinsic clearance was 1.7-fold higher in humans than in rats. The hepatic clearance was estimated by in vitro-in vivo extrapolation, resulting in more than 90% of the hepatic blood flow for both species. A qualitative study was also carried out for the metabolite identification by mass spectrometry and indicated the formation of the inactive metabolite CAS X dialdehyde. These findings demonstrate that CAS X is susceptible to first-pass metabolism and is a substrate for specific carboxylesterases expressed in liver, which may contribute to a reduction in antitumor activity when administered by the oral route.

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Splicing factor SRSF1 promotes breast cancer progression via oncogenic splice switching of PTPMT1

Journal of Experimental & Clinical Cancer Research ◽

10.1186/s13046-021-01978-8 ◽

2021 ◽

Vol 40 (1) ◽

Author(s):

Jun-Xian Du ◽

Yi-Hong Luo ◽

Si-Jia Zhang ◽

Biao Wang ◽

Cong Chen ◽

...

Keyword(s):

Breast Cancer ◽

Cancer Progression ◽

High Risk Group ◽

Clinical Samples ◽

Binding Motif ◽

Ki 67 ◽

Tissue Samples

Abstract Background Intensive evidence has highlighted the effect of aberrant alternative splicing (AS) events on cancer progression when triggered by dysregulation of the SR protein family. Nonetheless, the underlying mechanism in breast cancer (BRCA) remains elusive. Here we sought to explore the molecular function of SRSF1 and identify the key AS events regulated by SRSF1 in BRCA. Methods We conducted a comprehensive analysis of the expression and clinical correlation of SRSF1 in BRCA based on the TCGA dataset, Metabric database and clinical tissue samples. Functional analysis of SRSF1 in BRCA was conducted in vitro and in vivo. SRSF1-mediated AS events and their binding motifs were identified by RNA-seq, RNA immunoprecipitation-PCR (RIP-PCR) and in vivo crosslinking followed by immunoprecipitation (CLIP), which was further validated by the minigene reporter assay. PTPMT1 exon 3 (E3) AS was identified to partially mediate the oncogenic role of SRSF1 by the P-AKT/C-MYC axis. Finally, the expression and clinical significance of these AS events were validated in clinical samples and using the TCGA database. Results SRSF1 expression was consistently upregulated in BRCA samples, positively associated with tumor grade and the Ki-67 index, and correlated with poor prognosis in a hormone receptor-positive (HR+) cohort, which facilitated proliferation, cell migration and inhibited apoptosis in vitro and in vivo. We identified SRSF1-mediated AS events and discovered the SRSF1 binding motif in the regulation of splice switching of PTPMT1. Furthermore, PTPMT1 splice switching was regulated by SRSF1 by binding directly to its motif in E3 which partially mediated the oncogenic role of SRSF1 by the AKT/C-MYC axis. Additionally, PTPMT1 splice switching was validated in tissue samples of BRCA patients and using the TCGA database. The high-risk group, identified by AS of PTPMT1 and expression of SRSF1, possessed poorer prognosis in the stage I/II TCGA BRCA cohort. Conclusions SRSF1 exerts oncogenic roles in BRCA partially by regulating the AS of PTPMT1, which could be a therapeutic target candidate in BRCA and a prognostic factor in HR+ BRCA patient.

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A circular RNA derived from PLXNB2 as a valuable predictor of the prognosis of patients with acute myeloid leukaemia

Journal of Translational Medicine ◽

10.1186/s12967-021-02793-7 ◽

2021 ◽

Vol 19 (1) ◽

Author(s):

Leilei Lin ◽

Yu Wang ◽

Sicheng Bian ◽

Lili Sun ◽

Zhibo Guo ◽

...

