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Metabolism
•Chemical transformaion of xenobiotics•Occurs in mostly in liver (enzymatic prosesses)•Convertion into more hydrophil. subst. - excretion urine•May convert procarciogenics into cytotox., muthagenic compounds•Different persons may have differences in methabolism (genetic diff., physiol. factors)•Methabolism of one xenobiotic may influence metab. of amother
Xenobiotics•Drugs•Other foreign non-essential compounds
Metabolism in non-hepatic tissue•Intestine mucosa•Kidney•Lung•Bacteria in GI-tract
First-pass metabolism:Xenobiotic metabolized before reachinggeneral circulation
First-pass metabolism:Xenobiotic metabolized before reaching general circulation
A) Metab. lungs (inhaled subst)Intestine mucosa, GI bacteria
B)
GI Liver
General Circulation
Absorb under tung
Absorbfrom rectum
Pathways of metabolismPhase 1: Biotransformation
Attachment of new functional groups, transformation of exist. funct. groupsoxidation, reduction, hydroxylation, hydrolysis etc.
Phase 2: Conjugation. Masking of an exist. funct. group by for instance acetylation, glycosylation, attachment amino acid etc
More hydrophilic drug
Renal excretion
O OHHO
N CH3
Morphine
Demethylation
Phase 1 O OHHO
NHConjugationglucuronic acid
Phase 2 O OHO
NH
O OHCO2H
OHHO
Phase 1Metabolism by cytochrome P450 enzyme systhem (CYP450)
•Located in endoplasmatic reticulum (liver and other cells)•Electron transport systhem - oxidation, monooxygenase•Heme protein + flavoprotein•Capablee of oxidation - many differen xenobiotics
N
NN
N
Fe3+
S
Cystein
H O H
CHEMICAL REVIEWSVolume 104, Issue 9 (September 8, 2004)3947-3980 Mechanism of Oxidation Reactions Catalyzed by Cytochrome P450 EnzymesBernard Meunier, Samuël P. de Visser, and Sason Shaik<http://dx.doi.org/10.1021/cr020443g>http://dx.doi.org/10.1021/cr020443g
Heme protein Fe3+
Heme protein Fe2+
FMN
FMNH2
Flavoprotein
Flavoprotein
ox. formred. form
red. form ox. formNAD
NADHred. form
ox. form
Substrate-red. form
Substrate-ox.form
N
N
N
NHH3C
H3C
O
OH OH
OHOHH
H
OPO3 2-
Flavin mononucleotide
FMN
N
HN
NH
NHH3C
H3C
O
OH OH
OHOHH
H
OPO3 2-
FMNH2N
N N
NNH2
O
OHHO
OP
O
OOH
P
OO
OHHO
N
OHO
O
NH2
NAD
N
N N
NNH2
O
OHHO
OP
O
OOH
P
OO
OHHO
N
OHO
O
NH2
NADH
H H
Nicotinamid adenine dinucleotide
CYP450 families and sub-familiesFamily 1:
CYP1A1Aromatic hydrocarbon hydroxylase, metabol. PAH etc.
O OHOH
More hydrophilicnot tox.Nu
OHNu
CYP1A2Ox of arylamines, nitrosamines, aromatic hydrocarbons
Family 2:CYP2A6CYP2B6CYP2CCYP2D6: Often enantioselective, lipophil. aminesCYP2E1: Halogenated hydrocarbons, other org solvents
Family 3:CYP3A4
CYP450 / Mechanisms of metobolic transformations
CYP450
Fe3+
CYP450
Fe3+
CYP450
Fe2+
R-H
CYP450
Fe2+
R-H
O2
CYP450
Fe3+
R-H
O2
R-H
e
O2
NADPH
CYP450
Fe3+
R-H
O2
2 H
H2O
CYP450
Fe5+
R-H
O
CYP450
Fe4+
R
OH
R-O-H
R-HCYP450
Fe3+
R
OHH
H=
+H2O
Hydroxylation of alkaneDehydrogenation of alkane
R-CH3CYP450 R-CH2OH
Other enzymesR-CO2H
Fe5+ O
Alkene, aromaticπ-complex
Fe4+ O
Radicalσ-complex
Fe3+
H
OH
Allylic alchohol
Fe3+ O
RR
O
R
R
O
1,2 migration
Proposed mech. ox of alkenes
alkynes
OH2O R
OOH
R
R
Fe3+
Fe3+ O
R
Fe3+ O
R RO
Proposed mech. ox of aromatics
Fe5+ O
Fe4+ OFe3+ O
Fe3+
O
R R
R R
RR
R RR=H
Fe3+
Fe3+
O H H
taut
HO
Fe5+ O Fe4+ OH
XR
H
XR
XR
Fe3+
XR
OH
i.e. hemiacetal
O+ HX-R
Fe4+ OH Fe3+
XR
H Oi.e. N oxide
Proposed mech. react. on heteroatom cont. compounds
N, O, S dealkylationcleav. of small alkylgroups (Me)
Dehalogenation: HX + carbonyl comp.
