Partition coefficient and biological action MCQs With Answer

Partition coefficient and biological action MCQs With Answer

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Introduction: Understanding the partition coefficient and its influence on biological action is essential for B.Pharm students involved in drug design, pharmacokinetics, and formulation. The partition coefficient (P) or log P measures a drug’s lipophilicity between octanol and water and predicts membrane permeability, absorption, distribution, blood–brain barrier penetration, and metabolic stability. Mastery of log P, log D (pH-dependent distribution), ionization, and experimental methods (shake‑flask, chromatographic) helps optimize lead compounds for efficacy and safety. This primer emphasizes practical implications for ADME, protein binding, and formulation strategies in drug development. Now let’s test your knowledge with 50 MCQs on this topic.

Q1. What does the partition coefficient (P) measure in drug molecules?

  • Distribution between lipid bilayers and proteins
  • Ratio of drug concentration in octanol to water at equilibrium
  • Rate of drug metabolism in the liver
  • Extent of renal clearance

Correct Answer: Ratio of drug concentration in octanol to water at equilibrium

Q2. How is log P defined?

  • The negative logarithm of the partition coefficient
  • The base-10 logarithm of the partition coefficient
  • The natural logarithm of the distribution coefficient
  • The difference between log D and pKa

Correct Answer: The base-10 logarithm of the partition coefficient

Q3. Which statement best distinguishes log P and log D?

  • Log P accounts for ionization at given pH, log D does not
  • Log D is measured only in octanol, log P only in water
  • Log P is for non-ionized species; log D is the pH-dependent distribution of all species
  • Log P and log D are identical for weak acids at any pH

Correct Answer: Log P is for non-ionized species; log D is the pH-dependent distribution of all species

Q4. Which experimental method is considered the gold standard for measuring partition coefficients?

  • SHIME assay
  • Shake‑flask method
  • Caco‑2 permeability assay
  • Plasma protein binding assay

Correct Answer: Shake‑flask method

Q5. A drug with log P = 4 is likely to have which characteristic?

  • Very high aqueous solubility and poor membrane permeation
  • High lipophilicity, increased membrane permeation, but poor aqueous solubility
  • High polarity and inability to cross cell membranes
  • Ideal hydrophilicity for renal excretion

Correct Answer: High lipophilicity, increased membrane permeation, but poor aqueous solubility

Q6. Why is lipophilicity important for blood–brain barrier (BBB) penetration?

  • Highly hydrophilic drugs preferentially cross the BBB
  • Moderate lipophilicity favors passive diffusion across the BBB
  • Only charged molecules can cross the BBB efficiently
  • Lipophilicity does not affect BBB penetration

Correct Answer: Moderate lipophilicity favors passive diffusion across the BBB

Q7. How does ionization affect the measured partitioning of a weak acid at acidic pH?

  • Ionized form increases partitioning into octanol
  • Non-ionized form predominates and increases partitioning into octanol
  • Ionization has no effect on partitioning
  • Ionized form always partitions into octanol more than water

Correct Answer: Non-ionized form predominates and increases partitioning into octanol

Q8. Which parameter is most useful to predict oral absorption in early drug discovery?

  • Partition coefficient (log P) combined with molecular size and hydrogen bonding capacity
  • Only plasma protein binding percentage
  • Only volume of distribution
  • Only metabolic half‑life

Correct Answer: Partition coefficient (log P) combined with molecular size and hydrogen bonding capacity

Q9. A drug with log P ≈ 0 is expected to be:

  • Extremely lipophilic and sequestered in tissues
  • Highly hydrophilic and likely to have low membrane permeability
  • Balanced between aqueous and lipid phases, favoring some permeability and solubility
  • Completely insoluble in water

Correct Answer: Balanced between aqueous and lipid phases, favoring some permeability and solubility

Q10. How does high lipophilicity generally affect metabolic stability?

  • Increases clearance due to enhanced renal elimination
  • Often increases metabolic clearance due to greater affinity for metabolic enzymes
  • Has no effect on metabolism
  • Always prevents metabolism by P450 enzymes

Correct Answer: Often increases metabolic clearance due to greater affinity for metabolic enzymes

Q11. Which in silico descriptor is directly derived from partition coefficient?

  • pKa
  • Log P (calculated) or clog P
  • Intrinsic clearance
  • Percentage bioavailability

Correct Answer: Log P (calculated) or clog P

Q12. Which log P range is commonly considered optimal for oral drugs (Lipinski’s rule of five guidance)?