Keyword(s):

Acute Myeloid Leukaemia ◽

Myeloid Leukaemia ◽

Regulatory Networks ◽

Clinical Samples ◽

Circular Rnas ◽

Qrt Pcr ◽

Rna Fish ◽

Acute Myeloid

Abstract Background As a common haematological malignancy, acute myeloid leukaemia (AML), particularly with extramedullary infiltration (EMI), often results in a high mortality rate and poor prognosis. Circular RNAs (circRNAs) regulate biological and pathogenic processes, suggesting a potential role in AML. We have previously described the overall alterations in circRNAs and their regulatory networks between patients with AML presenting with and without EMI. This study aims to find new prognostic and therapeutic targets potentially associated with AML. Methods qRT-PCR was performed on samples from 40 patients with AML and 15 healthy controls. The possibility of using circPLXNB2 (circRNA derived from PLXNB2) as a diagnostic and prognostic biomarker for AML was analysed with multiple statistical methods. In vitro, the function of circPLXNB2 was studied by lentivirus transfection, CCK-8 assays, flow cytometry, and Transwell experiments. Western blotting and qRT-PCR were performed to detect the expression of related proteins and genes. The distribution of circPLXNB2 in cells was observed using RNA fluorescence in situ hybridization (RNA-FISH). We also investigated the role of circPLXNB2 by establishing AML xenograft models in NOD/SCID mice. Results By analysing the results of qRT-PCR detection of clinical samples, the expression of the circPLXNB2 and PLXNB2 mRNAs were significantly increased in patients with AML, more specifically in patients with AML presenting with EMI. High circPLXNB2 expression was associated with an obviously shorter overall survival and leukaemia-free survival of patients with AML. The circPLXNB2 expression was positively correlated with PLXNB2 mRNA expression, as evidenced by Pearson’s correlation analysis. RNA-FISH revealed that circPLXNB2 is mainly located in the nucleus. In vitro and in vivo, circPLXNB2 promoted cell proliferation and migration and inhibited apoptosis. Notably, circPLXNB2 also increased the expression of PLXNB2, BCL2 and cyclin D1, and reduced the expression of BAX. Conclusion In summary, we validated the high expression of circPLXNB2 and PLXNB2 in patients with AML. Elevated circPLXNB2 levels were associated with poor clinical outcomes in patients with AML. Importantly, circPLXNB2 accelerated tumour growth and progression, possibly by regulating PLXNB2 expression. Our study highlights the potential of circPLXNB2 as a new prognostic predictor and therapeutic target for AML in the future.

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In Vitro Metabolism of E2, G2: Novel Bile Acid-Coupling Camptothecin Analogues, in Rat Liver Microsomes

Recent Patents on Anti-Cancer Drug Discovery ◽

10.2174/1574892816666210204122028 ◽

2021 ◽

Vol 16 ◽

Author(s):

Xiangli Zhang ◽

Qin Shen ◽

Yi Wang ◽

Leilei Zhou ◽

Qi Weng ◽

...

Keyword(s):

Bile Acid ◽

Phase I ◽

Rat Liver ◽

Deoxycholic Acid ◽

Liver Microsomes ◽

Intrinsic Clearance ◽

Rat Liver Microsomes ◽

Camptothecin Analogues

Background: E2 (Camptothecin - 20 (S) - O- glycine - deoxycholic acid), and G2 (Camptothecin - 20 (S) - O - acetate - deoxycholic acid) are two novel bile acid-derived camptothecin analogues by introducing deoxycholic acid in 20-position of CPT(camptothecin) with greater anticancer activity and lower systematic toxicity in vivo. Objective: We aimed to investigate the metabolism of E2 and G2 by Rat Liver Microsomes (RLM). Methods: Phase Ⅰ and Phase Ⅱ metabolism of E2 and G2 in rat liver microsomes were performed respectively, and the mixed incubation of phase I and phase Ⅱ metabolism of E2 and G2 was also processed. Metabolites were identified by liquid chromatographic/mass spectrometry. Results: The results showed that phase I metabolism was the major biotransformation route for both E2 and G2. The isoenzyme involved in their metabolism had some difference. The intrinsic clearance of G2 was 174.7mL/min. mg protein, more than three times of that of E2 (51.3 mL/min . mg protein), indicating a greater metabolism stability of E2. 10 metabolites of E2 and 14 metabolites of G2 were detected, including phase I metabolites (mainly via hydroxylations and hydrolysis) and their further glucuronidation products. Conclusion: These findings suggested that E2 and G2 have similar biotransformation pathways except some difference in the hydrolysis ability of the ester bond and amino bond from the parent compounds, which may result in the diversity of their metabolism stability and responsible CYPs(Cytochrome P450 proteins).