Proposed mech. react. on heteroatom cont. compounds
Fe5+ O Fe4+ OH
NR
H
NR
NR
Fe4+ OH Fe3+
NR
H O
NR''
R
R'
O
Stable if R, R' R''≠H
NH
H
R'
ON
OH
H
hydroxylamine
N-oxide
NH
R
R'
ORearrang.
N
OHRR'
hemiaminal
ON RR'
H
N
OH
nitroso comp.
sulfide ox, see FMO
CYP450 Induction / inhibition by xenobiotics
Xenobiotics may enhance metabol. of them selvs as well as other comp. taken at the same timeInduce transcript CYP450 mRNA - Synth. CYP450 enzymes (enzyme induction)•Drugs•Ethanol•Organic solvents •Components in cig. smoke•
NH
OH
St. Johns Worth (Johannesurt, prikkperikum)
OH
HO
O OH
R
O OHOH
HO
R=H: Hypericin
R=OH Pseudohypericin
CYP450 InhibitorsReversible CYP enzyme inhibitors: Several drugsex. antimycotic azoles
Squalene
Squalene epoksidase
O
Squalene epoksid-syklase
HOLanosterol
Lanosterol14a-demetylase
Antimycotic azoles
HOErgosterol
HO
H
H
HO
KolesterolH
H
H
Antimycoticallylamines
Cell wall component fungi
N N
Cl
KlotrimazoleCanesten etcCYP450:
CYP450 InhibitorsComplexation inhibitorsex. metabolites from alkylamines
R-NMe2
AlkylamineNo inhib. activity
CYP450R-N=O
NitrosoalkaneIrreversible complexation with Fe(II) heme in CYP sub families
Mechanism based inhibitors (suicide inhib)ex. alkynes
CYP450
FeO3+ O
NH2-EnzymeR N
H
OEnzyme
H2O ROOH
R
R
R
HO
H
HH
OH
Ethynyl estradiol
Phase 1 react. not involving CYP450
microsome: Artefactual spherical particle, not present in the living cell, derived from pieces of the endoplasmic reticulum present in homogenates of tissues or cells: microsomes sediment from such homogenates when centrifuged at 100 000 g and higher: the microsomal fraction obtained in this way is often used as a source of mono-oxygenase enzymes.
Other microsomal enzymesAzoreductase
Nitroreductase
Flavinmonooxygenase-FMO (N and S-ox.)
Peroxidases
NN NH2
SO
OH2N
H2NNH2S
O
OH2N
Prontocil Sulfanilamide
R NO2 R NH2
Flavinmonooxygenase-FMOCont. FAD
N
N
N
NHH3C
H3C
O
OH OH
OHOHH
H
OPO3 2-
Flavin mononucleotide
FMN
N
HN
NH
NHH3C
H3C
O
OH OH
OHOHH
H
OPO3 2-
FMNH2
N
N
N
NHH3C
H3C
O
OH OH
OHOHH
H
O P OO
OH
O
OHO O
HO OH
NN
N
N
NH2
FAD
N
HN
N
NHH3C
H3C
O
ORFADH2
Flavin adenine dinucleotide
N
N
N
NHH3C
H3C
O
OH OH
OHOHH
H
OH
Riboflavin(Vit B2)
N
N N
NNH2
O
ORHO
OP
O
OOH
P
OO
OHHO
N
OHO
O
NH2
N
N N
NNH2
O
ORHO
OP
O
OOH
P
OO
OHHO
N
OHO
O
NH2
NADH
H H
Nicotinamid adenine dinucleotide
NADR=H
R=Phosphate: NADP+, NADPH
N
N N
NNH2
O
OHHO
HO
Adenine(Vit. B4)
N
CO2H
Nicotinic acid / Niacin(Vit. B3)
Flavinmonooxygenase-FMO
N
N
N
NHH3C
H3C
O
OR
H2O
N
HN
N
NHH3C
H3C
O
OR
OH
N
HN
N
NHH3C
H3C
O
OR
OOH
FAD
Substrate Substrate-O
N
HN
NH
NHH3C
H3C
O
OR
FADH2
O2
NADPH
NADP+
R OO
H
NuPeroxidePeracid
O Nu
N-oxideSulfoxide
+ ROH
•Amine: ox. to N-oxide / hydroxylamine•Sulfide: ox to sulfoxide , furter to sulfone
•Thiol:
Ox of soft Nu
R-SH R-S-S-R R-S-S-R
O
Non-microsomal enzymes•Enzymes in mitokondria•Enzymes in soubile tissue fractions
R-OH
prim or sec.
