psych 181: dr. anagnostaras lecture 4 behavioral pharmacology
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Psych 181: Dr. AnagnostarasPsych 181: Dr. Anagnostaras
Lecture 4Lecture 4Behavioral PharmacologyBehavioral Pharmacology
Behavioral PharmacologyBehavioral Pharmacology
The study of the relationship between The study of the relationship between the physiological actions of drugs and the physiological actions of drugs and their effects on behavior and their effects on behavior and psychological functionpsychological function
Drugs do not create behaviors outside the Drugs do not create behaviors outside the normal species-typical repertoirenormal species-typical repertoire
They alter the probability of occurrence of They alter the probability of occurrence of behaviorsbehaviors
Set and settingSet and setting
The behavioral effects of drugs are due to The behavioral effects of drugs are due to complex interactions amongst the complex interactions amongst the pharmacological actions of drugs, the state pharmacological actions of drugs, the state of the organism of the organism (“set”)(“set”), and the , and the environmental circumstances surrounding environmental circumstances surrounding drug administration drug administration (“setting”)(“setting”)
Evaluating the behavioral effects of drugsEvaluating the behavioral effects of drugs
Primary EvaluationPrimary EvaluationUnconditioned effects on behaviorUnconditioned effects on behavior
Motor activityMotor activity locomotion, catalepsy, balance, strengthlocomotion, catalepsy, balance, strength
SeizuresSeizures Eating and drinkingEating and drinking
Secondary evaluationSecondary evaluation
Tests of more specific functionsTests of more specific functions(either unconditioned or conditioned (learned)(either unconditioned or conditioned (learned) AnalgesiaAnalgesia
Hot platetest
Tail-flicktest
Lightsource
Secondary evaluationSecondary evaluation
Learning and memoryLearning and memory
-several different forms-several different forms
Spatial Radial Maze TaskSpatial Radial Maze Task
QuickTime™ and aPhoto - JPEG decompressor
are needed to see this picture.
Lots of spatial (room) cues
All arms baited, must not revisit arms
Rats/mice usethese cues to avoid revisitingarms (ecologicallyvalid)
•Different brain systems than non-spatial
“Win-Shift”
•Different brain systems than visible platform
•Measure latency to mount plaform & swim path (distance traveled to platform)
•Use spatial cues in room (posters, etc) to locate submerged platform (same place ea. time)
Secondary evaluation Secondary evaluation
Learning and memoryLearning and memory AnxietyAnxiety Schedule-controlled behaviorSchedule-controlled behavior
Schedules of reinforcementSchedules of reinforcement
Positive reinforcementPositive reinforcementPresentation Presentation increasesincreases the probability of the the probability of the preceding behaviorpreceding behavior
Negative reinforcementNegative reinforcementRemoval Removal increasesincreases the probability of the the probability of the preceding behaviorpreceding behavior
PunishmentPunishmentDecreasesDecreases the probability of a behavior the probability of a behavior
Ratio schedulesRatio schedulesRatio schedulesRatio schedules
Reinforcement is based in the number of Reinforcement is based in the number of responses maderesponses made
Fixed vs. variable (FR vs. VR)Fixed vs. variable (FR vs. VR)
Continuous reinforcement (FR1)Continuous reinforcement (FR1)
Interval schedulesInterval schedulesInterval schedulesInterval schedules
Reinforcement is based on the amount of time that Reinforcement is based on the amount of time that has elapsed since the last reinforcementhas elapsed since the last reinforcement
Fixed vs. variable (FI vs. VI)Fixed vs. variable (FI vs. VI)
DRL schedules DRL schedules (differential reinforcement of low rates)(differential reinforcement of low rates)
Version of a FI; get reinforcement after fixed Version of a FI; get reinforcement after fixed time, but if respond before time is up causes time, but if respond before time is up causes “time out” and resets clock“time out” and resets clock
Schedules of reinforcementSchedules of reinforcement
Operant procedures used for two primary Operant procedures used for two primary reasons:reasons:
