Yoshiyuki Igawa scite author profile

The polycyclic aromatic hydrocarbon 7, 12-dimethylbenz[a]anthracene, (DMBA), targets and destroys all follicle types in rat and mouse ovaries. DMBA requires bioactivation to DMBA-3,4-diol-1,2-epoxide for ovotoxicity via formation of the intermediate, DMBA-3,4-diol (catalyzed by microsomal epoxide hydrolase; mEH). mEH was shown to be involved in DMBA bioactivation for ovotoxicity induction in B6C3F1 mouse ovaries. The current study compared DMBA and DMBA-3,4-diol mediated ovotoxicity, and investigated mEH involvement in DMBA-3,4-diol bioactivation in Fischer 344 (F344) rat ovary. F344 postnatal day (PND) 4 rat ovaries were cultured in vehicle control or media containing 1) DMBA or DMBA-3,4-diol (12.5 nM - 1 μM; 15 days); 2) DMBA (1μM; 6 h -15 days); and 3) DMBA (1μM) or DMBA-3,4-diol (75 nM) ± the mEH activity inhibitor cyclohexene oxide (CHO; 2 mM; 4 days). Ovaries were histologically evaluated and mEH mRNA and protein were measured by reverse transcriptase PCR or Western blotting, respectively. Ovotoxicity following 15 days of culture occurred (P < 0.05) at lower concentrations of DMBA-3,4-diol (12.5 nM - primordial; 75 nM - primary) than DMBA (75 nM - primordial; 375 nM - primary). The temporal pattern of mEH expression following DMBA exposure showed mRNA up-regulation (P < 0.05) on day 2, with increased protein (P < 0.05) on day 4, the earliest time of observed follicle loss (P < 0.05). mEH inhibition prevented DMBA-induced, but not DMBA-3,4-diol-induced ovotoxicity. These results demonstrate a conserved response in mice and rats for ovarian mEH involvement in DMBA bioactivation to its ovotoxic, 3,4-diol-1,2-epoxide form.

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Orally active ghrelin receptor inverse agonists and their actions on a rat obesity model

Takahashi¹,

Funami²,

Iwaki³

et al. 2015

Bioorganic & Medicinal Chemistry

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Differences in Intestinal Hydrolytic Activities between Cynomolgus Monkeys and Humans: Evaluation of Substrate Specificities Using Recombinant Carboxylesterase 2 Isozymes

et al. 2016

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Cynomolgus monkeys, used as an animal model to predict human pharmacokinetics, occasionally show different oral absorption patterns to humans due to differences in their intestinal metabolism. In this study, we investigated the differences between intestinal hydrolytic activities in cynomolgus monkeys and humans, in particular the catalyzing activities of their carboxylesterase 2 (CES2) isozymes. For this purpose we used both human and monkey microsomes and recombinant enzymes derived from a cell culture system. Monkey intestinal microsomes showed lower hydrolytic activity than human microsomes for several substrates. Interestingly, in contrast to human intestinal hydrolysis, which is not enantioselective, monkey intestine showed preferential R-form hydrolysis of propranolol derivatives. Recombinant CES2 isozymes from both species, mfCES2v3 from monkeys and human hCE2, showed similar metabolic properties to their intestinal microsomes when expressed in HEK293 cells. Recombinant hCE2 and mfCES2v3 showed similar Km values for both enantiomers of all propranolol derivatives tested. However, recombinant mfCES2v3 showed extreme R-enantioselective hydrolysis, and both hCE2 and mfCES2v3 showed lower activity for O-3-methyl-n-butyryl propranolol than for O-n-valeryl and O-2-methyl-n-butyryl propranolol. This lower hydrolytic activity was characterized by lower Vmax values. Docking simulations of the protein-ligand complex demonstrated that the enantioselectivity of mfCES2v3 for propranolol derivatives was possibly caused by the orientation of its active site being deformed by an amino acid change of Leu107 to Gln107 and the insertion of Met309, compared with hCE2. In addition, molecular dynamics simulation indicated the possibility that the interatomic distance between the catalytic triad and the substrate was elongated by a 3-positioned methyl in the propranolol derivatives. Overall, these findings will help us to understand the differences in intestinal hydrolytic activities between cynomolgus monkeys and humans.

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SUN11602-induced hyperexpression of calbindin D-28k is pivotal for the survival of hippocampal neurons under neurotoxic conditions

et al. 2015

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Yoshiyuki Igawa

Evaluation of ovotoxicity induced by 7, 12-dimethylbenz[a]anthracene and its 3,4-diol metabolite utilizing a rat in vitro ovarian culture system

Orally active ghrelin receptor inverse agonists and their actions on a rat obesity model

Differences in Intestinal Hydrolytic Activities between Cynomolgus Monkeys and Humans: Evaluation of Substrate Specificities Using Recombinant Carboxylesterase 2 Isozymes

SUN11602-induced hyperexpression of calbindin D-28k is pivotal for the survival of hippocampal neurons under neurotoxic conditions

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