CNS

Question 1

CNS drugs can act on ___ and ___ receptors to produce an affect, causing one of what five actions?

Answer 1

pre and post synaptic receptors

1. production
2. storage
3. release
4. termination of action
5. activate or block receptors

Question 2

CNS is very similar to ANS in terms of the actions that occur at the synaptic clefts… what 3 things make it different?

Answer 2

1. CNS= more complex and many more synapses
2. CNS= strong inhibitory neuron network constantly modulating transmission
3. CNS= More neurotransmitters

Question 3

some drugs acting on the CNS do so by manipulating what two ion channel types?

Answer 3

1. voltage-gated (response to changes in membrane potential- channel types: Na, K, Ca)
2. ligand -gated: NTs bind receptors

Question 4

ligand- gated ion channels: what are 3 types of receptor-channel coupling?

Answer 4

1. receptor acts directly on channel
2. Receptor is coupled to ion channel which is regulated by NTs and their receptors
3. Receptor is coupled to G protein that activates 2nd messenger…
   - Cyclic adenosine monophosphate (cAMP)
   - Inositol triphosphate (IP3)
   - Diacylglycerol (DAG)

Question 5

Neurotransmitter bind to postsynaptic neuron receptor, elicits response and trigger what two things?

Answer 5

EPSP and IPSP

excitatory post-synaptic potential and inhibitory post-synaptic potentials

Question 6

what are our two excitatory NTs?

Answer 6

Ach, glutamate

Question 7

what are our two inhibitory NTs?

Answer 7

GABA and glycine

Question 8

EPSP is generated by…

Answer 8

Binding to receptor= small depolarization to stimulate EPSP
–> increased permeability of Na+
–>increase intensity and more presynaptic fibers activated
When enough excitatory fibers activated get complete depolarization of postsynaptic neuron

Question 9

IPSP is generated by…

Answer 9

Stimulation if inhibitory neuron =release of inhibitory NTs to bind to postsynaptic neuron
–> increased permeability of K+ and Cl- channels
–> hyperpolarization (which stops that transmission from going on)
This diminishes action potential and neuron firing

Question 10

3 characteristics of NTs found in CNS

Answer 10

1. Found in high concentrations in synaptic area
2. Release via calcium-dependent mechanism
3. Produce postsynaptic response resulting in physiologic activity

Question 11

what are our 4 main types of NTs found in the CNS?

Answer 11

1. Ach
2. Amino acids
3. Monoamines
4. peptides

Question 12

what are the amino acids in the CNS?

Answer 12

glycine, glutatame, GABA

Question 13

what are the monoamines in the CNS?

Answer 13

Serotonin, histamine
Catecholamines:
Dopamine, Epinephrine, Norepinephrine

Question 14

what are the peptides in the CNS?

Answer 14

endorphin, opioid peptides, substance P

Question 15

binding of excitatory NT Ach causes ____ while binding of inhibitory NT GABA causes _____

Answer 15

depolarization (Na + enters cell)

hyperpolarization (Cl- enters cell)

Question 16

what three receptor types does Ach bind to? excitatory or inhibitory?

Answer 16

Binds to M1 receptors: excitatory (like agonist)
Binds to M2 receptors: inhibitory (like antagonist)
Binds to Nicotinic receptors: excitatory (like agonist)

Question 17

what does serotonin bind to and cause?

Answer 17

Bind to serotonin GPCR – 14 different receptors to date

Depending on receptor subtype can cause excitation or inhibition

Question 18

what does histamine bind to and cause?

Answer 18

Bind to histamine GPCR – 4 (H1-H4)

Affect arousal, body temp, vascular dynamics, gastric acid secretion

Question 19

what does dopamine bind to and cause?

Answer 19

Binds primarily to D2 receptor
Exerts slow inhibitory actions postsynaptically
Inhibits calcium channels presynaptically
-more in CNS than periphery

Question 20

what does norepi bind to and cause?

Answer 20

Excitatory effects produced when activate α1 & β1

Inhibitory effects produced when activated α2 presynaptically

Question 21

tell me about what we know about Epi?

Answer 21

Small amount in CNS

Physiologic properties not clearly defined

Question 22

what does glutamate bind to and cause?

Answer 22

Excitatory
Bind to ionotropic (NMDA, AMPA, KA) and metabotropic (8– mGluRs) receptors
Excess attributes to damage and cell death

Question 23

what does GABA bind to and cause? where is it located?

Answer 23

CNS-slow things down
Primary IPSP in the brain – inhibitory
Bind to GABAA or GABAB receptors

Question 24

what does glycine bind to and cause? where is it located?

Answer 24

Primary IPSP in the spinal cord – Inhibitory

Bind to ionotropic glycine receptors

Question 25

selectivity of a drug is based on what? more selective = ?

Answer 25

based on the fact that neurons with different functions have different neurotransmitters
more selectivity = less side effects

Question 26

what are the downsides to the lipid solubility of CNS drugs?

Answer 26

lipid soluble to get into CNS…but that means they also readily cross the placenta and enter fetal circulation

almost all require hepatic metabolism to become polar (water soluble) for elimination/excretion
CYP450 enzymes and drug interactions needs consideration
This can impact clearance of CNS drugs, affect intensity and/or duration of their effect
lots of anti-epileptic have interactions

Question 27

NT may inc Cl- conductance to cause?

Answer 27

inhibition

Question 28

NT may inc K+ conductance to cause?

Answer 28

inhibition

Question 29

NT may inc Na+ conductance to cause?

Answer 29

excitation

Question 30

NT may inc Ca+ conductance to cause?

Answer 30

excitation

Question 31

how is the scheduling of controlled substances set up?

Answer 31

Schedule I greatest potential for abuse–>

Schedule V least potential for abuse

Question 32

schedule 1

Answer 32

high potential for abuse
NO currently accepted medical use
lack of accepted safety for use under medical supervision
Can only get with special paper work, no prescriptions can be written
Heroin, LSD, PCP (general examples)

Question 33

schedule 2

Answer 33

high potential for abuse 
accepted medical use.
Abuse: severe psychological or physical dependence
May not be refilled
Examples: opiods, amphetamines

Question 34

what are 4 opiod/amphetamine schedule 2 drugs?

Answer 34

Fentanyl
Methadone
Cocaine (vasoconstrictive- severe nose bleeds)
Methylphenidate (ritalin)

Question 35

schedule 3

Answer 35

potential for abuse less than schedules I and II
accepted medical use.
Abuse: moderate or low physical dependence or high psychological dependence
Examples:
Testosterone
Buprenorphine
Dronabinol

Question 36

schedule 4

Answer 36

low potential for abuse relative to schedule III drugs 
accepted medical use.
Abuse: limited physical dependence or psychological dependence relative to the drugs in schedule III
Examples:
Tramadol (pain) 
Alprazolam (benzodiadepam)
Phenobarbital (seizure meds)
Zolpidem (ambien-sleep aid)

Question 37

schedule 5

Answer 37

low potential for abuse relative to a schedule IV drug
accepted medical use
Abuse:limited physical dependence or psychological dependence relative to schedule IV
Examples:
Pregabalin
Codeine (mg limit)
Diphenoxylate/atropine (Lomotil)- used for diarrhea
Cannabidiol (Epidiolex)- new seizure med