Alchohol dehydrogenase(NAD cont.)
aldehyde / ketoneR
O
H
Aldehyde dehydrogenaseR
O
OH
Alcohol dehydrogenase Aldehyde dehydrogenaseCH3OH HCO2HCH2O
SlowEtOH cometitive substr.
rel. fastTox. effects:AcidosisBlindness
HN
NH
NH
HN
O
O
NH
Tetrahydrofolate
NH
O CO2H
CO2HHN
NH
NH
HN
O
O
N
NH
O CO2H
CO2H
OH
HCO2H
Dietary folic acid
10-Formyl-THF dehydrogenase
CO2
Non-microsomal enzymes (Phase 1)
Molybdenum Hydroxylases•Aldehyde oxidase•Xantine oxidase•Xantine dehydrogenase
Xanthine oxidaseElectron transfer: FAD - Fe2S2ˇI - Fe2S2ˇII - Moco - Substrate
Active form
Cont. Mo in cat. siteCont FAD and 2 Fe/s clustersUse H2O not O2
•Aldehyde oxidase
R H
O
R OH
O
N
Aza heterocycle
N OH NH
O
N
N N
N
H2NAcO
AcO
FamciclovirAntiviral (Herpes etc)Pro-drug
Aldehyde oxidaseEsterase / hydrolysis HN
N N
N
H2NHO
HO
O
Penciclovir
•Xantine oxidase•Xantine dehydrogenase (requires NAD+)
xanthine oxidoreductase
HN
N
O
NH
N
Hypoxanthine
HN
NH
O
NH
N
Xanthine
OHN
NH
O
NH
HN
Uric acid
OO
HN
N
O
NH
N
Allopurinol
HN
NH
O
NH
N
AlloxanthineInhib. enzyme
O
Treatment of gout (podagra)
Non-microsomal enzymes (Phase 1)
Oxidative deamination of amines•Monoamine oxidase (MAO)•Diamine oxidase (DAO)
R-CH2-NH2 + O2 [R-CH=NH] R-CHO + NH4+
NH
NH2
HO
Serotonin5-Hydroksotryptamin (5-HT)
MAONH
O
HOSerotonine:
•Neurotransmittor; temp. control, mood•Depresion: Low serotonine activity•MAO Inhibitors - Older antidepresants(low selectivity)
N NH
O O
Cl
MoklobemidAurorix® Moklobemid®
Other MAO substrates:
HN
OH
HO
HO H
Noradrenaline
NH2HO
HODopamine
Not MAO substrates (subst at α-C):
NH2
(S)-amfetaminLow dopamine conc. ≈ Parkinston
Active transport re-uptake transmittor(not Acetylcholine)
Non-selective monoamine re-uptake inhib.Tricyclic antidepressants
SSRI (selective serotonine re-uptake inhib.)“Lykkepiller” Prozac etc (Fontex)
NH2HO
HO
NH2HO
HO
OH
DA NE
HO
NH
NH2
5-HTα
β
β-Arylaminer
Y
X
R Z
N
αβ
β-Arylam
≈ β-Arylamin
Stor gruppe / sterisk hindingHindrer reopptak
O
F3C
NHH2N
Non-microsomal enzymes (Phase 1)
Oxidative deamination of amines•Monoamine oxidase (MAO)•Diamine oxidase (DAO)
Oxidize diamines, histamine NH2
HN
N
MAO like enzymes in plants
N
N NH
NHN
BAPCYtokinin (Plant growth hormone)
N
N NH
NNH2
O
+ N
N NH
N N
N NH
N N
N NH
N
CK analogs, Anders Bråthe
Non-microsomal enzymes (Phase 1)
Miscellaneous react.
