Neurohumoral transmission MCQs With Answer

Neurohumoral transmission MCQs With Answer

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Neurohumoral transmission links neuronal signaling and hormonal control to regulate body functions—an essential topic for B.Pharm students. This area covers neurotransmitters, receptors, synaptic and neuroeffector junction mechanisms, and hormone-driven second-messenger pathways that determine drug responses. Core keywords include neurotransmitters, synaptic transmission, GPCRs, ionotropic receptors, neuromodulation, second messengers (cAMP, IP3/DAG), reuptake, enzymatic degradation (MAO, COMT), cholinergic and adrenergic systems, neuromuscular junctions, receptor desensitization, and pharmacological modulation (agonists, antagonists, enzyme inhibitors). Mastery helps predict therapeutic effects, adverse reactions, and targets for new agents. Now let’s test your knowledge with 30 MCQs on this topic.

Q1. What best describes neurohumoral transmission?

  • Direct electrical coupling between endocrine cells
  • Communication combining neuronal release of chemical mediators and hormonal signaling
  • Hormone release solely from endocrine glands without neural input
  • Only synaptic transmission at the neuromuscular junction

Correct Answer: Communication combining neuronal release of chemical mediators and hormonal signaling

Q2. Which enzyme primarily degrades norepinephrine in the synaptic cleft and periphery?

  • Acetylcholinesterase
  • Catechol-O-methyltransferase (COMT)
  • Monoamine oxidase (MAO)
  • Choline acetyltransferase

Correct Answer: Monoamine oxidase (MAO)

Q3. Which receptor type mediates fast synaptic transmission via ligand-gated ion channels?

  • G protein-coupled receptors (GPCRs)
  • Tyrosine kinase receptors
  • Ionotropic receptors
  • Nuclear hormone receptors

Correct Answer: Ionotropic receptors

Q4. Which second messenger is classically increased by stimulatory beta-adrenergic receptor activation?

  • cAMP
  • IP3
  • DAG
  • cGMP

Correct Answer: cAMP

Q5. What is the primary action of monoamine oxidase inhibitors (MAOIs) in neurohumoral systems?

  • Block neurotransmitter reuptake into vesicles
  • Prevent enzymatic breakdown of monoamines, increasing synaptic levels
  • Activate autoreceptors to decrease release
  • Inhibit postsynaptic receptor signaling directly

Correct Answer: Prevent enzymatic breakdown of monoamines, increasing synaptic levels

Q6. Which is a characteristic of neuromodulators compared with classical neurotransmitters?

  • They act only at ionotropic receptors
  • They typically produce rapid postsynaptic currents lasting milliseconds
  • They often act on GPCRs and diffuse to affect many neurons
  • They are stored exclusively in small clear synaptic vesicles

Correct Answer: They often act on GPCRs and diffuse to affect many neurons

Q7. Which mechanism terminates acetylcholine action at the neuromuscular junction?

  • Reuptake by presynaptic transporter
  • Hydrolysis by acetylcholinesterase
  • Degradation by COMT
  • Diffusion into blood and hormone clearance

Correct Answer: Hydrolysis by acetylcholinesterase

Q8. A drug that occupies a receptor and produces less than maximal response is called a:

  • Full agonist
  • Inverse agonist
  • Partial agonist
  • Neutral antagonist

Correct Answer: Partial agonist

Q9. Which process describes reduced receptor responsiveness after continued agonist exposure?

  • Receptor up-regulation
  • Receptor desensitization (tachyphylaxis)
  • Facilitation
  • Potentiation

Correct Answer: Receptor desensitization (tachyphylaxis)

Q10. Which transporter is primarily responsible for serotonin reuptake into presynaptic terminals?

  • DAT (dopamine transporter)
  • SERT (serotonin transporter)
  • NET (norepinephrine transporter)
  • VAChT (vesicular acetylcholine transporter)

Correct Answer: SERT (serotonin transporter)

Q11. What is the role of autoreceptors on presynaptic terminals?

  • Enhance neurotransmitter synthesis permanently
  • Provide negative feedback to inhibit further transmitter release
  • Transport neurotransmitter into postsynaptic cell
  • Activate second messenger cascades in the postsynaptic neuron

Correct Answer: Provide negative feedback to inhibit further transmitter release

Q12. Which drug class increases synaptic serotonin by blocking its reuptake?

  • Beta-blockers
  • SSRIs (selective serotonin reuptake inhibitors)
  • MAO-B inhibitors
  • Acetylcholinesterase inhibitors

Correct Answer: SSRIs (selective serotonin reuptake inhibitors)

Q13. Which molecule acts as a gaseous neurotransmitter and diffuses freely across membranes?

  • Acetylcholine
  • Nitric oxide (NO)
  • Dopamine
  • ATP

Correct Answer: Nitric oxide (NO)

Q14. Which adrenergic receptor subtype primarily mediates increased heart rate and contractility?

