Lecture 15: Chemical messengers & Excitotoxicity

Question 1

Where is the CB-2 receptor found and what role does it play?

Answer 1

• Found in brain (microglia, NOT neurons)
• Immune system and gut
• Anti-inflammatory
• In brain, cause macrophages to remove β-amyloid

Question 2

What is the metabotropic receptor for GABA; what type of G-proteins and the end result?

Answer 2

• GABAB
• Heterodimer G protein (Gq and Gi)
• Increases K+ and decreases Ca2+
• End result = hyperpolarization

Question 3

What are the excitatory AA’s and what are the inhibitory AA’s?

Answer 3

Excitatory: glutamate, aspartate, taurine

Inhibitory: GABA and glycine

Question 4

What is the central location (2 of them) in brain for production of ACh?

Answer 4

• Midbrain
• Pons

Question 5

The NMDA receptor has multiple modulatory sites, whats the function of the PCP site?

Answer 5

• Inside the channel (internal to Mg site)
• Blocks the channel
• PCP only binds if ingested. One of the most common features of NMDA channel blockers is they produce hallucinations

Question 6

The large amount of EAA’s following an ischemic event causes a huge influx of what ion?

Answer 6

Ca²⁺

Question 7

Where does the EAA Aspartate arise from and is documented as the NT where?

Answer 7

• From oxaloacetate
• NT in visual cortex and pyramidal cells

Question 8

What are the effects of opioid proteins binding Kappa (κ) receptors?

Answer 8

- Analgesia

• Diuresis
• Miosis
• Dysphoria (depressed)
• Inhibits adenylyl cyclase and decrease calcium

Question 9

The 5-HT3 receptors is special why and what physiologic process is it related to?

Answer 9

• Only ionotropic serotonergic receptor
• Related to vomiting

Question 10

What are the 2 pharmocological subtypes of non-NMDA receptors?

Answer 10

• AMPA
• Kainate

Question 11

What are the Metabotropic receptors for ACh in the CNS; related to what?

Answer 11

• Muscarinic receptors
• 5 different subtypes (M1, M2, M3, etc..)
• Second messenger signaling systems

Question 12

What does the oxygen deprivation associated with ischemia lead to?

Answer 12

• Cells unable to meet metabolic needs, no ATP being produced.
• Na/K-ATPase stops functioning, K+ builds up, cell remains DEPOLARIZED
• Leads to tons of ACTION POTENTIALS
• Also the release of NTs, including EAAs

Question 13

Dopamine, norepinephrine, and epinephrine are all made from which AA?

Answer 13

Tyrosine

Question 14

Function in the body of the EAA’s binding Metabotropic receptors?

Answer 14

• Learning
• Memory
• Motor systems

Question 15

Function of Serotonin in the CNS; metabolized by what enzyme after uptake?

Answer 15

• Controls attention and mood; involved in depression
• Metabolized by MAO enzyme after uptake

Question 16

POMC makes what important opioid peptide?

Answer 16

β-endorphins

Question 17

The Metabotropic receptors for EAA are located where?

Answer 17

Both Pre- and Post-synaptic location

Question 18

A large number of what type of receptors have been found at extra-synaptic locations through-out the cortex and are related to the use of general anesthetics?

Answer 18

• GABA receptors
• Many general anesthetics are postulated to produce anesthesia by activating these receptors

Question 19

How many different 5-HT (serotonergic) receptors are there; what type of receptor are they (except for one)?

Answer 19

• Seven different 5-HT receptors (5-HT1, 5-HT2, 5-HT3, etc..)
• All are metabotropic, except for 5-HT3 (ionotropic)

Question 20

Which non-NMDA receptor contains a Benzodiazepine site?

Answer 20

• AMPA non-NMDA receptors
• Benzodiazepine inhibirs response to NT

Question 21

What type of G-proteins are the 5-HT1 and 5-HT2 receptors associated with?

