Drug Receptors Flashcards
B adrenergic =
GPCR
NAchR
ligand gated
NMDA
dual ligand gated (needs gly and glu)
DAT
dopamine transmembrane transport protein
acetylcholinesterase
enzyme
vitamin d and retinoid receptor dimer
nuclear receptor
MU opioid receptor
GPCR
affinity
the ability of a drug to bind its biological target (once its in the compartment how does it bind the receptor)
kd =
[k-1]/[k+1]= [L][R]/[LR]
ka =
1/kd
high affinitry drug has
a low kd and it will bind more receptors at a low concentration than a low affinity drug
affinity is more highly influenced by
off rate than on rate because of the ka formula and the kd formula
buprenorphine affinity compared to morphine, fentanyl, and methadone
higher affinity; can bind receptor at sub nanomolar concentrations
potency
drugs that are more potent take less concentration to have the same effect than less potent drugs
clinical example for potency
fentanyl was more potent than alfentanil for patients that needed to be intubated
term for what happens when we bind the receptor…then this can be determined
efficacy….but efficacy does not equal binding
EC50
median effective concentration; the concentration at which you get 50% of the maximal drug effect
full agonist
a drug that can provide the maximal effect at a given receptor so morphine is a full agonist at the Mu opioid receptor
partial agonist
cannot get 100% efficacy
neutral antagonist
sits on the receptor and does nothing
inverse agonist
inverse agonist is a drug which when I place it on the receptor it does the opposite- so this curve shows a partial inverse agonist (if I went all the way down to 0 on the bottom it would be a full inverse agonist)
clinical example of opioids @ receptor (agonists vs. partial agonists)
morphine (full agonist) > thienorphine > buprenorphine
reversible inhibition
noncovalent binding example would be ibuprophen for cox 1
irreversible inhibition
permanent alteration- aspirin is a permanent cox 1 inhibiotr; organophosphates lead to acetylcholinesterase inhibition