ReductionsS S RR R-SH
R-SO-R R-S-R (i.e.DMSO)
R-CO-R R-CHOH-R
R-NO-R R-NH-R
R-CH=CH-R R-CH2-CH2-R
R-OH R-H
Ar-OH Ar-H
β-OxidationR-CH2-CH2-CO2H R-CH2-CH2-CO-S-CoA R-CO2H
+
CHa-CO-S-CoA
Acetyl-CoA
R-CO-S-CoA
N
N N
NNH2
O
OHPO3
OPOPOHN
O OO OOH
O
HNSO
O
Acetyl-CoA
Nu
Hydrolysis - EsterasesO
OR R'
O
NR R'
R''
O
OHR
Esters as pro-drugs
Pathways of metabolismPhase 1: Biotransformation
Attachment of new functional groups, transformation of exist. funct. groupsoxidation, reduction, hydroxylation, hydrolysis etc.
Phase 2: Conjugation. Masking of an exist. funct. group by for instance acetylation, glycosylation, attachment amino acid etc
More hydrophilic drug
Renal excretion
O OHHO
N CH3
Morphine
Demethylation
Phase 1 O OHHO
NHConjugationglucuronic acid
Phase 2 O OHO
NH
O OHCO2H
OHHO
Phase 2: Conjugation Most comp. excreted as cojugates, ionic, hydrophilic groups added,
most common glucuronation
•Glucuronic acid conjugation•Sulfate conjugation•Conjugation with amino acids•Acetylation•Glutathione conjugation•Methylation
Phase 2: Conjugation •Glucuronic acid conjugation
Substrates:
•Alchohols
•Phenols
•Amines
•Sulfides
•Carboxylic acids
•1,3-Dicarbonyls
OHO
OHOHOH
OH
Glucose
OCO2H
OHOOH
OH
UDP-Glucuronate
P P O
HO OH
N
NO
O
RXH
OCO2H
OHOHOH
X R
RXH: Xenobiotic / Phase 1 metabolite
OCO2H
OHOHOH
X R
Kidney Urive excretion
Bile (galle)
RXH
OCO2H
OHOHOH
X RIntestine
RXH
Poor reabsorb.
OCO2H
OHOHOH
X R
Reabsorb
Entro-hepatic recyclingImportant for many hormones etc
OCO2H
OHOOH
OH
UDP-Glucuronate
P P Uridine
OH
OCO2H
OHOHOH
OR
O
R
O
Relatively labile
HydrolysisO
H R
O
HNu Macromolecule
Nu MacromoleculeR
O
Altered protein (hapten)Unwanted immune responce / allergic react.
Acyl migr.
ex. NSAIDs
Ar-NH2Phase 1
Ar-NH-OH Ar-NH-OH-Glu
UrinepH<7
Ar-NH-OH
H2O
Ar-N
Nitrene(c.f. carbene)
Bladder cancer
Phase 2: Conjugation •Sulfate conjugation: Phenols, (alcohols, N-compounds)
ATPO NPO
O
OHSO
OO
HO3P OH
PAPS
N
N
N
NH2 HO
OSO
O
O
•Conjugation with amino acids (Most ofthen Gly): Carboxylic acids
R-CO2H
O
R S CoAH2N CO2H O
R NH
CO2H
No tox. conjugates known
Phase 2: Conjugation •Acetylation: N-compounds
O
H3C S CoANH NO
•Glutathione conjugation: Electrophilic species
HS NH
HN
O CO2H
ONH2
CO2HR-X + S NH
HN
O CO2H
ONH2
CO2HR
Glutathione conjugate
S OH
HN
O
O
R
Mercapturic acid der.
•Alkylhalides•Epoxides•Michael acceptors etc
may otherwisealkylate biomolecules
Br
BrRSH
Br
SS R
Nu(i.e. DNA)
HN
O
OHParacetamol
Phase 1CYP450
H2O
N
O
O
HS-R
O
HN
O
SRH
HN
O
OHSR
H2N Liver Protein
Liver dammage
Phase 2: Conjugation •Methylation (O and N- compd) Prod. may be more lipophilicReact. mainly aimed at converting endogenic compouds
O.Metylation by COMT (catecol O-methyl transferase)
ATPO N
HO OH
N
N
N
NH2 HO
OH3C
SAM (S-adenocyl methionine)
SH3C
CO2HH2N
HO
HO
SAM may also methylate N-comp.
HO
HOOH
NH2
Noradrenaline(Norepinephrine)
MAO
HO
HOOH
CHOAldehyde Dehydrogenase
HO
HOOH
CO2H
COMT
HO
H3COOH
NH2
COMT
HO
H3COOH
CO2HMAO Aldehyde Dehydrogenase
OHNH2
EphedrineAdrenerg agonist
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