BIOTRANSFORMATION, Drug metabolism, detoxification

BIOTRANSFORMATION,Drug metabolism,detoxification Phase 2 conjugation

GSH conjugation acetylation sulfation Glucuronidation (80%) Conjugation with amino acids glycosylation 12% su

phase I phase II nucleophilic metabolites glucuronides sulfate esters X electrophilic metabolites GSH conjugates DNA, RNA, protein

Glucuronidation – UDP glucuronate – UDP-glucuronosyl transferases Ways of conjugation

Conjugation of salicylic acid

Enzyme and transporter in the ER membrane

Role of UGT-s in activation of drugs morphin steroids bile acids retinoids policyclic aromatic hydrocarbons heterocyclic aromatic amines

Hyperbilirubinemias unconjugated hyperbilirubinemias Gilbert disease Low UGT activity benign, 5-6 % of population treatment: inducer phenobarbital Crigler Najjar syndr. bilirubin encephalopathia, fatal

Hyperbilirubinemias Conjugated hyperbilirubinemias Transport of conjugates is disturbed Expression of MRP2 is depressed Dubin Johnson syndr. Rotor syndr.

Glucuronidation – UDP glucuronate – UDP-glucuronosyl transferases Sulfation – PAPS- sulfotransferases Ways of conjugation

Sulfate conjugation of coumarine

Glucuronidation – UDP glucuronate – UDP-glucuronosyl transferases Sulfation – PAPS– sulfotransferases GSH conjugation - GSH, acetyl CoA - GSH transferases Ways of conjugation

Biotransformation of acetaminophen

Glucuronidation – UDP glucuronate – UDP-glucuronosyl transferases Sulfation – PAPS– sulfotransferases GSH conjugation - GSH, acetyl CoA - GSH transferases Acetylation – acetyl CoA Amino acid conjugation – amino acids Methylation - SAM Ways of conjugation

Phisiological substrates: steroids Eicosanoids Fatty acids lipids hydroperoxides retinoids aceton (inducers ?) Xenogenic substrates (inducers ?) Ah receptor: aromatic hydrocarbon receptor intracellular receptors: CAR, PXR, VDR, FXR, RXR, HNF4 Overlapping substrate, inducer specificity

Biotranszformation reactions in intermediery metabolism „synthesis” synthesis synthesis synthesis synthesis Oxidation of aceton Bile acid bilirubin steroid hormones Synthesis of cholesterin Synthesis of (poly)unsaturated fatty acids prostaglandin, leukotriene „Maturation” of D vitamin chatecholamines conjugation conjugation conjugation conjugation conjugation

sulfo- transferase estron estron- sulphate Estron-sulphate estron P450 aromatase androstane-dion estron ligand reactivation by deconjugationl 2. phase: ligand inactivation by conjugation szteroid szulfatáz 1. phase: ligand activation by oxygenation

Consequences of Biotransformation inactive active drogs (imipramine) hormones (testosterone) vitamin (D vitamin) chemical carcinogenesis (nitrosamines) biosynthesis aceton glucose Synthesis of leukotrienes inactivation, „detoxification” toxicity Role of induction in regulation actíve inactive drogs, hormones (steroid, prostanoid)

Toxicity 1. dosis 5-10 different drugs/patient Logarythmic increase of adverse drug effects with the number of drugs nutrition Intracellular cofactors NADPH UDPGA PAPSGSH vitamines alkoholism

Toxicity 2. Biotransformation enzymes in livers of newborns Treatment of mothers at delivery chloramphenicol morfin gray baby szindróma Hyperbilirubinaemia of newborns low UGT Aspecific enzyme systems Competition of substrates Addition of various drugs Changes in induction e.g. Coumarine

Toxicity 3. diabetes mellitus Liver diseases Genetic differences Treatment of populations INH (isoniazid) N acetyl transferase Pathological circumstances ageing Gender differences

NAD NAD NADH NADH H2O2 H2O ethanol cytosol SER peroxisome NADPH ADH alcohol dehydrogenase CYP2E1 catalase NADP KM:8-10 mM KM:0,2-2 mM acetaldehid mitokondrium aldehyde dehydrogenase acetate

NAD NAD NADH NADH H2O2 H2O → stimulated metabolism of other drugs ethanol cytosol SER peroxisome NADPH ADH alcohol dehydrogenase CYP2E1 catalase NADP KM:8-10 mM KM:0,2-2 mM acetaldehid mitokondrium ↓ Fatty liver aldehyde dehydrogenase acetate → acetaldehyde toxicity autoimmune pathology

BIOTRANSFORMATION, Drug metabolism, detoxification