1) To ask questions about the stimulus 1) To ask questions about the stimulus properties of drugs (“what does it feel properties of drugs (“what does it feel like”)like”)
2) To ask questions about the reinforcing 2) To ask questions about the reinforcing and/or incentive properties of drugs and/or incentive properties of drugs (“will you work for it”)(“will you work for it”)
Drugs as discriminative stimuliDrugs as discriminative stimuli
SSDD = stimulus that signals availability of = stimulus that signals availability of reinforcement (e.g., red vs. green light)reinforcement (e.g., red vs. green light)
Animals learn to respond when appropriate SAnimals learn to respond when appropriate SD D is is presentpresent
Drugs can serve as a SDrugs can serve as a SDD
Animals learn to respond appropriately in Animals learn to respond appropriately in presence of drug Spresence of drug SD D
SSD D is related to interoceptive cues of drugis related to interoceptive cues of drug
Drugs as discriminative stimuliDrugs as discriminative stimuli
Method to ask animals about the interoceptive cues Method to ask animals about the interoceptive cues associated with different drugsassociated with different drugs
Press left lever if on morphine > get food Press left lever if on morphine > get food Right lever if given saline > get foodRight lever if given saline > get food
Give new drug - is it like morphine?Give new drug - is it like morphine? Left lever - YesLeft lever - Yes Right lever - NoRight lever - No
Drugs as discriminative stimuliDrugs as discriminative stimuli
Using drug discrimination techniques find that Using drug discrimination techniques find that animals classify drugs just like humansanimals classify drugs just like humans
E.g., amphetamine and cocaine alike, but E.g., amphetamine and cocaine alike, but different than morphine, but morphine like different than morphine, but morphine like heroin and other opiatesheroin and other opiates
Measurement of drug rewardMeasurement of drug reward
Goal is to determine abuse potential of Goal is to determine abuse potential of different drugs and to study mechanisms by different drugs and to study mechanisms by which drugs produce rewarding effects and which drugs produce rewarding effects and dependencedependence
Measure effects on withdrawal symptomsMeasure effects on withdrawal symptoms Self-administration paradigmsSelf-administration paradigms Conditional place preferenceConditional place preference
Effects on withdrawalEffects on withdrawal
Steps:Steps:
Produce physical dependence with prototypical Produce physical dependence with prototypical drug (e.g., morphine)drug (e.g., morphine)
Withdraw and give unknownWithdraw and give unknown If block withdrawal symptoms will probably If block withdrawal symptoms will probably
produce similar dependence syndromeproduce similar dependence syndrome
(Not conclusive)(Not conclusive)
Self-administration paradigmsSelf-administration paradigms
Procedures:Procedures:
Substitution proceduresSubstitution procedures Choice proceduresChoice procedures
Predictive validity: Predictive validity: All drugs self-administered by All drugs self-administered by animals are also self-administered by people animals are also self-administered by people
Self-administration paradigmsSelf-administration paradigms
Drugs that maintain self-administrationDrugs that maintain self-administrationamphetamines, barbiturates, cathinone, cocaine, amphetamines, barbiturates, cathinone, cocaine, codeine, ethanol, fentanyl, heroin, methadone, codeine, ethanol, fentanyl, heroin, methadone, methamphetamine, MDMA, methylphenidate, methamphetamine, MDMA, methylphenidate, morphine, nicotine, PCP, THCmorphine, nicotine, PCP, THC
Drugs that do notDrugs that do notaspirin, haloperidol, imipramine, lidocaine, aspirin, haloperidol, imipramine, lidocaine, mescaline, LSDmescaline, LSD
Self-administration paradigmsSelf-administration paradigms
FR SchedulesFR Schedules
typical measure typical measure rate or number of rate or number of responses (or responses (or infusions)infusions)
inverted U curveinverted U curve
Sizemore et al. (1997)
Dose of Cocaine
Self-administration paradigmsSelf-administration paradigms
FR SchedulesFR Schedules
Descending limb?Descending limb? incapacityincapacity satietysatiety loss of rewardloss of reward
Dose of Cocaine
Ascendin
g limb Descending limb
Self-administration paradigmsSelf-administration paradigms