Answer 21

• 5-HT1 associated with Gi
• 5-HT2 associated with Gq

Question 22

What kind of receptor is the CB-1 receptor for endocannabinoids; what is the function?

Answer 22

• Decreases NT release
• Interacts with EAA and GABA neurotransmission
• Gi protein-coupled receptor

Question 23

How does phosphorylation of elF2α kinase contribute to reperfusion injury?

Answer 23

• elF2α kinase leads to decrease in protein synthesis
• Activates caspase 3, which increases apoptotic signaling

Question 24

The NMDA receptors and non-NMDA receptors are almost exclusively expressed how?

Answer 24

Post-synaptic expression

Question 25

What receptor does the inhibitory NT glycine act on (ionotropic or metabotropic)?

Answer 25

• Glycine receptor = ionotropic
• Chloride channel

Question 26

The increased intracellular [Ca²⁺] following an ischemic event leads to the activation of Phospholipase A₂, which has what effect?

Answer 26

• Causes physical damage to membranes and release of arachidonate from membranes
• Arachidonate acts as ryanodine receptor on ER causes release of more Ca²⁺ from stores including (ER and mito.)

Question 27

The neurons and glia are able to recycle EAA’s using what kind of transport and what is their affinity for EAA’s like?

Answer 27

• Na+ dependent secondary active transport
• High affinity

Question 28

The NMDA receptor has multiple modulatory sites, whats the function of the Mg²⁺ site?

Answer 28

• Mg²⁺ binding site is inside the channel
• Blocks the channel
• Cell must be depolarized for Mg²⁺ to leave and for channel to be open

Question 29

Function in the body of the EAA’s binding NMDA receptors?

Answer 29

• Long-term changes in synaptic strength
• Learning
• Memory

Question 30

After L-DOPA is produced what are the next steps in the formation of catecholamine NT’s?

Answer 30

• L-DOPA is converted to dopamine
• Third enzyme converts dopamine —-> norepinephrine
• Final step requires norepinehprine to leave vesicle it was made in so PNMT can convert norepi —-> epinephrine

Question 31

How are the opioid peptides made?

Answer 31

Coded and created via DNA/RNA/Protein synthetic machinery

Question 32

What are the positive and negative neural functions of NO?

Answer 32

Positive:

• Long-term potentiation and memory
• CV and respiratory control

Negative:

• Leads to production of free radicals
• Kills invading bacteria (but also cells)

Question 33

Nicotonic receptors are ionotropic and allow for what ions to enter?

Answer 33

• Mainly allow Na+
• Some neuronal forms allow for significant Ca2+ influx!

Question 34

The NMDA receptor has multiple modulatory sites, what is the glycine site for and why is it so important?

Answer 34

• Glycine serves as a co-agonist
• Presence of glycine REQUIRED for EAA to have effect
• Glycine on own CANNOT open the channel

Question 35

What are the 3 main opioid peptides?

Answer 35

1. Endorphins
2. Enkephalins
3. Dynorphins

Question 36

The three catacholamine NT’s are made starting from tyrosine, what is the first step in the pathway (enzyme and product); why is this step important?

Answer 36

• Tyrosine hydroxylase converts tyrosine to L-DOPA
• This is the rate limiting step in the synthesis

Question 37

What is the relation to the central synapse that use norepi and epi as their NT to the autonomic nervous system?

Answer 37

• Independent of the ANS in the CNS

Question 38

After Phospholipase A2 disrupts the membrane following an ischemic event we see the “unfolded protein response,” what is this and what gets activated?

Answer 38

• ER stops making protein
• Activation of elF2α-kinase

Question 39

When the non-NMDA receptor is activated by EAA you get influx of what ion(s)?

Answer 39

• Sodium influx
• Very small amount of Ca²⁺

Question 40

What are major locations where opioid peptides are made?

Answer 40

• Basal ganglia
• Hypothalamus
• Parabrachial nuceli and raphe nuclei

Question 41

The increased intracellular [Ca2+] following an ischemic event leads to the activation of μ-calpain (protease), which has what effects?

