ENVR 432/TOXC 442/BIOC442 ENVR 432/TOXC 442/BIOC442 Biochemical & Molecular Biochemical & Molecular Toxicology Toxicology Induction of Metabolism by Induction of Metabolism by Toxicants Toxicants Instructor: Stephen S. Ferguson, Ph.D. e-mail: [email protected]
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ENVR 432/TOXC 442/BIOC442 Biochemical & Molecular Toxicology Induction of Metabolism by Toxicants Instructor: Stephen S. Ferguson, Ph.D. e-mail: [email protected].
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Induction and Inhibition of P450 in Mice Treated Induction and Inhibition of P450 in Mice Treated with PB or SKF525A: [with PB or SKF525A: [1414C-methyl]aminopyrineC-methyl]aminopyrine
Ser
rum
tria
zola
m (
ng/m
l)
Rifampin Effects on Triazolam DispositionRifampin Effects on Triazolam Disposition
Villikka et al., Clin Pharmacol Ther 1997;61:8-14.
Rifampin Placebo
Consequences of Cytochrome Consequences of Cytochrome P450 Enzyme InductionP450 Enzyme Induction
Consequences of Cytochrome Consequences of Cytochrome P450 Enzyme InductionP450 Enzyme Induction
• Aryl hydrocarbon receptor (AHR) is a basic helix-loop-helix (bHLH) protein belonging to the Per-Arnt-Sim (PAS) family of transcription factors
• It transcriptionally induces expression of hepatic CYP1A1, CYP1A2, and CYP1B1 , as well as several other genes, including some phase II metabolizing enzymes
• AHR ligands include PAHs and TCDD
AhR Signaling PathwayAhR Signaling Pathway
Cytoplasm Nucleus
9090
X
AhR
L
L
9090
X
L
9090
X
L
L
9090
X
L
or Arnt
From: Anne Mullen, Advanced Pharmacology, McMaster University, Ontario, CA
GR/Dex Role in Basal & Induced P450 GR/Dex Role in Basal & Induced P450 Expression via CAR/PXR (master regulator)Expression via CAR/PXR (master regulator)
Role of CAR/PXR in lipid metabolism, Role of CAR/PXR in lipid metabolism, synthesis, and uptakesynthesis, and uptake
Moreau et al. 2007 Mol. Pharmaceutics
PXR & CAR role in Glucose HomeostasisPXR & CAR role in Glucose Homeostasis
Molecular Basis for the Species Molecular Basis for the Species Differences in Enzyme InductionDifferences in Enzyme Induction
Rabbit
Human
Rat
0.1%
DM
SO
5M
PC
N
10M
Rifa
mpi
cin
10M
SR
1281
3
10M
DT
BA
CYP3A6
CYP3A4
CYP3A23
Species Differences in the Regulation Species Differences in the Regulation of CYP3A Enzymesof CYP3A Enzymes
Species Differences in the Regulation Species Differences in the Regulation of CYP3A Enzymesof CYP3A Enzymes
Species Differences in CYP2B Species Differences in CYP2B Induction by PhenobarbitalInduction by Phenobarbital
Species Differences in CYP1A Species Differences in CYP1A Induction by XenobioticsInduction by Xenobiotics
CYP1A1/2 Activity in Rat Hepatocytes as a Function of Treatment with Drug 'X'
0
100
200
300
400
500
600
700
800
900
1000
Contro
l (0.1
% D
MSO)
3-M
C 1µM
Drug '
X' 0.6µ
M
Drug '
X' 2µM
Drug '
X' 6µM
Drug '
X' 20µ
M
Ph
enac
etin
O-D
ealk
ylat
ion
(p
mol
/min
/mg)
CYP1A Activity in Dog Hepatocytes as a Function of Treatment with Drug 'X'
0
100
200
300
400
500
600
Contro
l (0.1
% D
MSO)
3-M
C 2µM
Drug '
X' 0.6µ
M
Drug '
X' 2µM
Drug '
X' 6µM
Drug '
X' 20µ
M
Phe
nace
tin
O-D
ealk
ylat
ion
(pm
ol/m
in/m
g)
CYP1A2 Activity in Human Hepatocytes as a Function of Treatment with Drug 'X'
0.0
0.2
0.4
0.6
0.8
1.0
1.2
Contro
l (0.1% D
MSO)
3-MC 2
µM
Drug 'X
' 0.2µM
Drug 'X
' 2µM
Drug 'X
' 6µM
Drug 'X
' 20µ
M
CY
P1A
2 A
ctiv
ity
(nm
ol/m
in/m
g)
Species Differences in CYP4A Species Differences in CYP4A Induction by Clofibric AcidInduction by Clofibric Acid
Rat Human
CTL 1 10 100 500 1000
CY
P4A
1 F
old
Ind
uct
ion
0
10
20
30
40
50
60
Clofibric Acid (µM)
Rat Hepatocytes Human Hepatocytes
Lauri
c aci
d 1
2-h
ydro
xyla
tion
Observations and QuestionsObservations and Questions• Significant species differences are observed
in response to inducers.
