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The response of mosquito larvae to plant toxins found in their breeding sites was investigated by using Aedes aegypti larvae and toxic arborescent leaf litter as experimental models. The relation between larval tolerance to toxic leaf litter and cytochrome P450 monooxygenases (P450s) was examined at the toxicological, biochemical and molecular levels. Larvae pre-exposed to toxic leaf litter show a higher tolerance to those xenobiotics together with a strong increase in P450 activity levels. This enzymatic response is both time- and dose-dependent. The use of degenerate primers from various P450 genes (CYPs) allowed us to isolate 16 new CYP genes belonging to CYP4, CYP6 and CYP9 families. Expression studies revealed a 2.3-fold over-expression of 1 CYP gene (CYP6AL1) after larval pre-exposure to toxic leaf litter, this gene being expressed at a high level in late larval and pupal stages and in fat bodies and midgut. The CYP6AL1 protein has a high level of identity with other insect's CYPs involved in xenobiotic detoxification. The role of CYP genes in tolerance to natural xenobiotics and the importance of such adaptive responses in the capacity of mosquitoes to colonize new habitats and to develop insecticide resistance mechanisms are discussed.
Insect Biochem Mol Biol 2006 May
PMID:Involvement of cytochrome P450 monooxygenases in the response of mosquito larvae to dietary plant xenobiotics. 1665 Nov 88

Human liver microsomes contain multiple forms of cytochrome P450 (CYP or P450) that catalyze oxidation of a number of xenobiotic and endobiotic chemicals. Individual P450 forms have unique, but overlapping, substrate specificities. It is necessary to determine which P450s play more important roles in the oxidation of these chemicals. A good way of studying the roles of P450s in the metabolism of these chemicals is to reconstitute the activities by mixing purified P450s and nicotinamide adenine dinucleotide phosphate-cytochrome P450 reductase in the membranes of phospholipid vesicles. However, our studies have suggested that the conditions for reconstitution of activities vary depending on the P450 enzymes used. For example, some reactions catalyzed by P450s require cytochrome-b5 and a particular phospholipid environment for exerting their full catalytic activities. In this chapter, we describe optimal conditions that have been determined in our laboratories for the reconstitution of drug oxidation activities catalyzed by purified human CYP1A2, 2C9, 2E1, and 3A4.
Methods Mol Biol 2006
PMID:Cytochrome P450 reconstitution systems. 1671 74

Transcriptional activation of CYP gene expression by xenobiotics may have fundamental effects on body physiology. It may result in the altered pharmacokinetics of other chemicals in the body, both xenobiotic and endogenous substrates, potentially altering their effects. This may often result in no observable clinical effect, but in a significant number of cases these interactions lead to altered physiology or failure of a therapeutic drug. It is therefore important to be able to screen novel chemical entities for their ability to activate CYP gene expression. In addition, through mechanistic studies of how such transcriptional activation occurs, the ability to predict and avoid such potential interactions is improved. Reporter gene assays provide a simple, high-throughput methodology for examining the transcriptional activation of CYP gene expression by xenobiotics. They are suitable for use in screening as well as mechanistic studies and are of use in both the drug discovery/development and research arenas.
Methods Mol Biol 2006
PMID:Use of reporter genes to measure xenobiotic-mediated activation of CYP gene transcription. 1671 5

Cytochromes P450 (CYPs) form a gene superfamily involved in the biotransformation of numerous endogenous and exogenous natural and synthetic compounds. In humans, CYP3A4 is regarded as one of the most important CYPs due to its abundance in liver and its capacity to metabolize more than 50% of all clinically used drugs. It has been suggested that all CYP3s arose from a common ancestral gene lineage that diverged between 800 and 1100 million years ago, before the deuterostome-protostome split. While CYP3s are well known in mammals and have been described in lower vertebrates, they have not been reported in non-vertebrate deuterostomes. Members of the genus Ciona belong to the tunicates, whose lineage is thought to be the most basal among the chordates, and from which the vertebrate line diverged. Here we describe the cloning, exon-intron structure, phylogeny, and estimated expression of four novel genes from Ciona intestinalis. We also describe the gene structure and phylogeny of homologous genes in Ciona savignyi. Comparing these genes with other members of the CYP clan 3, show that the Ciona sequences bear remarkable similarity to vertebrate CYP3A genes, and may be an early deuterostome CYP3 line.
Mol Phylogenet Evol 2006 Sep
PMID:Isolation and phylogeny of novel cytochrome P450 genes from tunicates (Ciona spp.): a CYP3 line in early deuterostomes? 1677 37