  • Log P greater than 5
  • Log P less than or equal to 5
  • Log P exactly 0
  • Log P less than −2

Correct Answer: Log P less than or equal to 5

Q13. What is the primary reason extremely high log P compounds show low oral bioavailability?

  • Excessive water solubility
  • Poor aqueous solubility leading to dissolution-limited absorption
  • Enhanced transporter-mediated uptake
  • Inability to bind to plasma proteins

Correct Answer: Poor aqueous solubility leading to dissolution-limited absorption

Q14. Which chromatographic technique can be used to estimate lipophilicity as an alternative to shake‑flask?

  • Size‑exclusion chromatography
  • Reverse-phase HPLC retention time correlation
  • Ion-exchange chromatography
  • Gel electrophoresis

Correct Answer: Reverse-phase HPLC retention time correlation

Q15. How does plasma protein binding relate to lipophilicity?

  • More lipophilic drugs generally show higher plasma protein binding
  • More lipophilic drugs always have zero plasma protein binding
  • Less lipophilic drugs always bind more to plasma proteins
  • Lipophilicity and protein binding are unrelated

Correct Answer: More lipophilic drugs generally show higher plasma protein binding

Q16. Which effect does increasing hydrogen-bond donors and acceptors generally have on log P?

  • Increase log P by enhancing lipophilicity
  • Decrease log P by increasing polarity and water affinity
  • No change in log P
  • Convert log P to log D

Correct Answer: Decrease log P by increasing polarity and water affinity

Q17. Why is log D measured at physiological pH important for predicting in vivo behavior?

  • Because it ignores ionized drug species
  • Because it reflects distribution of all species (ionized + unionized) at that pH
  • Because it equals log P at all pH values
  • Because it measures only protein-bound drug

Correct Answer: Because it reflects distribution of all species (ionized + unionized) at that pH

Q18. A basic drug with pKa 9 will be mostly ionized in which environment?

  • pH 2
  • pH 10
  • pH 9
  • pH 14

Correct Answer: pH 2

Q19. What is the impact of ionization on membrane permeability?

  • Ionized species generally cross lipid membranes more readily than unionized species
  • Ionization has no effect on permeability
  • Unionized species generally cross lipid membranes more readily than ionized species
  • Only charged species can use passive diffusion

Correct Answer: Unionized species generally cross lipid membranes more readily than ionized species

Q20. Which of the following changes would likely increase a drug’s log P?

  • Addition of polar hydroxyl groups
  • Methylation of a polar amine to a tertiary amine (reducing polarity)
  • Conversion of an aromatic ring to a carboxylic acid
  • Introduction of multiple charged groups

Correct Answer: Methylation of a polar amine to a tertiary amine (reducing polarity)

Q21. In QSAR modeling, why is log P often included as a descriptor?

  • Because it predicts crystal structure
  • Because lipophilicity influences potency, permeability, and ADME properties
  • Because it directly measures receptor binding kinetics
  • Because it indicates the drug’s manufacturing cost

Correct Answer: Because lipophilicity influences potency, permeability, and ADME properties

Q22. Which biological action is most directly influenced by a drug’s partition coefficient?

  • Electrolyte balance
  • Membrane permeability and tissue distribution
  • Enzymatic catalytic mechanism
  • DNA replication fidelity

Correct Answer: Membrane permeability and tissue distribution

Q23. How does increased lipophilicity affect volume of distribution (Vd)?

  • Often leads to decreased Vd due to retention in plasma
  • Often leads to increased Vd due to tissue partitioning
  • Has no predictable effect on Vd
  • Always reduces Vd to zero

Correct Answer: Often leads to increased Vd due to tissue partitioning

Q24. Which of the following is true for a zwitterionic drug regarding partitioning?

  • It always has very high log P
  • Net neutrality at certain pH can increase lipophilicity and partitioning
  • Zwitterions cannot partition into octanol
  • They are always trapped in the aqueous phase

Correct Answer: Net neutrality at certain pH can increase lipophilicity and partitioning

Q25. Which factor does NOT directly affect measured log P in shake‑flask experiments?

