UW BIOUNIT 1
LECTURE 6THE ADDICTED BRAIN
LEARNING TARGETS & SUCCESS CRITERIA FOR LECTURE 6
LEARNING TARGETS:
• I CAN EXPLAIN THE CHANGES THAT OCCUR IN THE BRAIN OF AN ADDICT
SUCCESS CRITERIA
• UNDERSTAND NEURONAL SUBSTRUCTURE IN THE CONTEXT OF THE REWARD PATHWAY
• DESCRIBE THE ROLE OF OTHER NEUROTRANSMITTERS INTO THE ADDICTION STORY
• IDENTIFY BRAIN STRUCTURES INVOLVED IN THE ADDICTION STORY
• UNDERSTAND ADDICTION FROM A PERSPECTIVE OF TIMELINE
• UNDERSTAND THE HALLMARKS OF ADDICTION AND DECIDE IF A NEW COMPOUND IS ADDICTIVE BASED ON THESE HALLMARKS
• LEARN ABOUT RELAPSE AND OPTIONS FOR ENABLING WITHDRAWAL AND PREVENTING RELAPSE
PRE-TEST
IN THE REWARD PATHWAY, WHERE ARE DOPAMINE RECYCLING TRANSPORTERS?
A. IN THE VENTRAL TEGMENTAL AREA ON THE DENDRITES
B. IN THE VENTRAL TEGMENTAL AREA ON SYNAPTIC BULBS
C. IN THE PREFRONTAL CORTEX ON THE DENDRITES
D. IN THE NUCLEUS ACCUMBENS ON THE DENDRITES
E. IN THE NUCLEUS ACCUMBENS ON SYNAPTIC BULBS
WHICH OF THE FOLLOWING ARE EXCITATORY NEUROTRANSMITTERS?
A. DOPAMINE
B. GABA
C. GLUTAMATE
PRE-TESTWHAT IS THE JOB OF THE AMYGDALA?
A. TO HELP US UNDERSTAND AND REACT TO SENSORY STIMULI
B. TO HELP US UNDERSTAND AND REACT TO EMOTIONS
C. TO HELP US MAKE DECISIONS AND LEARN COMPUTATIONAL SKILLS
D. TO HELP US KEEP OUR BODIES IN HOMEOSTASIS
E. TO HELP US KEEP OURSELVES COORDINATED AND BALANCED
DOPAMINE: THE RISK TO USE
• IT TAKES GUTS TO DECIDE TO DO SOMETHING THAT OTHERS THINK IS ADDICTIVE….
• IT’IS A GAMBLE TO GET STARTED ON AN ACTIVITY THAT LEADS OTHER’S DOWN THE ROAD TO ADDICTION.
• PEOPLE WHO TEND TO WANT TO TAKE THAT GAMBLE ARE RISK-TAKERS AND ADVENTURE SEEKERS.
• WE ARE ALL COMFORTABLE WITH DIFFERENT AMOUNTS OF NOVELTY IN OUR LIVES. .
Are you a risk-taker? A thrill-
seeker?
Or are you a homebody –
easily satisfied?
DOPAMINE: A PARTIAL STORY
• WHY RISK TAKING?
• THE KEY IS HOW DOPAMINE IS RECEIVED IN THE NUCLEUS ACCUMBENS
• LOTS OF FACTORS INFLUENCE THIS COMPLEX TRAIT OF BEING A THRILL SEEKER
• CRAVE EXCITEMENT PARTIALLY BECAUSE OUR DOPAMINE REWARD SYSTEM IS “HUNGRY”.
• DOPAMINE RECEPTORS ARE PROTEINS ENCODED BY THE CORRESPONDING GENE
• DIFFERENT VERSIONS OF THAT GENE WILL GIVE RISE TO DIFFERENT VERSIONS OF THE RECEPTOR SOME BIND DOPAMINE WELL AND OTHERS DO NOT.
DOPAMINE: REWARD DEFICIENCY SYNDROME
THESE DIFFERENT VERSIONS OF THE DOPAMINE RECEPTOR ARE LINKED WITH A PHENOMENA TERMED THE REWARD DEFICIENCY SYNDROME (RDS).
• PET SCANS THAT SHOW PEOPLE WHO HAVE ADDICTIVE DISORDERS AND OTHERS WITHOUT
• SHOWS AVAILABLE DOPAMINE RECEPTORS IN BRIGHT COLORS, RED AND YELLOW.
low high Available dopamine receptors
DOPAMINE: REWARD DEFICIENCY SYNDROME
• THERE ARE MORE AVAILABLE DOPAMINE RECEPTORS IN PEOPLE WHO ARE NOT ADDICTS
• SO A LITTLE DOPAMINE WILL GO A LONG WAY AND BE VERY SATISFYING
• INDIVIDUALS THAT HAVE A REDUCED ABILITY TO TO RESPOND TO DOPAMINE WILL CRAVE OPPORTUNITIES THAT INCREASE THEIR CHANCES OF GETTING SOME DOPAMINE STIMULATION RISK TAKERS
low high Available dopamine receptors
GLUTAMATE: THE FRONTAL LOBES TALK BACK
• STIMULATING THE NUCLEUS ACCUMBENS (NA) PRODUCES EUPHORIA WHEN DRUG-USING IS NEW
• CONTINUED USE REDUCES THIS EUPHORIC SENSATION
• MANY PEOPLE CONTINUE TO USE THE DRUG PARTLY BECAUSE THE CIRCUITRY OF THE BRAIN IS NOT ONE-WAY
dopamine
glutamate
The neurons that communicate from prefrontal cortex (PFC) to the nucleus accumbens (NA) utilize the excitatory neurotransmitter glutamate.