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In vitro and in vivo evaluation of hypothermia on pharmacokinetics and pharmacodynamics of nimodipine in rabbits

Journal of International Medical Research ◽

10.1177/0300060517720056 ◽

2017 ◽

Vol 46 (1) ◽

pp. 335-347 ◽

Cited By ~ 1

Author(s):

Yu-xing Fei ◽

Tian-hong Zhang ◽

Jing Zhao ◽

He Ren ◽

Ya-nan Du ◽

...

Keyword(s):

Blood Flow ◽

Cerebral Blood Flow ◽

Protein Binding ◽

Plasma Concentrations ◽

Liver Microsomes ◽

Intrinsic Clearance ◽

Pharmacokinetics And Pharmacodynamics ◽

In Vivo Evaluation

Objective To investigate the effect of hypothermia on the pharmacokinetics and pharmacodynamics of nimodipine in rabbits using in vivo and in vitro methods. Methods Five healthy New Zealand rabbits received a single dose of nimodipine (0.5 mg/kg) intravenously under normothermic and hypothermic conditions. Doppler ultrasound was used to monitor cerebral blood flow, vascular resistance, and heart rate. In vitro evaluations of protein binding, hepatocyte uptake and intrinsic clearance of liver microsomes at different temperatures were also conducted. Results Plasma concentrations of nimodipine were significantly higher in hypothermia than in normothermia. Nimodipine improved cerebral blood flow under both conditions, but had a longer effective duration during the hypothermic period. Low temperature decreased the intrinsic clearance of liver microsomes, with no change in protein binding or hepatocyte uptake of nimodipine. Conclusion Nimodipine is eliminated at a slower rate during hypothermia than during normothermia, mainly due to the decreased activity of cytochrome P450 enzymes. This results in elevated system exposure with little enhancement in pharmacological effect.

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Enzymatic activity in turkey, duck, quail and chicken liver microsomes against four human cytochrome P450 prototype substrates and aflatoxin B1

Journal of Xenobiotics ◽

10.4081/xeno.2011.e4 ◽

2011 ◽

Vol 1 (1) ◽

pp. 4 ◽

Cited By ~ 10

Author(s):

Hansen W. Murcia ◽

Gonzalo J. Díaz ◽

Sandra Milena Cepeda

Keyword(s):

Cytochrome P450 ◽

Aflatoxin B1 ◽

Enzyme Activities ◽

High Performance ◽

Biochemical Characterization ◽

Liver Microsomes ◽

Cytochrome P450 Enzymes ◽

Catalytic Rate

Cytochrome P450 enzymes (CYP) are a group of monooxygenases able to biotransform several kinds of xenobiotics including aflatoxin B1 (AFB1), a highly toxic mycotoxin. These enzymes have been widely studied in humans and others mammals, but there is not enough information in commercial poultry species about their biochemical characteristics or substrate specificity. The aim of the present study was to identify CYPs from avian liver microsomes with the use of prototype substrates specific for human CYP enzymes and AFB1. Biochemical characterization was carried out in vitro and biotransformation products were detected by high-performance liquid chromatography (HPLC). Enzymatic constants were calculated and comparisons between turkey, duck, quail and chicken activities were done. The results demonstrate the presence of four avian ortholog enzyme activities possibly related with a CYP1A1, CYP1A2, CYP2A6 (activity not previously identified) and CYP3A4 poultry orthologs, respectively. Large differences in enzyme kinetics specific for prototype substrates were found among the poultry species studied. Turkey liver microsomes had the highest affinity and catalytic rate for AFB1 whereas chicken enzymes had the lowest affinity and catalytic rate for the same substrate. Quail and duck microsomes showed intermediate values. These results correlate well with the known in vivo sensitivity for AFB1 except for the duck. A high correlation coefficient between 7-ethoxyresorufin-Odeethylase (EROD) and 7-methoxyresorufin- O-deethylase (MROD) activities was found in the four poultry species, suggesting that these two enzymatic activities might be carried out by the same enzyme. The results of the present study indicate that four prototype enzyme activities are present in poultry liver microsomes, possibly related with the presence of three CYP avian orthologs. More studies are needed in order to further characterize these enzymes.

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