Phase II metabolism MCQs With Answer

Phase II metabolism MCQs With Answer

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Introduction: Phase II metabolism involves conjugation reactions that transform drug molecules into more water-soluble derivatives for excretion. B. Pharm students must master conjugating enzymes such as UDP-glucuronosyltransferases (UGTs), sulfotransferases (SULTs), glutathione S-transferases (GSTs), N-acetyltransferases (NATs) and methyltransferases, along with their cofactors (UDPGA, PAPS, GSH, Acetyl-CoA, SAM). Understanding substrate specificity, enzyme location, genetic polymorphisms (e.g., NAT2, UGT1A1), clinical consequences (bilirubin handling, drug interactions, toxicity) and analytical detection (LC-MS) is essential for pharmacokinetics, dosage design and safety assessment. Now let’s test your knowledge with 50 MCQs on this topic.

Q1. Which is the primary purpose of Phase II (conjugation) metabolism?

  • To increase lipid solubility of drugs
  • To decrease water solubility of drugs
  • To increase water solubility of drugs for excretion
  • To convert prodrugs into active metabolites

Correct Answer: To increase water solubility of drugs for excretion

Q2. Which cofactor is required for glucuronidation reactions?

  • PAPS (3′-phosphoadenosine-5′-phosphosulfate)
  • UDP-glucuronic acid (UDPGA)
  • S-adenosylmethionine (SAM)
  • Glutathione (GSH)

Correct Answer: UDP-glucuronic acid (UDPGA)

Q3. Which enzyme family catalyzes sulfation reactions in Phase II metabolism?

  • CYP450 monooxygenases
  • Sulfotransferases (SULTs)
  • UDP-glucuronosyltransferases (UGTs)
  • Glutathione S-transferases (GSTs)

Correct Answer: Sulfotransferases (SULTs)

Q4. Glutathione conjugation primarily protects cells by reacting with:

  • Hydrophilic drugs to increase absorption
  • Reactive electrophilic metabolites and free radicals
  • Conjugated bilirubin to form glucuronides
  • Polar carbohydrates to form glycosides

Correct Answer: Reactive electrophilic metabolites and free radicals

Q5. Which enzyme catalyzes acetylation in Phase II metabolism and is known for genetic polymorphism?

  • UDP-glucuronosyltransferase 1A1 (UGT1A1)
  • N-acetyltransferase (NAT)
  • Sulfotransferase 1A1 (SULT1A1)
  • Glutathione S-transferase Mu (GSTM)

Correct Answer: N-acetyltransferase (NAT)

Q6. Which Phase II enzyme is primarily located in the endoplasmic reticulum membrane of hepatocytes?

  • UDP-glucuronosyltransferases (UGTs)
  • Sulfotransferases (SULTs)
  • Glutathione S-transferases (GSTs)
  • Methyltransferases

Correct Answer: UDP-glucuronosyltransferases (UGTs)

Q7. The cofactor PAPS is required for which conjugation pathway?

  • Glucuronidation
  • Sulfation
  • Glutathione conjugation
  • Methylation

Correct Answer: Sulfation

Q8. Which conjugation pathway uses S-adenosylmethionine (SAM) as methyl donor?

  • Methylation
  • Glucuronidation
  • Sulfation
  • Glutathione conjugation

Correct Answer: Methylation

Q9. Which Phase II reaction commonly forms N-acetylated metabolites and affects isoniazid toxicity?

  • Glucuronidation by UGTs
  • Acetylation by NATs
  • Sulfation by SULTs
  • Glutathione conjugation by GSTs

Correct Answer: Acetylation by NATs

Q10. Which genetic variant is associated with reduced glucuronidation of bilirubin and Gilbert’s syndrome?

  • UGT1A1*28 polymorphism
  • NAT2 slow acetylator genotype
  • SULT1A1 gene duplication
  • GSTM1 null variant

Correct Answer: UGT1A1*28 polymorphism

Q11. Enterohepatic recycling of drugs often involves which Phase II metabolite?