GLUTAMATE: THE FRONTAL LOBES TALK BACK
PREFRONTAL CORTEX (PFC) RECEIVES A MESSAGE FROM THE NA SENDS MESSAGES BACK
• REINFORCE THE BEHAVIOR THAT LED TO THE RELEASE OF DOPAMINE INITIALLY.
• FEEDBACK FROM THE PFC SAYS “GOT THE MESSAGE AND I LIKED IT!
• STRENGTHENS THIS PATHWAY”… “I WANT MORE”
dopamine
glutamate
The neurons that communicate from prefrontal cortex to the nucleus accumbens utilize the very common excitatory neurotransmitter glutamate.
GLUTAMATE: THE FRONTAL LOBES TALK BACK
OCCUR PARTLY BECAUSE OF STRENGTHENING SYNAPTIC CONNECTIONS
• MORE SYNAPSES BETWEEN TWO CELLS OR REFINING THE FINE STRUCTURE OF THOSE SYNAPSES.
• THIS IS PART OF WHY A USER CONTINUES TO USE
dopamine
glutamate
The neurons that communicate from prefrontal cortex to the nucleus accumbens utilize the excitatory neurotransmitter glutamate.
LEARNING TO USE DRUGS
•Cognitive learning-o Recall previous decisions made and
associated responses
•Psychomotor learningo The user recalls the physical processes
associated with using the drug. o This makes it easier to perform these
activities later.
•Affective learningo the user remembers the pleasure
experienced while using the drug and seeks to relive that experience.
What are the brain areas involved in learning and memory?
BIOCHEMISTRY OF LEARNING• THE GLUTAMATE PROJECTIONS
FROM THE PFC DON’T JUST GO BACK TO THE NA TO REINFORCE THE PATHWAY.
• THEY ALSO GO TO SEVERAL AREAS OF THE BRAIN RESPONSIBLE FOR COGNITIVE, PSYCHOMOTOR, AND AFFECTIVE LEARNING.
• PART OF THE THALAMUS IS ASSOCIATED WITH RECALL AND ASSOCIATIVE MEMORY (MAKING CONNECTIONS BETWEEN CAUSE AND EFFECT).
• GLUTAMATE NEURONS FROM THE PFC ARRIVE AT THE THALAMUS ARE INVOLVED IN COGNITIVE MEMORY.
• THE AMYGDALA IS ASSOCIATED WITH EMOTIONAL LEARNING. (AFFECTIVE MEMORY).
• THE VENTRAL PALLIDUM COMMUNICATES WITH MOTOR CORTEX.
• SO PROJECTIONS FROM THE PFC TO THE VENTRAL PALLIDUM ARE THOUGHT TO REINFORCE PSYCHOMOTOR MEMORY FORMATION.
BIOCHEMISTRY OF LEARNING
Prefrontal cortex
Ventral tegmental area
Nucleusaccumbens
dopamine glutamate
amygdala
ventralpallidum
hippocampus
thalamus
BIOCHEMISTRY OF LEARNINGDRUGS OF ABUSE BIND TO THE AREAS ALREADY DESCRIBED BUT MANY OF THEM DON’T INFLUENCE DOPAMINE OR GLUTAMATE DIRECTION.
• ANOTHER NEUROTRANSMITTER THAT IS IMPORTANT IN CONTINUED USE OF A DRUG, OTHER THAN DOPAMINE & GLUTAMATE GABA.
• GABA’S ROLE IS LARGELY TO KEEP THE PATHWAY UNDER CONTROL ACTS AS THE TRAFFIC COP
• GABA IS INHIBITORY AND HELPS TO PREVENT THE FIRING OF DOPAMINE AND GLUTAMATE NEURONS.
• THEREFORE WHEN GABA IS INHIBITED, THE REGULATION IS WEAKENED
BIOCHEMISTRY OF LEARNING
Prefrontal cortex
Ventral tegmental area
Nucleusaccumbens
dopamine glutamate
amygdala
ventralpallidum
hippocampus
Thalamus
GABA
CRAVING AND RELAPSE
• DOPAMINE AND SEROTONIN ARE IMPORTANT NEUROTRANSMITTERS IN DETERMINING WHO WILL START USING AN ADDICTIVE SUBSTANCE.
• DOPAMINE, GLUTAMATE, AND GABA ARE IMPORTANT BIOCHEMICALS THAT DRIVE USERS TO CONTINUE USING ADDICTIVE SUBSTANCES.
