Stimulants

Question 1

What types of transmitters do amphetamine & cocaine effect?

Answer 1

all monoamines!

DA, NE, EPI, 5-HT

Question 2

What happens when stimulants are used at low doses?

Answer 2

Increased attention / mood

Question 3

What happens when stimulants are used at higher doses?

Answer 3

Decreased activity / mood

Question 4

What happens with chronic high doses of stimulants?

Answer 4

Schizophrenia-like state

Question 5

What are the differences between schizophrenic brains and chronic stimulant brains?

Answer 5

Schizophrenic brains have lower DA concentrations in some parts

Question 6

How long does it take to remove symptoms with antipsychotics in stimulant-induced psychotic states?

Schizophrenia-induced?

Answer 6

Stimulant-induced: Hours

Schizophrenia-induced: Weeks

Question 7

What effects will tolerate with stimulants? Why?

Answer 7

Reinforcing effects

Due to regionally specific receptor downregulation at postsynaptic sites

Question 8

What effects will sensitize with stimulants?

Why?

Answer 8

Motor and psychosis-inducing effects

Due to downregulation of presynaptic autoreceptors

Question 9

What breaks down monoamines?

Answer 9

MAO (monoamine oxidase)

Question 10

What is the ED50 of amphetamine?

Answer 10

10mg (narcolepsy)
20-30mg (adhd)
250mg (abuse)

Question 11

What is the LD50 of amphetamine?

Answer 11

200mg

Question 12

What is the TI of amphetamine?

Answer 12

7-15

Question 13

What is TI?

Answer 13

LD50 / ED50

Question 14

What is the half-life of cocaine?

Answer 14

60min

Question 15

What is the ED50 of cocaine?

Answer 15

~3mg dose

Question 16

What is the LD50 of cocaine?

Answer 16

~50mg

Question 17

What is the TI of cocaine?

Answer 17

~15

Question 18

What are the effects of amphetamine?

Answer 18

Increase release of newly-synthasized DA

Cause vesicles to release DA into cytoplasm

Question 19

What does amph do to DT (dopamine transporter)?

Answer 19

Phosphorylates it

DA is then pumped out of the cell

Question 20

What does Amphetamine block?

Answer 20

MAO

Question 21

What is MAO?

Answer 21

monoamine oxidase

Degradation enzyme responsible for inactivating monoamines

Question 22

What does cocaine do?

Answer 22

Blocks transporter (compared to amphetamine, which reverses it)

Question 23

What is the crucial difference between cocaine / amphetamine?

Answer 23

You need action potentials with cocaine

Question 24

What does cocaine do if near a sodium channel?

Answer 24

Blocks it (local anesthetic)

Question 25

What does cocaine do if near a 5-HT transporter?

Answer 25

Blocks it (and other monoamine transporters)

Question 26

Why doesn’t cocaine always block ion channels, so that it doesn’t have an effect at the synapse?

Answer 26

You need much higher concentrations of cocaine to block ion channels

Question 27

What is the medial forebrain bundle?

Answer 27

Axons from the midbrain to the forebrain
mesoaccumbens axons
mesocortical axons
mesolimbic axons

Monoamine projections to the forebrain

Question 28

How (generally) do amphetamines help with ADHD?

Answer 28

Interaction between NE and DA

Question 29

What are synapses en passante?

Answer 29

Synapses ‘in passing’

Swelling in the middle of an axon containing voltage-gated Ca2+ channels

Cause release sites in the axon itself

Question 30

What is Volume Conduction?

Answer 30

Communication not specific to a synapse

Release neurotransmitter into extracellular space, making a ‘gradient’ of changed activation

Question 31

What are the most diverse group of ion channels?

Answer 31

K+ channels

Question 32

What is a current shunt?

Na+ shunt, K+ shunt

Answer 32

As quickly as Na+ comes in, K+ goes out (K+ driving force affected by Na+)

Keeps membrane voltage stable

Question 33

What are EPSPs in relation to shunts?

Answer 33

Overwhelming the ability of the leak channels to compensate for Na+

Question 34

What is the general rule for D1/D2 receptors?