FR SchedulesFR Schedules
Descending limb?Descending limb? incapacityincapacity satietysatiety loss of rewardloss of reward
Dose of CocaineSizemore et al. (1997)
Ascendin
g limb Descending limb
Self-administration paradigmsSelf-administration paradigms
FR SchedulesFR SchedulesOn ascending limb typically assume:On ascending limb typically assume: increase in rate = increase in rewardincrease in rate = increase in rewardOn descending limb, typically assume:On descending limb, typically assume: decrease in rate = increase in rewarddecrease in rate = increase in reward
{increase in rate = decrease in reward{increase in rate = decrease in reward(represents a compensatory response to loss of (represents a compensatory response to loss of reward)}reward)}
Self-administration paradigmsSelf-administration paradigms
Increase in rate = decrease in rewardIncrease in rate = decrease in reward
Fits dopamine (DA) antagonist studiesFits dopamine (DA) antagonist studies DA antagonists increase rate (as does DA antagonists increase rate (as does
decreasing dose)decreasing dose)
Homepage.mac.com/sanagnos/psyc181.htmlSelf-administration paradigms
Homepage.mac.com/sanagnos/psyc181.htmlSelf-administration paradigms
ProblemProblemE.g., 6-OHDA lesionE.g., 6-OHDA lesion
(decreased rate (decreased rate interpreted as interpreted as decreased reward)decreased reward)
Roberts et al. (1980)
Self-administration paradigmsSelf-administration paradigms
ProblemProblem
“How can both an increase and a decrease in rate of drug intake be used to draw the same conclusion? The dilemma is unmistakable: rate is an ambiguous measure of reinforcing efficacy” (Arnold & Roberts, 1997)
Self-administration paradigmsSelf-administration paradigms
Problem of rate Problem of rate is old issueis old issue
Electrical self-stimulation
Faster rate with lower of two current intensities, but choose higher of two intensities(Hodos & Valenstein, 1962)
Self-administration paradigms(X)Self-administration paradigms(X)
Progressive ratio Progressive ratio schedulesschedules
Progressive increase Progressive increase in responses requiredin responses required1, 2, 4, 6, 9, 12, 15, 20, 25, 1, 2, 4, 6, 9, 12, 15, 20, 25, 32, 40, 50, 62, 77, 95, 118, 32, 40, 50, 62, 77, 95, 118, 145, 178, 219, 268, 328, 145, 178, 219, 268, 328, 402, 492, 603 ...402, 492, 603 ...
(j = 0.20)(j = 0.20)
Self-administration paradigmsSelf-administration paradigms
Progressive ratio Progressive ratio schedulesschedules
Measure of Measure of motivation to take motivation to take drug (how hard drug (how hard will will work for will will work for it), defined by it), defined by “breakpoint”“breakpoint”
Self-administration paradigmsSelf-administration paradigms
““Breakpoint”Breakpoint”(highest ratio achieved)(highest ratio achieved)
“Breakpoint”
Self-administration paradigmsSelf-administration paradigms
““Breakpoint”Breakpoint”
Comparing different drugs
DA antagonists vs. 6-OHDA
amphetamine
cocaine
Self-administration paradigmsSelf-administration paradigms
Problems: Problems: One data point, cumulative One data point, cumulative dosing, etc.dosing, etc.
Conditioned place preferenceConditioned place preference
Pavlovian context conditioning procedurePavlovian context conditioning procedure Pair drug administration with place in Pair drug administration with place in
environmentenvironment Take advantage of a principle of rewardTake advantage of a principle of reward
stimuli that are rewarding, “elicit approach stimuli that are rewarding, “elicit approach responses and maintenance of contact with responses and maintenance of contact with the stimulus”the stimulus”
On test day: measure where spend timeOn test day: measure where spend time
Conditioned place preferenceConditioned place preference
AdvantagesAdvantages SimpleSimple Limited training requiredLimited training required Test in non-drug stateTest in non-drug state
DisadvantagesDisadvantages Not measure drug reward but rewarding Not measure drug reward but rewarding
properties of secondary reinforcerproperties of secondary reinforcer
Sample questionSample question
Which schedule of reinforcement is used Which schedule of reinforcement is used to calculate “breakpoint”?to calculate “breakpoint”?
(a) FR10(a) FR10
(b) VI15(b) VI15
(c) DRL schedule(c) DRL schedule
(d) Variable ratio(d) Variable ratio
(e) Progressive ratio(e) Progressive ratio