  • Alpha-1
  • Beta-1
  • Beta-2
  • Alpha-2

Correct Answer: Beta-1

Q15. Quantal release refers to:

  • Continuous leakage of ions across the membrane
  • Release of neurotransmitter in discrete packets (vesicles)
  • Hormone secretion from endocrine glands only
  • Electrical coupling strength between neurons

Correct Answer: Release of neurotransmitter in discrete packets (vesicles)

Q16. Which enzyme synthesizes acetylcholine from choline and acetyl-CoA?

  • Choline acetyltransferase (ChAT)
  • Acetylcholinesterase (AChE)
  • Tyrosine hydroxylase
  • Phenylethanolamine N-methyltransferase

Correct Answer: Choline acetyltransferase (ChAT)

Q17. Which statement best describes GPCR signaling in neurohumoral transmission?

  • GPCRs are ion channels that open upon ligand binding
  • GPCR activation engages heterotrimeric G proteins to modulate second messengers
  • GPCRs directly phosphorylate intracellular proteins
  • GPCRs only mediate genomic effects via nuclear translocation

Correct Answer: GPCR activation engages heterotrimeric G proteins to modulate second messengers

Q18. In synaptic plasticity, long-term potentiation (LTP) is primarily associated with:

  • Decreased postsynaptic AMPA receptor density
  • Enhanced synaptic strength, often via NMDA receptor-dependent mechanisms
  • Permanent loss of synapses
  • Exclusive presynaptic inhibition of release

Correct Answer: Enhanced synaptic strength, often via NMDA receptor-dependent mechanisms

Q19. Which pharmacological agent would increase acetylcholine levels at synapses by inhibiting breakdown?

  • Neostigmine (acetylcholinesterase inhibitor)
  • Propranolol (beta-blocker)
  • Fluoxetine (SSRI)
  • Reserpine (vesicular monoamine transporter inhibitor)

Correct Answer: Neostigmine (acetylcholinesterase inhibitor)

Q20. What is the primary effect of presynaptic uptake inhibition on neurotransmission?

  • Decrease synaptic neurotransmitter concentration
  • Increase extracellular neurotransmitter concentration and prolong signaling
  • Enhance enzymatic degradation in the synaptic cleft
  • Block vesicular release mechanisms directly

Correct Answer: Increase extracellular neurotransmitter concentration and prolong signaling

Q21. Which drug class blocks beta-adrenergic receptors to reduce cardiac workload?

  • ACE inhibitors
  • Beta-blockers
  • Calcium channel activators
  • Monoamine oxidase inhibitors

Correct Answer: Beta-blockers

Q22. Which process allows rapid removal of neurotransmitter from the synaptic cleft in many central synapses?

  • Endocytosis of postsynaptic receptors
  • Active reuptake into presynaptic terminals or glia
  • Conversion into DNA within the synapse
  • Diffusion into intracellular mitochondria

Correct Answer: Active reuptake into presynaptic terminals or glia

Q23. Which receptor subtype is ionotropic among cholinergic receptors?

  • Muscarinic M2
  • Nicotinic
  • Muscarinic M1
  • Beta-adrenergic

Correct Answer: Nicotinic

Q24. Which term describes a drug that stabilizes a receptor in its inactive conformation, reducing constitutive activity?

  • Partial agonist
  • Inverse agonist
  • Neutral agonist
  • Allosteric enhancer

Correct Answer: Inverse agonist

Q25. Which factor most restricts penetration of many drugs into the brain, affecting neurohumoral drug action?

  • Liver metabolism
  • Blood-brain barrier (BBB)
  • Gastric pH
  • Renal glomerular filtration

Correct Answer: Blood-brain barrier (BBB)

Q26. Which is a common effect of activating presynaptic alpha-2 adrenergic receptors?

  • Increased neurotransmitter release
  • Inhibition of neurotransmitter release via feedback
  • Postsynaptic depolarization
  • Conversion of NE to epinephrine

Correct Answer: Inhibition of neurotransmitter release via feedback

Q27. Which enzyme catalyzes the rate-limiting step in catecholamine synthesis?

  • Tyrosine hydroxylase
  • Monoamine oxidase
  • Dopamine beta-hydroxylase
  • Phenylethanolamine N-methyltransferase

Correct Answer: Tyrosine hydroxylase

Q28. Which concept explains how a small amount of neurotransmitter can produce a large cellular response?

  • Pharmacokinetics
  • Second-messenger amplification
  • First-pass metabolism
  • Receptor sequestration

Correct Answer: Second-messenger amplification

Q29. At the neuromuscular junction, miniature end plate potentials (MEPPs) reflect:

  • Action potential propagation failure
  • Spontaneous release of single vesicles of acetylcholine
  • Postsynaptic receptor down-regulation
  • Hormonal modulation of muscle metabolism

Correct Answer: Spontaneous release of single vesicles of acetylcholine

Q30. Which pharmacological strategy increases synaptic norepinephrine by preventing vesicular storage?

  • SSRIs
  • Reserpine (VMAT inhibitor)
  • Beta-2 agonists
  • Acetylcholinesterase inhibitors

Correct Answer: Reserpine (VMAT inhibitor)

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