  • Choice of octanol grade and water purity
  • Temperature during equilibration
  • pH of the aqueous phase when measuring non-ionizable compounds
  • Duration allowed for equilibration

Correct Answer: pH of the aqueous phase when measuring non-ionizable compounds

Q26. A drug with log D (pH 7.4) << log P indicates:

  • Significant ionization at pH 7.4 reducing apparent lipophilicity
  • Enhanced lipophilicity at physiological pH
  • That log P was measured incorrectly
  • No ionization occurs at pH 7.4

Correct Answer: Significant ionization at pH 7.4 reducing apparent lipophilicity

Q27. Which cellular assay correlates with passive permeability and is influenced by lipophilicity?

  • MTT cytotoxicity assay
  • Caco‑2 monolayer permeability assay
  • Western blot for P‑glycoprotein
  • ELISA for cytokines

Correct Answer: Caco‑2 monolayer permeability assay

Q28. In formulation, how can high lipophilicity-related poor solubility be addressed?

  • Formulation as prodrug, lipid-based formulation, or solid dispersion to enhance solubility
  • Always increase particle size
  • Avoid any excipients and use pure drug powder orally
  • Reduce temperature of storage to −80°C

Correct Answer: Formulation as prodrug, lipid-based formulation, or solid dispersion to enhance solubility

Q29. Which statement about amphipathic drugs is correct?

  • They have both hydrophilic and lipophilic regions, influencing membrane interactions and distribution
  • They are entirely hydrophobic and insoluble in water
  • They cannot cross membranes under any conditions
  • Their partition coefficient is always negative

Correct Answer: They have both hydrophilic and lipophilic regions, influencing membrane interactions and distribution

Q30. Why is log P important in predicting topical drug absorption?

  • Highly hydrophilic molecules always permeate skin easily
  • Moderate lipophilicity favors partitioning into stratum corneum lipids and improves topical absorption
  • Only molecule size matters for topical absorption
  • Topical absorption is independent of lipophilicity

Correct Answer: Moderate lipophilicity favors partitioning into stratum corneum lipids and improves topical absorption

Q31. Which of the following best explains the relationship between log P and oral first‑pass metabolism?

  • Higher log P always eliminates first‑pass metabolism
  • High lipophilicity may increase hepatic uptake and first‑pass metabolism
  • Log P does not influence hepatic clearance
  • Low log P ensures extensive first‑pass metabolism

Correct Answer: High lipophilicity may increase hepatic uptake and first‑pass metabolism

Q32. What is the effect of acylation (adding an acyl group) on a drug’s lipophilicity?

  • Typically increases lipophilicity and log P
  • Always makes the drug hydrophilic
  • Has no effect on polarity
  • Always causes ionization at physiological pH

Correct Answer: Typically increases lipophilicity and log P

Q33. Which property is a consequence of a drug having very low log P (high hydrophilicity)?

  • Enhanced passive membrane permeation
  • Predominant renal excretion and limited tissue distribution
  • High tendency for tissue accumulation in fat
  • Strong plasma protein binding

Correct Answer: Predominant renal excretion and limited tissue distribution

Q34. In drug discovery, why might a medicinal chemist seek to reduce log P of a lead compound?

  • To decrease aqueous solubility
  • To reduce off‑target toxicity, improve solubility, and optimize ADME profile
  • To ensure the compound becomes permanently protein bound
  • To guarantee BBB penetration

Correct Answer: To reduce off‑target toxicity, improve solubility, and optimize ADME profile

Q35. Which is TRUE about octanol as the organic phase in partition experiments?

  • Octanol perfectly mimics biological membranes but is hydrophilic
  • Octanol is a compromise solvent representing lipid-like environment though not identical to bilayers
  • Octanol is completely non-polar and does not interact with solutes
  • Octanol cannot solubilize lipophilic drugs

Correct Answer: Octanol is a compromise solvent representing lipid-like environment though not identical to bilayers

Q36. How does temperature influence partition coefficient measurements?

  • Temperature has no effect
  • Increasing temperature typically alters solubility and can change measured partitioning
  • Only pressure affects partition coefficient
  • Partition coefficient is defined only at 0°C

Correct Answer: Increasing temperature typically alters solubility and can change measured partitioning

Q37. For a weak acid with pKa 4.5, at pH 7.4 the predominant form is:

  • Unionized
  • Ionized (deprotonated)
  • Zwitterionic
  • Undetermined without log P

Correct Answer: Ionized (deprotonated)

Q38. What role does lipophilicity play in drug–receptor binding?

  • No role; only ionic interactions matter
  • Hydrophobic interactions often contribute to binding affinity and selectivity
  • Lipophilicity always reduces binding affinity
  • Lipophilicity only affects covalent bonding

Correct Answer: Hydrophobic interactions often contribute to binding affinity and selectivity

Q39. In preformulation, why measure log D at different pH values?

