Which change contributes to decreased neurotransmitter release during opioid receptor signaling?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Prepare for the Anesthesia Pharm Exam with our comprehensive study resources. Utilize flashcards and detailed multiple-choice questions complete with hints. Ace your exam and become proficient in anesthesia pharmacology!

Multiple Choice

Which change contributes to decreased neurotransmitter release during opioid receptor signaling?

Opioid receptor activation engages Gi/o proteins that suppress calcium entry into the presynaptic terminal and promote potassium efflux, which hyperpolarizes the neuron. The release of neurotransmitter is driven by calcium entering the terminal and triggering vesicle fusion. Fewer calcium ions entering means fewer vesicles fuse and less transmitter is released, so decreased calcium influx directly leads to reduced neurotransmitter release.

Other options don’t fit as well: lowering cAMP is a secondary effect and doesn’t acutely curb release as directly as calcium entry does; reducing potassium efflux would lessen hyperpolarization, not promote the decrease in release; activating NMDA receptors would increase calcium influx and enhance release rather than decrease it.

Which change contributes to decreased neurotransmitter release during opioid receptor signaling?

Prepare for the Anesthesia Pharm Exam with our comprehensive study resources. Utilize flashcards and detailed multiple-choice questions complete with hints. Ace your exam and become proficient in anesthesia pharmacology!

Which change contributes to decreased neurotransmitter release during opioid receptor signaling?

Get the latest from Examzify