  • Glucuronide conjugates
  • Sulfate conjugates
  • Acetylated metabolites
  • Methylated derivatives

Correct Answer: Glucuronide conjugates

Q12. Which analytical technique is most suitable to identify Phase II metabolites in biological samples?

  • Thin-layer chromatography only
  • LC-MS/MS (liquid chromatography–tandem mass spectrometry)
  • Simple UV spectrophotometry
  • Light microscopy

Correct Answer: LC-MS/MS (liquid chromatography–tandem mass spectrometry)

Q13. Which conjugation increases polarity by adding glucuronic acid?

  • Glucuronidation
  • Sulfation
  • Methylation
  • Acetylation

Correct Answer: Glucuronidation

Q14. Which Phase II enzyme family catalyzes conjugation with glutathione (GSH)?

  • UGTs
  • SULTs
  • GSTs (glutathione S-transferases)
  • NATs

Correct Answer: GSTs (glutathione S-transferases)

Q15. Which statement about Phase II metabolism is correct?

  • Phase II reactions always precede Phase I reactions
  • Phase II reactions generally decrease molecular weight
  • Phase II reactions often follow Phase I to increase excretion
  • Phase II reactions exclusively occur in plasma

Correct Answer: Phase II reactions often follow Phase I to increase excretion

Q16. Which substrate functional group is least likely to undergo direct glucuronidation?

  • Hydroxyl group
  • Carboxylic acid
  • Primary amine without prior modification
  • Phenolic OH

Correct Answer: Primary amine without prior modification

Q17. Mercapturic acid formation involves which sequence?

  • Glucuronidation → methylation → excretion
  • GSH conjugation → processing → N-acetylcysteine (mercapturic acid)
  • Sulfation → glucuronidation → excretion
  • Acetylation → methylation → excretion

Correct Answer: GSH conjugation → processing → N-acetylcysteine (mercapturic acid)

Q18. Which Phase II enzyme can be induced by nuclear receptors like PXR affecting drug clearance?

  • UGTs (UDP-glucuronosyltransferases)
  • GSTs only
  • All SULT isoforms equally
  • Methyltransferases exclusively

Correct Answer: UGTs (UDP-glucuronosyltransferases)

Q19. Which conjugation can paradoxically increase lipophilicity in some cases, reducing renal excretion?

  • Glucuronidation of small polar acids
  • Amino acid conjugation forming bulky acyl amino acids
  • Sulfation always increases hydrophilicity
  • Methylation always increases water solubility

Correct Answer: Amino acid conjugation forming bulky acyl amino acids

Q20. N-glucuronidation differs from O-glucuronidation by conjugating to which atom?

  • N-glucuronidation attaches to nitrogen; O-glucuronidation attaches to oxygen
  • N-glucuronidation attaches to oxygen; O-glucuronidation attaches to nitrogen
  • Both attach only to sulfur
  • There is no difference; terms are interchangeable

Correct Answer: N-glucuronidation attaches to nitrogen; O-glucuronidation attaches to oxygen

Q21. Which cofactor is directly consumed in sulfation reactions?

  • UDPGA
  • PAPS
  • SAM
  • ATP

Correct Answer: PAPS

Q22. Which clinical condition results from impaired bilirubin glucuronidation?

  • Phenylketonuria
  • Gilbert’s syndrome and Crigler–Najjar syndromes
  • Lactose intolerance
  • Hemophilia

Correct Answer: Gilbert’s syndrome and Crigler–Najjar syndromes

Q23. Which Phase II reaction is most likely to deactivate catecholamines pharmacologically?

  • Glucuronidation
  • Sulfation
  • Methylation by catechol-O-methyltransferase (COMT)
  • Glutathione conjugation

Correct Answer: Methylation by catechol-O-methyltransferase (COMT)

Q24. Which pathway commonly uses glycine as conjugating partner for aromatic acids?

  • Glucuronidation
  • Amino acid conjugation (glycine conjugation)
  • Sulfation
  • Methylation

Correct Answer: Amino acid conjugation (glycine conjugation)

Q25. Which genetic polymorphism affects isoniazid acetylation rate and toxicity risk?