Cytochromes P450 (CYPs) are important enzymes involved in the regulation of hormone synthesis and in the detoxification and/or activation of xenobiotics. CYPs are found in virtually all organisms, from archae, and eubacteria to eukaryota. A number of endocrine disruptors are suspected of exerting their effects through disruption of normal CYP function. Consequently, alterations in steroid hormone metabolism through changes in CYP could provide an important tool to evaluate potential effects of endocrine disruptors. The aim of this study was to investigate the potential effects of the known CYP modulator, benzo(a)pyrene (BaP), on the testosterone metabolism in the invertebrate Neomysis integer (Crustacea; Mysidacea). N. integer were exposed for 96 h to 0.43, 2.39, 28.83, 339.00 and 1,682.86 microg BaP L(-1) and a solvent control, and subsequently their ability to metabolize testosterone was assessed. Identification and quantification of the produced phase I and phase II testosterone metabolites was performed using liquid chromatography coupled with multiple mass spectrometry (LC-MS2). Significant changes were observed in the overall ability of N. integer to metabolize testosterone when exposed to 2.39, 28.83, 339.00 and 1,682.86 microg BaP L(-1) as compared to the control animals.
Comp Biochem Physiol B Biochem Mol Biol 2006 Aug
PMID:Testosterone metabolism in Neomysis integer following exposure to benzo(a)pyrene. 1681 59

The effect of xenobiotics (phenobarbital and atrazine) on the expression of Drosophila melanogaster CYP genes encoding cytochromes P450, a gene family generally associated with detoxification, was analyzed by DNA microarray hybridization and verified by real-time RT-PCR in adults of both sexes. Only a small subset of the 86 CYP genes was significantly induced by the xenobiotics. Eleven CYP genes and three glutathione S-transferases (GST) genes were significantly induced by phenobarbital, seven CYP and one GST gene were induced by atrazine. Cyp6d5, Cyp6w1, Cyp12d1 and the ecdysone-inducible Cyp6a2 were induced by both chemicals. The constitutive expression of several of the inducible genes (Cyp6a2, Cyp6a8, Cyp6d5, Cyp12d1) was higher in males than in females, and the induced level similar in both sexes. Thus, the level of induction was consistently higher in females than in males. The female-specific and hormonally regulated yolk protein genes were significantly induced by phenobarbital in males and repressed by atrazine in females. Our results suggest that the numerous CYP genes of Drosophila respond selectively to xenobiotics, providing the fly with an adaptive response to chemically adverse environments. The xenobiotic inducibility of some CYP genes previously associated with insecticide resistance in laboratory-selected strains (Cyp6a2, Cyp6a8, Cyp12d1) suggests that deregulation of P450 gene expression may be a facile way to achieve resistance. Our study also suggests that xenobiotic-induced changes in P450 levels can affect insect fitness by interfering with hormonally regulated networks.
Insect Biochem Mol Biol 2006 Aug
PMID:Xenobiotic response in Drosophila melanogaster: sex dependence of P450 and GST gene induction. 1687 10

The function of CYP4 genes in insects is poorly understood. Some CYP genes are up-regulated by ecdysteroids and a number of Cyp4 genes in Drosophila melanogaster have been shown by microarray to be down-regulated when the ecdysteroid titre is high, suggesting hormonal regulation. Here, we report the utilization of certain cloned CYP4 cDNAs/fragments to probe their developmental/tissue expression in the Lepidopteran, Spodoptera littoralis, including the effects of ecdysteroid receptor agonists (bis-acyl hydrazines). CYP4L8 is expressed essentially throughout the final larval instar of S. littoralis and, together with CYP4M12, is down-regulated by agonist. Furthermore, expression of these genes occurs in midgut, but is undetectable in brain, fat body, and integument. Similarly, in D. melanogaster, Cyp4ac1, Cyp4ac3, Cyp4ad1 and Cyp4d1 gene expression is drastically down-regulated by ecdysteroid agonist. The significance of the results is discussed in relation to the plausible functions of the CYP4 genes in Lepidoptera and mechanisms of down-regulation.
Insect Biochem Mol Biol 2006 Oct
PMID:Expression and down-regulation of cytochrome P450 genes of the CYP4 family by ecdysteroid agonists in Spodoptera littoralis and Drosophila melanogaster. 1702 46