Answer 41

• Proteolysis
• Spectrin (more structural damage)
• elF4G (eukaryotic induction factor 4G -prevents protein synthesis)

Question 42

Where does the EAA glutamate arise from?

Answer 42

• Alpha-KG
• Metabolic and NT pools strictly separated

Question 43

As oxygen begins to come back after an ischemic event there is risk for reperfusion injury why?

Answer 43

• Neurons are damaged
• Much of the O₂ will end up as a free radical somewhere (peroxidase)
• Some will be used to produce ATP, but will be used by kinases, instead of the cell, and more destructive enzymes will be phosphorylated and activated

Question 44

Activation of non-NMDA receptors causes what kind of epsp?

Answer 44

Leads to a typical epsp

Question 45

Why are non-NMDA receptors often co-localized at the same synapse with NMDA receptors?

Answer 45

• The non-NMDA receptor is able to bring in Na+, which depolarizes the cell membrane
• This depolarization causes the Mg²⁺ blocking the NMDA receptor to leave and Ca²⁺ can now flow through the open channnel

Question 46

How is Ca²⁺ and NMDA receptors related to production of NO?

Answer 46

• Influx of Ca²⁺, which then bind calcineurin
• Activates nitric oxide synthase
• NOS catalyzes the rxn which creates NO from arginine

Question 47

What are the effects of opioid proteins binding to Mu (μ) receptors?

Answer 47

- Analgesia

- Respiratory depression

- Euphoria

• Sedation
• Constipation
• Inhibits adenylyl cyclase and increase K+ efflux = hyperpolarize

Question 48

The increased intracellular [Ca2+] following an ischemic event leads to the activation of calcineurin, which has what effect?

Answer 48

• Phosphatase
• Among other things, activates NOS
• Increases NO synthesis!!!

Question 49

What 3 places do we find GABA?

Answer 49

1) Cerebellum
2) Cortex
3) Retina

*Higher CNS/brain centers*

Question 50

Where are the ionotropic receptors for ACh; where are they located; how many subunits and what is the relevance of this?

Answer 50

• Nicotinic receptors
• Located at NMJ, autonomic ganglia
• 5 subunits and 16 genes
• Changing the subtype changes the way the channel behaves!

Question 51

What enzyme breaks down ACh in the CNS and where is this enzyme bound?

Answer 51

• Acetylocholinesterase
• Bound to the post-synaptic cell membrane

Question 52

What are the steps in the production of serotonin, which is rate limiting?

Answer 52

• Tryptophan —> 5HTP uses tryptophan hydroxylase (rate-limiting)
• 5HTP —> Serotonin uses 5-HT decarboxylase

Question 53

NE within the CNS is found in a very localized cluster of neurons known as; what is NE crucial for in regards to the CNS?

Answer 53

• Located in locus coeruleus
• Crucial to waking up and alertness

Question 54

What is the major inhibitory NT of the CNS; critical for what?

Answer 54

• GABA
• Critical for producing conciousness/awarness (brain arousal mechanisms)
• Control of voluntary motion

Question 55

How do Glia and Neurons work together to recycle EAA’s?

Answer 55

Glia: convert glutamate –> glutamine and then release into ECF

Neurons: take glutamine up and convert it back to glutamate

Question 56

What is the predominate enzyme for inactivation of epinephrine?

Answer 56

COMT

Question 57

What is the ionotropic receptor for GABA, what ion is conducted, what potentiation site does it contain?

Answer 57

• GABA_A
• Chloride conductance, therefore inhibitory
• Benzodiazepine site potentiates

Question 58

How does NO add to the cascade and contribute to reperfusion injury and edema?

Answer 58

In high quantity, NO contributes to edema by damagin capillary endothelial cells

Question 59

ACh in the CNS is crucial for what 3 functions?