CRAVING AND RELAPSEMANY PEOPLE SUCCESSFULLY QUIT USING AN ADDICTIVE SUBSTANCE.
• SHEER WILL POWER
• MEDICATION
• “ONCE AN ALCOHOLIC [FOR INSTANCE] – ALWAYS AN ALCOHOLIC”.
• THE NOTION HERE IS THAT EVEN WHEN NOT ENGAGED IN DRINKING, AN ALCOHOLIC IS A PERSON WHO CAN EASILY BECOME ADDICTED TO ALCOHOL.
• A PAST USER IS ENTICED BACK INTO DRUG USE IN WAYS THAT INVOLVED DRUG-LEARNING JUST DISCUSSED AND TO BE FURTHER CONSIDERED IN ACTIVITY 6.
RECAP ON THE BIOCHEMISTRY OF ADDICTION
•Dopamine signals influence why people seek drug use and why drug use can feel good.
•Glutamate signals reinforce feel-good circuits and stimulate learning about the drug related experience on three levels of memory.
•GABA signals help to keep these pathways regulated.
ADDICTION STAGES
• INITIATION = INITIAL EXPOSURE – DO YOU WANT TO TRY SOMETHING THAT MIGHT BE DANGEROUS OR ILLEGAL OR AT LEAST MERELY SELF-GRATIFYING?
• CONTINUATION = CONTINUED USE – DO YOU KEEP USING SOMETHING DESPITE IT BEING “FROWNED UPON” BY LAW OR FRIENDS OR FAMILY?
• CESSATION= STOPPING – CAN YOU STOP USING THAT THING WHEN YOU CHOOSE TO? OR DO YOU CONTINUE TO USE IT DESPITE SEVERE HARM TO SELF OR OTHERS?
• RELAPSE = AFTER YOU DO SUCCEED IN QUITTING, CAN YOU STAY “CLEAN”? HOW DIFFICULT IS IT TO FIGHT THE URGES? WHAT TRIGGERS THOSE URGES?
ADDICTION – THE “STAGES”
Decision to use (or not)
Decision to REuseDOPAMINE
Decision to withdrawal
Relapse
Compulsive use
Regulates emotional learningRegulates (reduces) fear
avoidance
GLUTAMATE
GLUTAMATE
Heightened response to little cues
Hard to ignore desire to use again
ADDICTION’S HALLMARKS
A DRUG THAT QUALIFIES ON ALL “HALLMARKS OF ADDICTION” IS VERY LIKELY TO BE AN ADDICTIVE DRUG.
1. THE DRUG STIMULATES THE REWARD PATHWAY
2. THE USE OF THE DRUG LEADS TO TOLERANCE
3. THE USE OF THE DRUG LEADS TO DEPENDENCE, MAKING IT HARD TO WITHDRAW FROM DRUG USE
TREATMENT OPTIONS
1-DRUG TREATMENT PROGRAMS EXIST TO HELP PEOPLE CONQUER THEIR ADDICTIONS
• INCLUDE BEHAVIORAL OR COGNITIVE THERAPY AS WELL AS DRUG THERAPY
2- SUBSTITUTION THERAPY
• NICOTINE USERS MAY TRY A NICOTINE PATCH OR GUM
• HEROIN ADDICTS MAY TRY METHADONE IN PLACE OF HEROIN TO REDUCE WITHDRAWAL SYMPTOMS
• TRADE ONE ADDICTION FOR ANOTHER
3- PHARMACEUTICALS
• DRUGS BEING DEVELOPED AND TRIED TO REPLACE THE REWARD PATHWAY STIMULATION THAT IS LOST WHEN ONE QUITS USING A EUPHORIA-INDUCING DRUG.
RELAPSE HAPPENS• PEOPLE WHO MAKE GREAT PROGRESS IN BREAKING FREE
OF ADDICTION CAN, WITH RELATIVELY MINOR PROMPTING, GET RIGHT BACK IN TO THEIR OLD WAYS.
• HTTP://WWW.DRUGABUSE.GOV/PUBS/TEACHING/TEACHING6/TEACHING8.HTML
ER6
REQUIRED:
LISKA- SECTION OF DRUG DEPENDENCE & ADDICTION -1.7
INTERNET
• HTTP://WWW.ADDICTIONSEARCH.COM/TREATMENT_BLOG/STAGES-OF-ADDICTION_22.HTML
• HTTP://WWW.ADDICTIONSEARCH.COM/TREATMENT_BLOG/DEPRESSION-OR-SUBSTANCE-ABUSE-WHICH-CAME-FIRST_54.HTML
• HTTP://WWW.DRUGABUSE.GOV/SCIENCEOFADDICTION/ADDICTION.HTML
• HTTP://WWW.DRUGABUSE.GOV/SCIENCEOFADDICTION/TREATMENT.HTML
SUPPLEMENTAL
• SCIENTIFIC AMERICAN – HALLUCINOGENS AS MEDICINE (THIS WILL BE REQUIRED READING IN UNIT 6)
• HTTP://WWW.SCIENTIFICAMERICAN.COM/ARTICLE.CFM?ID=HALLUCINOGENS-AS-MEDICINE