Elementary Drug Metabolism

Drug metabolism

• Drug metabolism: enzymatic conversion of the drug to another chemical entity

• Liver is the most important metabolic organ (kidney, gut mucosa, lungs and skin also contribute)
• Phase I and phase II both take place in liver

• Metabolism in liver (+ gut) reduces bioavailability of drugs when administered orally

• Hepatic drug metabolizing enzymes are embedded in the SER of hepatocytes

• Non-polar drugs can more easily cross membrane to be metabolized

Phase I metabolism

• Phase I metabolism: change in the drug by oxidation, reduction or hydrolysis

• Usually results in pharmacologically active and/or toxic metabolites

Oxidation

• Accomplished by cytochrome P450 enzymes
• Family of haem proteins
• Activity is genetically determined
• Some people lack activity - higher drug plasma levels (adverse actions)
• High levels of activity = reduced drug action
• Other drugs can interact with P450 system – increase or decrease activity

• Drug molecule incorporates an atom of oxygen to form a hydroxyl group

Cytoplasmic enzymes

• Can metabolise drugs

Hydrolytic reactions

• Ester and amide bonds are susceptible to hydrolysis

Phase II metabolism

• Phase II metabolism: involve the combination of the drug with one of several polar molecules to form a water-soluble metabolite - conjugation
• Usually involves the reactive group produced by phase I
• Usually terminates all biological activity
• Products can be readily excreted via kidneys

• Some drugs (e.g. codeine) can go directly to phase II metabolism
• Can produce metabolites that are pharmalogically active

Glucuronidation

• Enzyme - uridine disphosphate-glucoronosyltransferases

• Cofactor - uridine diphosphate glucuronic acid