  • UGT1A1*28
  • NAT2 slow and rapid acetylator alleles
  • SULT1A1*2 duplication
  • GSTP1 Ile105Val only

Correct Answer: NAT2 slow and rapid acetylator alleles

Q26. Which Phase II enzyme family contributes to detoxification of electrophiles and peroxides in extrahepatic tissues?

  • UGTs
  • GSTs (glutathione S-transferases)
  • SULTs
  • NATs

Correct Answer: GSTs (glutathione S-transferases)

Q27. Which parameter best describes enzyme affinity in conjugation reactions?

  • Vmax only
  • Km (Michaelis constant)
  • Intrinsic clearance unrelated to Km
  • pH value of the medium

Correct Answer: Km (Michaelis constant)

Q28. Which drug interaction mechanism can decrease glucuronidation rates?

  • Induction of UGT enzymes by another drug
  • Competitive inhibition of UGTs by co-administered substrate
  • Increased renal blood flow only
  • Activation of SULT enzymes exclusively

Correct Answer: Competitive inhibition of UGTs by co-administered substrate

Q29. Which Phase II reaction is reversible under action of bacterial enzymes in the gut leading to reactivation?

  • Methylation
  • Glucuronidation followed by beta-glucuronidase-mediated deconjugation
  • Acetylation irreversible
  • Glutathione conjugation reversible by hydrolysis

Correct Answer: Glucuronidation followed by beta-glucuronidase-mediated deconjugation

Q30. Which conjugation tends to be more significant at low substrate concentrations due to high affinity?

  • Sulfation (often high affinity, low capacity)
  • Glucuronidation (low affinity, high capacity)
  • Methylation always low affinity
  • Glutathione conjugation independent of concentration

Correct Answer: Sulfation (often high affinity, low capacity)

Q31. Which analytical biomarker indicates glutathione pathway activity in urine?

  • Urinary glucuronide levels
  • Mercapturic acids (N-acetylcysteine conjugates)
  • Sulfate conjugate concentration
  • Unchanged parent drug only

Correct Answer: Mercapturic acids (N-acetylcysteine conjugates)

Q32. Which enzyme family catalyzes O-methylation of catechols?

  • CYP3A4
  • Catechol-O-methyltransferase (COMT)
  • UGT1A enzymes
  • NAT enzymes

Correct Answer: Catechol-O-methyltransferase (COMT)

Q33. Which Phase II reaction commonly uses Acetyl-CoA as the acetyl donor?

  • N-acetylation by NAT enzymes
  • Glucuronidation by UGTs
  • Sulfation by SULTs
  • Methylation by methyltransferases

Correct Answer: N-acetylation by NAT enzymes

Q34. Which factor most directly affects tissue-specific expression of conjugating enzymes?

  • Dietary carbohydrate only
  • Genetic regulation and organ-specific expression patterns
  • Ambient temperature
  • Color of medication

Correct Answer: Genetic regulation and organ-specific expression patterns

Q35. Which UGT isoform is primarily responsible for bilirubin conjugation?

  • UGT2B7
  • UGT1A1
  • UGT1A4 only
  • GSTM1

Correct Answer: UGT1A1

Q36. Which statement about methylation as a Phase II reaction is true?

  • Methylation always increases water solubility significantly
  • Methylation often decreases polarity and can inactivate drugs
  • Methylation uses UDPGA as cofactor
  • Methylation forms mercapturic acids

Correct Answer: Methylation often decreases polarity and can inactivate drugs

Q37. A drug that depletes glutathione (GSH) could increase toxicity from which class of metabolites?

  • Inert glucuronides
  • Reactive electrophilic metabolites
  • Simple sulfates
  • Methylated inactive metabolites

Correct Answer: Reactive electrophilic metabolites

Q38. Which process converts a Phase II glucuronide back to the parent compound in the intestine?

  • Hepatic sulfation
  • Beta-glucuronidase activity from gut bacteria
  • UGT catalysis in lumen
  • Sulfatase in plasma

Correct Answer: Beta-glucuronidase activity from gut bacteria

Q39. Which drug property most strongly predicts likelihood of glucuronidation?

