Drug Metabolism Made Simple *ANIMATED*

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22 Sept 201708:14

Summary

TLDRThis video explains drug metabolism, focusing on how the body processes drugs to make them easier to eliminate. It highlights two types of metabolites: inactive, which lose the drug's original activity, and active, which can retain or even increase the drug's effects. The video describes the difference between Phase 1 (functionalization) and Phase 2 (conjugation) metabolic reactions, using enzymes like cytochrome P450, alcohol dehydrogenase, and glucuronyltransferase. It also discusses bioactivation, toxic metabolites like acetaminophen’s, and prodrugs like enalapril. The liver plays a key role in metabolizing drugs.

Takeaways

  • 🧬 Metabolism is the biochemical process that modifies xenobiotics, primarily drugs, to facilitate their elimination.
  • 💊 Drug metabolism often starts with a hydrophobic drug, converting it into a hydrophilic metabolite for easier elimination.
  • 🔄 The outcome of drug metabolism can result in an active or inactive metabolite, which affects the drug's pharmacological activity.
  • 🧪 Inactive metabolites have no effect, such as the breakdown of procaine, while active metabolites, like morphine from codeine, retain or enhance activity.
  • ⚙️ Bioactivation occurs when an inactive parent drug (prodrug) is metabolized into an active form, like enalapril converting to enalaprilat.
  • ⚠️ Toxic metabolites can be produced during metabolism, such as acetaminophen's metabolite NAPQI, which is harmful to the liver.
  • 🧠 Phase 1 metabolism involves functionalization reactions, typically oxidation, reduction, or hydrolysis, increasing drug polarity for easier excretion.
  • 🧬 Cytochrome P450 enzymes play a major role in oxidation reactions during drug metabolism.
  • ⚗️ Phase 2 metabolism involves conjugation reactions where enzymes transfer polar molecules (e.g., glucuronic acid) to the drug, enhancing excretion.
  • 🌱 Glutathione conjugation detoxifies harmful electrophilic compounds, aiding in the excretion of toxic metabolites.

Q & A

  • What is the primary function of metabolism in the body?

    -Metabolism is a biochemical process that alters xenobiotics, like drugs, to make them more hydrophilic, facilitating their elimination from the body.

  • What are the two possible outcomes of drug metabolism?

    -Drug metabolism can result in either an active metabolite, which retains or enhances the drug's pharmacological activity, or an inactive metabolite, which has no pharmacological activity.

  • Can you give an example of a drug that produces an active metabolite?

    -Codeine is an example of a drug that is metabolized into an active metabolite, morphine, through a process called demethylation.

  • What is a prodrug, and can you give an example?

    -A prodrug is an inactive parent drug that is metabolized into an active form. An example is enalapril, which is hydrolyzed to enalaprilat, a potent antihypertensive agent.

  • What can happen during bioactivation, and why is it important?

    -Bioactivation can sometimes lead to the formation of a toxic metabolite. For example, acetaminophen’s metabolite N-acetyl-p-benzoquinone imine is hepatotoxic, which is why understanding bioactivation is critical for drug safety.

  • What are Phase 1 metabolic reactions, and what is their purpose?

    -Phase 1 metabolic reactions involve the functionalization of a drug by oxidation, reduction, or hydrolysis to reveal or add a functional group, increasing the drug's polarity and making it easier to excrete.

  • What is the role of cytochrome P450 in drug metabolism?

    -Cytochrome P450 is a superfamily of oxidizing enzymes that play a major role in the oxidation of drugs, which is the most common type of Phase 1 reaction.

  • How does alcohol dehydrogenase contribute to drug metabolism?

    -Alcohol dehydrogenase oxidizes alcohols into aldehydes, which can then be further oxidized to carboxylic acids, such as in the conversion of acetaldehyde to acetic acid during ethanol metabolism.

  • What are Phase 2 metabolic reactions, and why are they important?

    -Phase 2 reactions are conjugation reactions where a functional group is added to a drug to increase its polarity. This helps in detoxifying the drug and making it easier to eliminate from the body.

  • Can you explain the process of glucuronidation in Phase 2 metabolism?

    -Glucuronidation is a Phase 2 reaction where the enzyme glucuronosyltransferase transfers glucuronic acid to functional groups like hydroxyl or carboxyl groups, significantly increasing the drug's hydrophilicity for easier excretion.

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Drug MetabolismPharmaceuticalsEnzymatic ReactionsActive MetabolitesPro DrugsPhase 1 MetabolismPhase 2 MetabolismToxic MetabolitesBioactivationLiver Enzymes