PHC511 Drug Metabolism I Lecture Topics PDF

Summary

This document provides lecture topics, course objectives, and detailed information on drug metabolism. It covers the fate of a drug, absorption, distribution, metabolism, and elimination. The document also includes several diagrams to illustrate concepts.

Full Transcript

Phase I “Basic Principles of DM”

MOOC
 Comprehend, apply, and evaluate the main concepts and
principles of drug metabolism.

 Identify and characterize all of major metabolites of a given
drug and specific enzymes responsible for its metabolism.
The Fate of a Drug DOSE
Pharmaceutics
ABSORPTION
MOST TISSUES
NONSPECIFIC
BINDING
PLASMA
PROTEIN DISTRIBUTION
FREE
BOUND
BIOPHASE
ELIMINATION RECEPTOR
BINDING
METABOLISM RENAL
EXCRETION
EFFECT

Pharmacokinetics Pharmacodynamics
 Drug at site
of administration
1. Absorption
Drug in plasma 2. Distribution
Drug/metabolites
3. Metabolism
in tissues

4. Elimination
Drug/metabolites
in urine, feces, bile
 Drug Metabolism
It is the metabolic breakdown of drugs by living organisms or foreign compounds
[xenobiotics] mostly in the liver (enzymatic processes).
It often converts lipophilic compounds to hydrophilic products that are more
readily excreted..
It may convert procarcinogen into toxic mutagenic compounds.
Individual variation greatly impact metabolism (genetic diff., physiol. factors).
Metabolism of one xenobiotic may influence another’s metabolism
This will help synthesize new more safe drugs
Xenobiotics
Metabolism in non-hepatic tissue Drugs
Intestinal mucosa Other foreign non-essential compounds
Kidney
Lung First-pass metabolism:
Bacteria in GIT Xenobiotic metabolized before reaching
general circulation
First-pass metabolism:
A. Lung metabolism (inhaled drugs). B. Intestinal mucosa, GI bacteria

Consequences of Drug
Metabolism
1. Termination of drug action
2. Activation of prodrug
3. Bioactivation and toxication
4. Carcinogenesis
Effect of drug metabolism
Active drug inactivation Inactive Drug
Inactive prodrug activation
Active Drug
Inactive metabolite
 Lipid Solubility
R-H Chemical hook

activation
Procarcinogen Carcinogen
Pathways of metabolism
Phase I: Functionalization reaction, new polar groups such as CO2H, OH or NH2 are
introduced or unveiled from pre-existing via oxidation, reduction. or hydrolysis.
Phase II: Conjugation reaction link an endogenous moiety to the original drug or to
the phase I metabolite (GSH, sulfate, glycine, glucuronic acid) to produce more
polar metabolites unable to cross membranes, and therefore, be actively excreted.
Phase III: Some conjugated xenobiotics may be further processed, to be recognised
by efflux transporters and pumped out of cells for elimination.
Example: Hydrophobic drug More Hydrophilic drug Renal excretion

Drug metabolism was thought detoxification, not absolutely true !!!!!
Implications For Drug Metabolism:
1. Termination of drug action.
2. Activation of prodrug.
3. Bioactivation and toxification.
4. Carcinogenesis.
Two xenobiotic categories are hardly subject to metabolic
transformations:
So, spread
1- Hydrophilic compounds
the word
(Saccharine, strong acids
Take care
or bases).

2. Highly lipophilic polyhalogenated xenobiotics
such as some insecticides e.g. DDT.
Many metabolic reactions don’t lead to inactivation and detoxication.
Some metabolite are as active as the parent drug.
Others are reactive and bind covalently to soluble or membrane
proteins, enzymes, DNA (mutagenic and carcinogenic compounds).
Lethal synthesis:
The metabolic conversion of the nontoxic Parathion to its oxygenated
isostere paraoxon, a potent acetylcholinesterase inhibitor.
 Major Sites of Metabolism
Drug metabolism occurs in every tissue (e.g. gut, lung, kidney). However, the major
Drug Metabolizing Enzymes (DMEs) are the highest levels in the liver, the major
organ of metabolic clearance.
High: liver. Medium: lung, kidney, intestine.
Low : skin, testes, placenta, adrenals. Very low: CNS.

Extrahepatic microsomal enzymes
(oxidation, conjugation) LIVER
Is the chief organ
for metabolism
due to:
1. High blood
Hepatic microsomal enzymes flow through
(oxidation, conjugation) the liver.
2.Hepatocytes
Hepatic non-microsomal enzymes
contain
(acetylation, sulfation, GSH, numerous
alcohol/aldehyde dehydrogenase, metabolic
hydrolysis, ox/red) enzymes