  • To assess pH-dependent solubility, absorption, and distribution for various physiological environments
  • To remove need for permeability studies
  • Because log D is constant across pH
  • Only to determine taste of the drug

Correct Answer: To assess pH-dependent solubility, absorption, and distribution for various physiological environments

Q40. Which molecular change would decrease passive intestinal permeability?

  • Reducing molecular size and log P
  • Increasing polarity and number of ionizable groups at intestinal pH
  • Methylating polar groups to increase lipophilicity
  • Prodrug formation to transiently increase lipophilicity

Correct Answer: Increasing polarity and number of ionizable groups at intestinal pH

Q41. Which statement about lipophilicity and toxicity is most accurate?

  • Higher lipophilicity always ensures lower toxicity
  • Higher lipophilicity can increase risk of off‑target interactions and toxicity
  • Lipophilicity has no relationship to toxicity
  • Only hydrophilic drugs are toxic

Correct Answer: Higher lipophilicity can increase risk of off‑target interactions and toxicity

Q42. Which analytical consideration is important when correlating HPLC retention times to log P?

  • Column type, mobile phase composition and pH critically influence retention and must be standardized
  • Retention time is independent of mobile phase
  • Only detector wavelength matters for lipophilicity estimation
  • Flow rate has no impact on retention behavior

Correct Answer: Column type, mobile phase composition and pH critically influence retention and must be standardized

Q43. How can prodrug strategies modify partitioning behavior?

  • Prodrugs always reduce lipophilicity permanently
  • Prodrugs can transiently increase lipophilicity to enhance absorption and be metabolized to active drug
  • Prodrugs only affect color, not partitioning
  • Prodrugs prevent blood–brain barrier crossing

Correct Answer: Prodrugs can transiently increase lipophilicity to enhance absorption and be metabolized to active drug

Q44. Which of the following best describes log P values for highly polar ionic drugs?

  • Large positive log P values (e.g., >5)
  • Negative or very low log P values indicating hydrophilicity
  • Log P is always 1 for ionic drugs
  • Log P equals molecular weight for ionic compounds

Correct Answer: Negative or very low log P values indicating hydrophilicity

Q45. Which ADME parameter is least directly related to partition coefficient?

  • Plasma protein binding
  • Renal clearance by glomerular filtration
  • Tissue distribution
  • Passive membrane permeability

Correct Answer: Renal clearance by glomerular filtration

Q46. When designing CNS drugs, which log P/log D characteristic is typically targeted?

  • Extremely low log P to avoid BBB
  • Moderate lipophilicity and low efflux liability to enable BBB penetration
  • Very high log P with high efflux substrate potential
  • Log D values are not considered for CNS drugs

Correct Answer: Moderate lipophilicity and low efflux liability to enable BBB penetration

Q47. How do efflux transporters like P‑glycoprotein interact with lipophilicity?

  • P‑glycoprotein substrate recognition is unrelated to lipophilicity
  • Many lipophilic compounds are P‑gp substrates and may be pumped out, reducing brain or cellular exposure
  • P‑gp only transports hydrophilic molecules
  • P‑gp permanently increases intracellular lipophilicity

Correct Answer: Many lipophilic compounds are P‑gp substrates and may be pumped out, reducing brain or cellular exposure

Q48. Which approach helps estimate log P for ionizable compounds more realistically?

  • Ignoring ionization and using log P only
  • Calculating log D at relevant physiological pH values
  • Measuring partition in pure hexane instead of octanol
  • Using molecular weight as a surrogate

Correct Answer: Calculating log D at relevant physiological pH values

Q49. Which statement about the relationship between solubility and log P is correct?

  • Higher log P necessarily means higher aqueous solubility
  • Higher log P often correlates with lower aqueous solubility
  • Solubility and log P are identical properties
  • Log P predicts solubility in all solvents accurately

Correct Answer: Higher log P often correlates with lower aqueous solubility

Q50. For a drug discovery candidate with borderline permeability and high plasma protein binding, which modification might improve free drug concentration?

  • Increase lipophilicity further to enhance protein binding
  • Introduce polar groups to reduce plasma protein binding and improve free fraction while balancing permeability
  • Ignore ADME concerns and proceed to clinical trials
  • Maximize molecular weight without changing polarity

Correct Answer: Introduce polar groups to reduce plasma protein binding and improve free fraction while balancing permeability

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