Answer 34

D1 = excitatory
D2 = inhibitory

Question 35

What is the effect of blocking shunt for NE/DA in relation to ADHD?

Answer 35

Signals better able to come in

Noise blocked

Question 36

What is a metaphor for increasing NE release for a state-change?

Answer 36

Increase volume: make signal stronger, noise weaker

Question 37

What’s happening in the neuron when you change signal-to-noise by adding amphetamine?

Answer 37

Less random activation (shunts, DA)
Cell is more excitable (state-change, depolarization)

Higher likelihood of action potential, but less random noise

Question 38

How addictive are psychostimulants?

Answer 38

Among the most readily addictive substances known

Question 39

What happens when you have low levels of D4 receptors?

Answer 39

‘need the buzz you get from seeing what’s over the next mountain’

More apt to explore, more apt to desire novel experiences

Question 40

How do NE transporters relate to DA?

Answer 40

They’re great at picking up DA - can reduce DA levels

Only one enzyme away from NE

Question 41

How to DA transporters relate to NE?

Answer 41

Not great at picking up NE

NE is already farther along in the cascade chain than DA, so you can’t synthesize DA from NE

Question 42

How much caffeine does a 6-oz cup of coffee have?

Answer 42

74-83mg/5-oz cup (tall is 12-oz)

Question 43

What might help in infant sleep apnea?

Answer 43

Caffeine

Question 44

Which receptors does caffeine antagonize?

Answer 44

A-1 and A-2Aa adenosine receptors

Question 45

Where are the adenosine receptors we’re interested found?

Answer 45

Terminal boutons

But they’re there all over the nervous system

Question 46

Where is adenosine released?

Answer 46

Postsynaptically, propagates BACKWARD to terminal bouton

Question 47

What do A-1 receptors do when activated?

Answer 47

2nd messenger

Increase K+ efflux
Decrease Ca2+ influx

(decrease exocytosis)

Question 48

Where are there lots of A1 receptors?

Answer 48

HC, striatum, septum, frontal/cingulate cortex

Question 49

What brain region is affected first in Alzheimer’s?

Answer 49

Septum

Question 50

What type of neurons mainly exist in the septum?

Answer 50

Cholinergic

Question 51

What is a higher dose of caffeine?

Answer 51

~500mg+

Question 52

What can caffeine do at higher doses?

Answer 52

Hallucinations, paranoia, mania/depression

Question 53

Where in the brain is caffeine less potent?

Answer 53

Brainstem

2-10 cups

Question 54

Where in the brain is caffeine not very potent?

Answer 54

Spinal cord - need 20-50 cups (tremor/seizures)

Question 55

What is the LD50 of caffeine?

Answer 55

~200 cups of coffee (15g)

Question 56

Where is caffeine metabolized?

Answer 56

Cytochrome p-450 in the liver, excreted in urine

Overlaps with alcohol breakdown enzymes

Question 57

What are the three significant metabolites of caffeine?

Answer 57

Paraxanthine (lose a methyl group at the top right)
Theobromine (lose a methyl group between ketones)
Theophylline (lose a methyl group on the bottom left)

Question 58

How does cocaine absorption compare to amphetamine?

Answer 58

It’s worse (less fat-soluble)

Question 59

How is the “signal” increased in signal-to-noise by amphetamine?

Answer 59

Blocking the NeT

Question 60

What does blocking the NeT by amphetamines do physically in the PfC to strengthen “signal”?

Answer 60

NE increases effect transmitters like GLU have at synapses

Question 61

How is “noise” decreased by amphetamine?

Answer 61

Blocks DAT

Question 62

How does blocking DAT decrease “noise”?

Answer 62

cAMP alteration in ion channels (primarily K+)

Suppresses K+ conductance that normally amplifies irrelevant inputs

Question 63

How popular is nicotine?

Answer 63

3 most used drug in the world

Question 64

What is the current therapeutic relevance of nicotine?