Answer 59

1. Producing consciousness (wakefullness), but not awarness
2. Control of voluntary motion (Basal Ganglia)
3. Initiation of REM sleep

Question 60

What activates the NMDA receptor and when activated what ions is influxed?

Answer 60

• Activated by exogenous NMDA
• Also glutamate and aspartate
• Allows Ca²⁺ influx

Question 61

What are the 2 endocannabinoid NT’s?

Answer 61

1) Anandamide
2) 2-Arachidonylglycerol

Question 62

Histamine is found specificially where in the CNS; main function; which recepots mediate its neuronal effects?

Answer 62

• In the TUBEROMAMMILLARY nucleus of posterior hypothalamus
• Wakefulness
• H1 and H2 mediate neuronal effects

Question 63

What is the sequence in the production of catecholamine NT’s?

Answer 63

Tyrosine —(tyrosine hydroxylase)—> L-DOPA —> Dopamine —> Norepi —-(PNMT)——> Epinephrine

Question 64

What are the specific neuronal metabotropic ACh receptors and what does each do?

Answer 64

M1: signals IP3/DAG and increases Ca2+ - Gq

M4: presynaptic autoreceptor; striatum of basal ganglia - decreases cAMP - Gi

M5: cerebrovasculature; dopaminergic neurons of basal ganglia - increases IP3/DAG = Gq

Question 65

Which serotonergic receptor has a high affinity for anti-depressant drugs?

Answer 65

5-HT6

Question 66

The poison strychnine has an effect on what receptor?

Answer 66

• Blocks Glycine receptor
• Loss of inhibitory regulation leads to death by respiratory failure following convulsions

Question 67

What are the 4 major systems in the CNS that use Dopamine and the basic function of each?

Answer 67

1. Substantia nigra - motor, damaged in Parkinson’s
2. Mesolimbic - VTA to Nucleus Accumbens - Central to pleasure, reward and addiction (cocaine use)
3. Mesocortical - VTA to frontal cortex. Attention, high level conciousness
4. Tuberinfundibular - hypothalamus to anterior pituitary. Dopamine suppresses release of Prolactin

Question 68

What are the 2 types of ionotropic receptors for EAA’s?

Answer 68

1) NMDA receptor
2) Non-NMDA receptors
- AMPAR’s
- KAR’s

Question 69

The precursor molecule proenkephalin makes what 2 important opioid peptides?

Answer 69

1. met-enkephalin
2. leu-enkephalin

Question 70

How is the action of GABA limited, enzyme involved?

Answer 70

• Reuptake
• Catabolism by GABA-transaminase

Question 71

Function in the body of the EAA’s binding non-NMDA receptors?

Answer 71

• Primary afferents
• Premotor (UMN)

Question 72

What is the main inhibitory NT in the spinal cord?

Answer 72

Glycine

Question 73

What are the effects of opioid proteins binding Delta (δ) receptors?

Answer 73

- Analgesia

• Inhibits adenylyl cyclase and decrease calcium

*Target for research/future drugs because the only effect is pain relief

Question 74

Following an ischemic event in the brain there is a high synaptic EAA for what 2 reasons?

Answer 74

1) EAA release excessive
2) EAA re-uptake is Na+ dependent (Na/K-ATPase is non-functional)

Question 75

Activation of the NMDA receptor leads to what?

Answer 75

• Leads to epsp
• Slower onset (time to remove Mg²⁺)
• Longer duration (Ca²⁺)

Question 76

What AA is GABA derived from and what enzyme makes it?

Answer 76

• Derived from glutamate
• From glutamate decarboxylase (GAD)

Question 77

Serotonin is located where in CNS and is derived from which AA?

Answer 77

• Neurons located in raphe nuclei
• Derived from Tryptophan

Question 78

As mitochondiral membranes are disrupted following an ischemic event which cell-death pathway become activated?

Answer 78

• Apoptotic pathway activated
• Cytochrome C and Caspase 9 —> Activates Caspase 3
• Caspase 3 is proteolytic enzyme and apoptotic