Frédéric Poignant scite author profile

Frédéric Poignant

3Publications

6Citation Statements Received

96Citation Statements Given

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MSD (France)

Publications

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CYP2C75-Involved Autoinduction of Metabolism in Rhesus Monkeys of Methyl 3-Chloro-3′-fluoro-4′-{(1R)-1-[({1-[(trifluoroacetyl)amino]cyclopropyl}carbonyl)amino]ethyl}-1,1′-biphenyl-2-carboxylate (MK-0686), a Bradykinin B₁ Receptor Antagonist

Tang¹,

Carr²,

Poignant³

et al. 2008

J Pharmacol Exp Ther

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After oral treatment (once daily) for 4 weeks with the potent bradykinin B 1 receptor antagonist methyl 3-chloro-3Ј-fluoro-4Ј-{(1R)-1-[({1-[(trifluoroacetyl)amino]cyclopropyl}carbonyl)-amino]ethyl}-1,1Ј-biphenyl-2-carboxylate (MK-0686), rhesus monkeys (Macaca mulatta) exhibited significantly reduced systemic exposure of the compound in a dose-dependent manner, suggesting an occurrence of autoinduction of MK-0686 metabolism. This possibility is supported by two observations. 1) MK-0686 was primarily eliminated via biotransformation in rhesus monkeys, with oxidation on the chlorophenyl ring as one of the major metabolic pathways. This reaction led to appreciable formation of a dihydrodiol (M11) and a hydroxyl (M13) product in rhesus liver microsomes supplemented with NADPH. 2) The formation rate of these two metabolites determined in liver microsomes from MK-0686-treated groups was Ն2-fold greater than the value for a control group. Studies with recombinant rhesus P450s and monoclonal antibodies against human P450 enzymes suggested that CYP2C75 played an important role in the formation of M11 and M13. The induction of this enzyme by MK-0686 was further confirmed by a concentration-dependent increase of its mRNA in rhesus hepatocytes, and, more convincingly, the enhanced CYP2C proteins and catalytic activities toward CYP2C75 probe substrates in liver microsomes from MK-0686-treated animals. Furthermore, a good correlation was observed between the rates of M11 and M13 formation and hydroxylase activities toward probe substrates determined in a panel of liver microsomal preparations from control and MK-0686-treated animals. Therefore, MK-0686, both a substrate and inducer for CYP2C75, caused autoinduction of its own metabolism in rhesus monkeys by increasing the expression of this enzyme.Cytochromes P450 (P450s) are a superfamily of enzymes involved in the oxidative metabolism of a variety of chemical xenobiotics, including pharmaceuticals, carcinogens, and environmental pollutants (Wrighton and Stevens, 1992). Altered catalytic activity or capacity of the enzymes, by inhibition or induction, is the major source of metabolism-based drug-drug interactions (Tanaka, 1998). The past decades have witnessed the advance in prediction of drug-drug interactions due to P450 inhibition (Brown et al., 2006), but pre-

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Brain findings associated with risperidone in rhesus monkeys: magnetic resonance imaging and pathology perspectives

Fernandez

Kuruvilla

Hines³

et al. 2019

J Toxicol Pathol

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Brain changes associated with risperidone, a dopamine-2/serotonin-2 receptor antagonist, have been documented in rats and humans, but not in nonhuman primates. This study characterized brain changes associated with risperidone in nonhuman primates. Rhesus monkeys were orally administered risperidone in a dose-escalation paradigm up to a maximum tolerated dose of 0.5 mg/kg/day for 3 weeks, or 3 months followed by a 3-month recovery period. Transient and fully reversible neurological signs consistent with risperidone pharmacology were observed. The results of a magnetic resonance imaging evaluation after 3 months of treatment and at the end of the 3-month recovery period showed no meaningful changes in the brain. There were no risperidone-related brain weight changes or gross findings. Histomorphological evaluation of brain sections stained with hematoxylin and eosin, ionized calcium binding adaptor molecule 1 (Iba1), and luxol fast blue/cresyl violet double staining showed no notable differences between control and risperidone groups. However, evaluation of the brain after glial fibrillary acidic protein (GFAP) immunohistochemical staining revealed increased staining in the cell bodies and processes of astrocytes in the putamen without apparent alterations in numbers or distribution. The increase in GFAP staining was present after 3 weeks and 3 months of treatment, but no increase in staining was observed after the 3-month recovery period, demonstrating the reversibility of this finding. The reversible increase in GFAP expression was likely an adaptive, non-adverse response of astrocytes, associated with the pharmacology of risperidone. These observations are valuable considerations in the nonclinical risk assessment of new drug candidates for psychiatric disorders.

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P223 - PPB: Considerations for safety studies and data interpretation

Pajkovic

Kuo

Bennet

et al. 2020

Drug Metabolism and Pharmacokinetics

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