  • High basicity only
  • Presence of a suitable nucleophilic functional group (e.g., OH, COOH, NH)
  • Large molecular weight exclusively
  • Fluorescence under UV light

Correct Answer: Presence of a suitable nucleophilic functional group (e.g., OH, COOH, NH)

Q40. Which conjugation reaction is most likely to be saturated at therapeutic doses for many drugs?

  • Glucuronidation (usually high capacity)
  • Sulfation (often low capacity and easily saturated)
  • Methylation (never saturable)
  • Glutathione conjugation (independent of dose)

Correct Answer: Sulfation (often low capacity and easily saturated)

Q41. Which Phase II enzyme commonly conjugates morphine to produce an active metabolite?

  • SULT1A1 producing morphine sulfate
  • UGT2B7 producing morphine-6-glucuronide
  • NAT producing morphine acetate
  • GST producing morphine-GSH conjugate

Correct Answer: UGT2B7 producing morphine-6-glucuronide

Q42. Which population variability factor is critically important in dosing drugs cleared by Phase II pathways?

  • Genetic polymorphisms of conjugating enzymes
  • Color of patient’s hair
  • Ambient humidity where patient lives
  • Patient’s shoe size

Correct Answer: Genetic polymorphisms of conjugating enzymes

Q43. Which Phase II enzyme is known for gene deletion variants leading to null activity in some individuals?

  • UGT1A1 deletion common worldwide
  • GSTM1 deletion (null genotype)
  • SULT1A1 deletion in all populations
  • NAT genes are never deleted

Correct Answer: GSTM1 deletion (null genotype)

Q44. Which conjugation is typically assessed by measuring urinary sulfate conjugates?

  • Glutathione conjugation
  • Sulfation
  • Glucuronidation
  • Methylation

Correct Answer: Sulfation

Q45. Which mechanism explains why some Phase II metabolites are excreted into bile rather than urine?

  • High hydrophilicity always favors biliary excretion
  • Larger molecular size and amphipathicity promote biliary excretion
  • Only parent drugs are secreted into bile
  • Methylated small molecules exclusively go to bile

Correct Answer: Larger molecular size and amphipathicity promote biliary excretion

Q46. Which drug example illustrates enterohepatic recycling due to glucuronidation and deconjugation?

  • Acetaminophen never undergoes enterohepatic cycling
  • Estrogens and some NSAIDs show enterohepatic recycling
  • Aminoglycosides are glucuronidated and recycled
  • Insulin is glucuronidated and recycled

Correct Answer: Estrogens and some NSAIDs show enterohepatic recycling

Q47. Which laboratory approach helps determine if a metabolite is a Phase II conjugate?

  • Increase pH only
  • Treat sample with beta-glucuronidase or sulfatase and observe increase in parent drug
  • Run PCR for UGT genes directly on plasma
  • Measure blood pressure changes

Correct Answer: Treat sample with beta-glucuronidase or sulfatase and observe increase in parent drug

Q48. Which statement about conjugation and pharmacological activity is correct?

  • All conjugates are pharmacologically inactive
  • Some conjugates retain or gain activity (e.g., morphine-6-glucuronide)
  • Conjugation always forms toxic products
  • Conjugation never affects receptor binding

Correct Answer: Some conjugates retain or gain activity (e.g., morphine-6-glucuronide)

Q49. Which enzyme system primarily handles bilirubin conjugation and impacts neonatal jaundice?

  • GSTs in the kidney
  • UGT1A1 in the liver
  • SULTs in the lungs
  • COMT in the brain

Correct Answer: UGT1A1 in the liver

Q50. For designing safer drugs, which Phase II consideration is most important during lead optimization?

  • Avoiding functional groups that cannot be conjugated, increasing potential bioactivation and toxicity
  • Ensuring the drug cannot be metabolized at all
  • Maximizing lipophilicity to prevent excretion
  • Designing molecules with no polar groups to avoid conjugation

Correct Answer: Avoiding functional groups that cannot be conjugated, increasing potential bioactivation and toxicity

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