1. We used an in vitro screening procedure and studies with individual human liver microsomes and cDNA-expressed CYP enzymes to investigate the metabolism of the putative neuroprotective drug N-methyl,N-propargyl-2-phenylethylamine (MPPE) to N-methylphenylethylamine (N-methylPEA) and N-propargylphenylethylamine (N-propargylPEA). 2. An electron-capture gas chromatographic procedure previously developed in our laboratories was used to measure the quantities of N-methylPEA and N-propargylPEA formed in the experiments with a single donor human liver microsome panel and cDNA expressed single CYP enzyme systems. The data were fitted to nonlinear regressions using Prism to determine kinetic constants. The results from a fluorogenic screen determined which cDNA-expressed single CYP enzymes were investigated. 3. CYP2B6, CYP2C19, and CYP2D6 all contributed to the formation of N-methylPEA, while only CYP2B6 catalyzed the formation of N-propargylPEA. The K (M) and V (max) values for N-propargylPEA formation were 290 +/- 70 microM and 139+/-16 ng/mL/min. The values for formation of N-methylPEA were not determined from these experiments due to the complexity of fitting the data to a three-variable equation, but data on the time course of N-methylPEA formation are presented. 4. Catabolism of MPPE to N-methylPEA and N-propargylPEA is catalyzed by CYP enzymes. CYP2B6, 2C19 and 2D6 all contribute to the depropargylation of the parent compound, but only CYP2B6 also catalyzes demethylation. CYP2C19 was found to be the most active with respect to generation of N-methylPEA.
Cell Mol Neurobiol 2007 Mar
PMID:Metabolism of N-methyl, N-propargylphenylethylamine: studies with human liver microsomes and cDNA expressed cytochrome P450 (CYP) enzymes. 1716 Apr 83

Although several drug targets are identified, current strategies in therapy do not take into account that patients vary in their response to drugs, both with respect to efficacy and toxic side effects. Whereas both clinical and histopathologic predictors of prognosis are established in some diseases, a better understanding of the molecular mechanisms that determine treatment response should play an important role in the development of individualized medicine. Treatment optimization will rely on the ability to adjust treatment algorithms for use in the individual patient based on the identification and validation of the factors that critically determine treatment outcomes, including diagnosis, disease phase and characteristics, organ functions, age, and gender. Although the analysis of a single genetic marker (e.g., CYP polymorphisms) may yield significant information that predicts drug response, the prediction obtained from the analysis of several genetic and epigenetic markers is potentially more powerful in selecting patients for effective therapy, whereas sparing those who would not respond or would suffer undesirable side effects. In this chapter, several relevant examples are presented.
Methods Mol Biol 2007
PMID:Treatment options and individualized medicine. 1717 21

We report a comprehensive examination of rat hepatic CYP1A2 and CYP2E1 ontogeny. We compare the data to human data to determine the rat's capacity as a model to identify CYP-mediated mechanisms underlying age-dependent differences in susceptibility to toxicity. We evaluated CYP expression using real-time RT-PCR, immunoblot and immunohistochemistry, and specific probe activity in male rat livers (n = 4) at critical developmental life stages. CYP2E1 mRNA expression was low at birth, then increased rapidly to peak prior to weaning. CYP1A2 transcript levels remained very low postnatally and then increased dramatically to reach peak expression during weaning. Immunoreactive CYP1A2 and CYP2E1 was first detected at postnatal day 3 (PD3), and reached 50% of adult levels after weaning, and adult levels by puberty. CYP1A2 and CYP2E1 probe activity (pmol/(min mg)) was detected at PD3 and peaked during weaning and late neonatal period, respectively. CYP activity fell to adult values by puberty, a pattern that closely mirrored the temporal changes in mRNA but not protein. An increasing preferential localization of CYP1A2 and CYP2E1 immunoreactivity in perivenous hepatocytes was observed with maturation to adulthood. Although differences in CYP1A2 and CYP2E1 ontogeny between rats and humans exist, knowledge of these differences will aid interspecies extrapolation of developmental toxicokinetic data.
J Biochem Mol Toxicol 2007
PMID:Ontogeny of hepatic CYP1A2 and CYP2E1 expression in rat. 1736 40


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