Intro to CNS Pharmacology Flashcards
leak channels open during resting membrane potential
K+, Cl-
action potentials: sequence of events
- localized depolarization–>voltage-gated sodium channels open
- voltage-gated potassium channels also open but their opening is more gradual and their inactivation is slower
action potentials are ______ and ______ in amplitude
all-or-none, 100 mV
synaptic potentials (IPSP, EPSP) are ______ and ______ in amplitude
graded, few mV
ways two kinds of EPSPs can occur
- increased conductance EPSPs: open ligand-gated channels for sodium or calcium
- decreased conductance EPSPs: close potassium leak channel
way in which IPSP can occur
open ligand-gated channels for potassium or chloride
gating mechanism for action potential vs. synaptic potentials
APs: voltage
synaptic: ligand/chemical
norepinephrine is important for what and via what receptors?
arousal/wakefulness (alpha receptors), autonomic nervous system regulation (beta receptors)
rate-limiting step of norepinephrine synthesis
conversion of tyrosine to L-DOPA by tyrosine hydroxylase
co-factor for tyrosine hydroxylase
BH4 (tetrahydrobiopterine)
autoreceptor responsible for feed-forward regulation of norepinephrine release (increases release)
beta receptor
autoreceptor responsible for feedback regulation of norepinephrine release (decreases release)
alpha2 receptor
3 mechanisms of norepinephrine inactivation
- diffusion
- reuptake by presynaptic neuron
- enzymatic inactivation (MAO and COMT)
compare the vesicles that hold norepinephrine vs. neurotensin
- norepinephrine: small
- neurotensin: large, dense core
norepinephrine vs. neurotensin: compare where they are packaged
- norepinephrine: filled at the terminal
- neurotensin: packaged at the Golgi