Answer 64

NO relevance
(Reduces nicotine withdrawal…)

may help tourette’s, parkinson’s, alzheimer’s, schizophrenia

Question 65

Where do you lose cholinergic neurons with alzheimer’s?

Answer 65

Septum

Question 66

What does nicotine do?

Answer 66

Cholinergic agonist

Question 67

Differences between ACh and Glu?

Answer 67

Glutamate is everywhere, has refined effect of NDMA

Ach is very specific to specific parts of the brain (e.g. cholinergic neurons of the septum)

Question 68

How is nicotine usually injested?

Answer 68

Orally or by inhalation

Question 69

What is the solubility of nicotine?

Answer 69

Both fat and water-soluble

Question 70

How fast does nicotine hit the brain with inhalation?

Answer 70

3 min

peak levels within 10 min

Question 71

What is the ED50 of nicotine?

Answer 71

.5-1mg

cigarette is 8mg

Question 72

What is first-pass metabolism like for nicotine?

Answer 72

HIGH. 90% metabolized in liver by cytochrome P450

Question 73

In what medium is nicotine eliminated?

Answer 73

Urine

Question 74

What is the half life of nicotine?

Answer 74

1/2 hr

Question 75

Why does tolerance to nicotine develop in the liver?

Answer 75

hepatic enzyme activation

Question 76

What is the LD50 of nicotine?

Answer 76

60mg

Question 77

What are lethal effects of nicotine produced by?

Answer 77

Paralysis of respiratory muscles

Nicotinic receptors get overstimulated

Question 78

What happens to quiescent (dormant) nAchRs in the presence of nicotine?

Answer 78

Upregulated, they’re activated

Question 79

What happens in ongoing activation of nAChRs by nicotine?

Answer 79

Desensitizes ongoing activation

Acting as an antagonist now

Question 80

How does long-term antagonistic effects of nicotine work?

Answer 80

Nicotine pushes receptors into an inactive state after long enough exposure

Question 81

Where in the pons do you see lots of nitcotinic Ach receptors?

Answer 81

Locus coeruleus

Lots of NE released there

Question 82

What is causing the rewarding effects of nicotine?

Answer 82

Stimulation of mesolimbic DA neurons by nicotinic cholinergic neurons

Question 83

What is the chemical source of arousal by nicotine?

Answer 83

nACh activation of LC/Brainstem neurons involved in sleep/wake

Activation of cortical/thalamic neurons

Question 84

What does amphetamine do to MAO?

Answer 84

Blocks it, this increases synaptic DA levels

Question 85

Why might amphetamine and cocaine cause toleration of rewarding/reinforcing effects?

Answer 85

Not as many DA receptors in specific parts of the brain

Question 86

What is cocaines’ solubility like?

Answer 86

Less lipid soluble than amphetamine

Both lipid and water soluble (facilitate entering brain)

Question 87

Which monoamine transporters does cocaine block?

Answer 87

5-HT, DA

Question 88

Cocaine acts as a local anesthetic. What does it do to ion channels that causes this?

Answer 88

Gets charged (+)

When it’s charged (+), gets stuck inside sodium channels, blocking Na+ from entering

Question 89

What is DATKi? How is it relevant to cocaine?

Answer 89

A knock-in DA transporter not sensitive to cocaine

Cocaine doesn’t block it, so it recycles DA just as easily, so cocaine has less effect

Question 90

How fast is the GI absorption of caffeine?

Answer 90

99% in 45 min (fast)

Question 91

How fast is the GI absorption of caffeine?

Answer 91

99% in 45 min (fast)

Question 92

Where are A1 and A-2a found?

Answer 92

presynaptically (terminal boutons)

Question 93

What happens when adenosine binds to A-1 receptors?

Answer 93

2nd messenger signals increase K+ efflux, decrease Ca2+ influx

This decreases exocytosis

Question 94

Where in the brain are A-1 receptors generally found?

Answer 94

Limbic + memory system:

HC, striatum, septum, frontal/cingulate cortex

Question 95

The neurons of which part of the brain does caffeine have the greatest effect on?

Answer 95

Cortical neurons - big increase in cortical activity