• All major subfamilies of inducible CYP’s (CYP1A, CYP2B, CYP3A, CYP4A) exhibit this behavior.
• What is the molecular basis of the species-specific responses?
• What is the significance of these differences to predicting human toxicity?
PXR ExpressionPlasmid
RXR PXR
PXRE Reporter Gene
Drug
Reporter Plasmid
Transfection Assay for P450 Transfection Assay for P450 Enzyme InductionEnzyme Induction
CV-1HuH7 cell
PXRRXR
Differential Activation of Differential Activation of Human,Human, Rabbit,Rabbit, andand RatRat PXR by CYP3A Inducers PXR by CYP3A Inducers
SummarySummary• Induction of metabolism is caused by many
structurally unrelated xenobiotics.• Induction occurs mainly by transcriptional
regulation of metabolizing enzymes and transporter proteins.
• Nuclear receptors mediate the induction response by most xenobiotics.
• Amino acid differences in the ligand-binding domain of the receptors are mainly responsible for the species differences in the induction of CYP450 enzymes.
Additional ReadingAdditional Reading• Parkinson, A.: Biotransformation of xenobiotics. In: Casarett and Doull’s
Toxicology. The Basic Science of Poisons. Sixth edition (edited by C.D. Klaassen). McGraw Hill, New York, 2001.
• Wang, H. and Negishi, M. (2003) Transcriptional regulation of cytochrome p450 2B genes by nuclear receptors. Curr Drug Metab. 4(6):515-25.
• Bertilsson, G., Heidrich, J., Svensson, K., Asman, M., Jendeberg, L., Sydowbackman, M., Ohlsson, R., Postlind, H., Blomquist, P. and Berkenstam, A. (1998) Identification of a human nuclear receptor defines a new signaling pathway for CYP3A induction. Proc. Natl. Acad. USA. 95:12208-12213.
• Blumberg, B., and Evans, R.M. (1998) Orphan nuclear receptors – new ligands and new possibilities. Genes Dev. 12:3149-3155.
• Geick A., Eichelbaum M., and Burk O. (2001) Nuclear receptor response elements mediate induction of intestinal MDR1 by rifampin. J Biol Chem. 276(18):14581-14587.
Additional ReadingAdditional Reading• Goodwin B., Hodgson E., and Liddle C. (1999) The orphan human
pregnane X receptor mediates the transcriptional activation of CYP3A4 by rifampicin through a distal enhancer module. Mol Pharmacol 56:1329-1339.
• Honkakoski P. and Negishi M. (1998) Regulatory DNA elements of phenobarbital-responsive cytochrome P450 CYP2B genes. J Biochem Mol Toxicol 12:3-9.
• Jones, S. A., Moore, L. B., Shenk, J. L., Wisely, G.B., Hamilton, G. A., McKee, D. D., Tomkinson, N. C. O., LeCluyse, E. L., Wilson, T. M., Kliewer, S. A. and Moore, J. T. 2000. The pregnane X receptor, a promiscuous xenobiotic receptor that has diverged during evolution. Mol. Endocrinol. 14: 27-39.
• Wang, H., and LeCluyse E. L. 2003. Role of orphan nuclear receptors in the regulation of drug metabolising enzymes. Clin. Pharmacokinet. 42: 1331-1357.