Drug Metabolism Flashcards
What is the primary role of metabolism?
What are the effects of metabolism?
to inactivate and detoxify pharmalogically active drugs and xenobiotics
Def: conversion of a drug to drug metabolite
although sometimes it can activate certain inactive compounds (e.g. Prodrugs)
Drug metabolism can significantly affect the intensity and duration of a drug’s pharmacological action
Drugs are mostly what type of molecule? How does metabolism alter this?
Drug metabolism primarily converts lipophilic drugs into more hydrophilic polar metabolites
this will enhance drug excretion and elimination
most drugs are lipophilic in nature (must be to get across membrane) problem is its easy to get into cell but hard to get it out of the body so metabolism works to make it to more hydrophilic compound so its more likely to get excreted
Describe how the lipophilic nature of most drugs will affect its excretion in the kidney. What are the implications of this?
Most drugs are lipophilic and readily reabsorbed in the kidney
Lipid soluble drugs
are readily reabsorbed
in the kidney tubules
(influenced by pH, urine flow)
Unbound drug molecules
less than 20,000 Da are filtered through the glomerulus
Some drugs are actively transported into the renal tubules - back in systemic circulation can exhibit their properties, could accumulate, toxicity
Water soluble drugs
are excreted in the urine
What are the consequences of drug metabolism for the following? Describe if it applies to all drugs or some and provide an example when possible:
Lipophilic drug
Active Drug
Prodrug
Toxic Xenobiotic
Lipophilic drug —polar drug (all drugs)
Active drug —inactive metabolites (most drugs) or active metabolites (diazepam)
Prodrug — active drug metabolite
Toxic Xenobiotic —non-toxic metabolite
(changes are increasing water solubility, potential for excretion in urine or bile)
What is the major organ site of drug metabolism?
What other organs are involved?
The major organ site of drug metabolism is the liver, although the intestine also plays a major role
- other cell types involved include skin, lung, kidney & brain
- however, drug metabolism enzymes are expressed in essentially all cells
What are the subcellular sites of drug metabolism?
Where in the cell are the main enzymes found?
CYP450 and some other enzymes (e.g. glucucronosyltransferases) are associated with the endoplasmic reticulum
- most other metabolic enzymes are present in the cytoplasm
Define first pass effect and explain this concept.
GI + Hepatic metabolism = FIRST PASS EFFECT
Drugs administered orally are typically absorbed in the GI tract
A number of drug metabolizing enzymes (e.g. CYP3A4) are expressed in the GI tract and can metabolize absorbed drugs
Absorbed drugs and their metabolites are then transported via the portal veins to the liver where they can undergo further metabolism
In some cases only a small fraction of administered drug reaches the systemic circulation- LOW BIOAVAILABILITY
Briefly describe Phase I and Phase II of drug metabolism.
lipophilic drug undergoes phase I to become a drug metabolite (more polar compound, less active, more active, or activity is unchanged)
then that drug metabolite (with its added functional group) will undergo Phase II in which its functional group is conjugated and it becomes a drug-conjugate (water soluble, inactive)
Drugs can be excreted in urine or bile after phase I but most are excreted after Phase II
What are specific Phase I reactions?
Describe the result of these reactions.
- Oxidation, Reduction, Hydrolysis reactions
- Introduces (or unmasks) a small functional group on the drug e.g. –OH
- Converts drug to a more polar metabolite
- Alters the function of a drug (decreased, increased, unchanged)
Describe phase II.
- Conjugation reactions introduce a large highly polar endogenous functional group onto the drug metabolite
e. g. glucuronic acid, sulfuric acid, acetic acid, amino acid - Conjugation often occurs via the functional group created by Phase I reactions
- Drug-conjugates are typically inactive
- Create a highly polar drug-conjugate (more H2O soluble)
- Conjugation enhances drug excretion
almost exclusively the result of phase II is loss of activity (some exceptions… where phase II can result in active metabolite ex is morphine)
main process of Phase II is further inactivation of drug and ability to make drug more water soluble
What is an example of a drug that undergoes no metabolism, and is excreted unchanged?
metformin
What enzymes are involved in the oxidative reactions of Phase I?
Oxidative reactions -
approx 75% of all phase I reactions carried out by cytochrome P450 (CYP450)
others include: flavin-containing monoxygenases, monoamine oxidase, alcohol dehydrogenase, aldehyde dehydrogenase
What enzymes are involved in the reduction reactions of Phase I?
NADPH-cytochrome P450 reductase
alpha ketoreductases
What enzymes are involved in the hydrolysis reactions of Phase I?
epoxide hydrolases
carboxylesterases
What type of reaction do the following carry out?
carboxylesterase, aldehyde dehydrogenase and alcohol dehydrogenase,
carboxylesterase- hydrolysis reaction
alcohol and aldehyde dehydrogenase - oxidative
Describe the cytochrome p450 enzymes
microsomal-mixed functional oxidases
A superfamily of enzymes involved in biosynthesis and metabolis
Cytochrome p450 enzymes are microsomal-mixed functional oxidases. Explain what this means.
Why are they called cytochrome p450?
microsomal- membrane bound enzyme located on ER
mixed function- enzyme oxidizes two substrates simulataneously
oxidase- catalyzes an oxidation-reduction reaction involving O2
cytochrome p450- contains an oxygen binding heme group, pigment purified from liver with characteristic 450nm absorption peak in the presence of carbon monoxide
What purpose does the heme group in cytochrome p450 enzymes serve?
Contains an iron-containing heme cofactor to facilitate transfer of molecular oxygen to drug substrate
The cytochrome p450 superfamily are involved in biosynthesis and metabolism.
What kind of substrates do they metabolize?
How are they involved in biosynthesis?
- oxidize both xenobiotics, drugs and endogenous substrates
- some CYP enzymes involved in steroid, bile acid & prostaglandin biosynthesis
How many genes are there for CYP450 super family?
57 functional genes- organized into 18 families and 44 sub families
NOMENCLATURE: CYP3A4- family 3, subfamily A, gene #4
Where are cyp450 expressed at the highest levels? Where are they present in lower levels?
Expressed at highest levels in the liver and also in the GI tract
- lower level expression in lung, kidney, CNS and other tissues
In humans, 12 CYPs are responsible for metabolism of essentially all xenobiotics and drugs, what are they?
CYP1A1, 1A2, 1B1, 2A6, 2B6, 2C8, 2C9, 2C19, 2D6, 2E1, 3A4 and 3A5
What are the most active enzymes for drug metabolism?
Most active enzymes for drug metabolism are the CYP2C, CYP2D and CYP3A sub families
- CYP3A4 represents 30% of all CYP450 enzymes in the liver and accounts for the metabolism of greater than 50% of clinically used drugs
Describe/draw out the CYP450 reaction. What is required?
CYP450 reactions require:
Drug substrate
Molecular oxygen – binds to the Fe3+-heme group in CYP450 before transfer to drug
NADPH – cofactor responsible for donating electrons to reduce molecular oxygen
NADPH-CYP450 oxidoreductase- enzyme that catalyzes electron transfer from NADPH to cyp450
CYP450 are promiscuous enzymes. Explain what this means.
can metabolize multiple structurally distinct chemicals
A single compound can be metabolized by multiple CYP450 enzymes (different rates)
e.g. Citalopram is metabolized by 3A4, 2C19 and 2D6
Typically, most drugs are metabolized by one or a few enzymes (limiting redundancy)
CYP450s can metabolize a single drug at multiple different positions on the molecule. Give an example.
3A4 catalyzes both hydroxylation and N-demethylation of Clarithromycin
