Intro CNS II: Neurotransmitters

Question 1

Noradrenergic neurons (i.e. neurons that utilize norepinephrine) are located in the

Answer 1

medulla oblongata, pons and midbrain called the reticular activating system

Question 2

a prototype catecholamine

Answer 2

Norepinephrine

Question 3

Very important in arousal (wakefulness) and in regulation of autonomic functions like breathing and blood pressure

Answer 3

Nepi

Question 4

Nepi must be made in the brain bc

Answer 4

can’t cross the BBB

Question 5

Nepi is made from

Answer 5

tyrosine, taken across the BBB

Question 6

tyrosine is converted to 3,4-dihydroxyphenylalanine (DOPA) by

Answer 6

tyrosine hydroxylase

Question 7

DOPA is converted into dopamine by

Answer 7

DOPA decarboxylase

a) low substrate specificity

Question 8

dopamine is converted into norepinephrine by

Answer 8

dopamine beta hydroxylase

Question 9

Primary regulation of norepinephrine synthesis occurs via

Answer 9

tyrosine hydroxylase (TH)

Question 10

TH is normally saturated with tyrosine so its activity is the rate limiting step for____ synthesis under basal conditions

Answer 10

DOPA

Question 11

TH has an essential co-factor

Answer 11

tetrahydrobiopterine, BH4

Question 12

Short-term regulation of tyrosine hydroxylase activity occurs via:

Answer 12

(1) phosphorylation at four different serine residues

(2) end-product (i.e. norepinephrine) inhibition of BH4 binding to the enzyme; this detects over-filled vesicles

Question 13

Synthesis of Nepi is tightly regulated; seems designed to maintain a constant amount that is released:

Answer 13

in a single synpatic vesicle

Question 14

Dopamine beta hydroxylase is located in______ and co released with_________

Answer 14

synaptic vessicles
with NE
(not well regulated)

Question 15

DOPA decarboxylase has _____substrate specificity and is found in

Answer 15

LOW

serotonergic neruons like astrocytes

Question 16

Tyrosine Hydroxylase is saturated with ______ at normal conc but not saturated with _____-

Answer 16

saturated with tyrosine

not saturated with tetrahydrobiopterine (BH4) co-factor

Question 17

Activity of tyrosine hydroxylase is regulated by

Answer 17

binding of BH4

Question 18

Where does the last step of synthesis of NE occur

Answer 18

Dopamine is taken into the vesicle, the last step of synthesis occurs there

Question 19

Vesicular monoamine transporters are called VMAT; VMAT2 is found

Answer 19

in the brain

Question 20

NE competes directly for BH4; the NE regulating BH4 binding is :

Answer 20

a specific regulatory pool present in cytosol

Question 21

Neuronal activity increases _____, which then actiates CaM kinase which increases affinity for BH4

Answer 21

Calcium

Question 22

What activates CaM kinsase

Answer 22

increase in neuronal activity–> increase in Ca++

Question 23

What results in decreased affinity of TH for BH4

Answer 23

inhibition of cAMP generation and decreased PKA activity

Question 24

Three mechanisms of norepinephrine release

Answer 24

a) calcium-dependent exocytosis of vesicles
b) reversal of plasma membrane transporters
c) dendritic release that is not calcium-dependent

Question 25

Release of NE is regulated by presynaptic receptors (autoreceptors)

a) _______inhibits release
b) _______ increases releas

Answer 25

alpha2 receptor

beta receptor

Question 26

alpha 2 presynaptic receptor will _____ NE release

Answer 26

inhibit

called feed back regulation

Question 27

Beta receptor on the presynaptic terminal will _____ NE release

Answer 27

increase

called feed forward regulation

Question 28

All transmitters can be inactivated by

Answer 28

diffusion

Question 29

_____ by the presynaptic neuron is the most important: neuronal not astrocytic

Answer 29

Reuptake

Question 30

During reuptake:

High affinity carrier proteins move norepinephrine from _____ to ______ compartments

Answer 30

from extracellular to intracellular compartments

Question 31

During reuptake of NE, this is a E requiring process via

Answer 31

Na+ co transporter

Question 32

Reuptake for NE has a binding site for norepinephrine that is the site of action of _____

Answer 32

inhibitors

Question 33

Once norepinephrine is intracellular, it can be

Answer 33

re-packaged into vesicles for release or degraded by enzymes

Question 34

deaminates norepinephrine

Answer 34

Monoamine oxidase (MAO)

Question 35

which form of MAO is found in the brain

Answer 35

MAOB

Question 36

MEch of Catechol-O-methyl-transferase (COMT)

Answer 36

transfers a methyl group from S-adenosylmethionine to the meta OH of norepinephrine

Question 37

transfers a methyl group from S-adenosylmethionine to the meta OH of norepinephrine

Answer 37

Catechol-O-methyl-transferase (COMT)

Question 38

Two enZ inactivations of NE

Answer 38

MAO

COMT

Question 39

All 9 of the receptors for norepinephrine are

Answer 39

‘adrenergic’ G protein coupled

Question 40

how are NE receptors classified

Answer 40

using structure activity releationships

Question 41

Coupled to 2nd messenger that increases Ca++ and is found on non-neuronal cells in periphery

Answer 41

alpha 1

Question 42

alpha 1 receptors are coupled to ______ and will _____ Ca++ found in non-neuronal cells

Answer 42

2nd messengers

increase

Question 43

these inhibit adenyl cyclase and often present on presynaptic neourons; release-inhibiting autoreceptor

Answer 43

alpha 2

Question 44

alpha 2 receptors _____ adenyl cyclase, are on presynaptic side and are

Answer 44

inhbit

release inhibiting autoreceptors

Question 45

Beta receptors for NE will

Answer 45

increase adenly cyclase activity

Question 46

Beta receptors all work to increase adenyl cyclase, the dif in Beta subtypes is

Answer 46

the tissue they are located in

Question 47

What does adenyl cyclase do

Answer 47

generates cAMP and then activates PKA

Question 48

Via alpha receptors we see that NE will

Answer 48

induce arousal/stimuation and information gating or focus like a traffic controller

Question 49

Via beta receptors we see reguation of

Answer 49

sympathetic and PNS outflow such as BP control

Question 50

Neurotensin is what kind of NT

Answer 50

neuropeptide

Question 51

Neurotensis is ____ aa long and found in

Answer 51

13 aa long

prefrontal cortex and the hypothalamus in the midbrain

Question 52

Neurotensin is always co-localized with

Answer 52

DA—- these two transmitters are utilized by same neurons

Question 53

Seems that the peptides in general are _______ with other neurotransmitters and affect and are affected by these NTs.

Answer 53

co-localized

Question 54

It’s hypothesized that the neuropeptides add _______ to the simple signaling that could occur with a single transmitter

Answer 54

complexity, (“color”)

Question 55

Co-transmission is a ___ and a ____

Answer 55

peptide and amine

Question 56

Transmitting signals are different, not

Answer 56

redundant

Question 57

Neurotensin starts as a _____ aa and then hydrophobic signal sequence will direct the protein to

Answer 57

170

to the ER

Question 58

At the Gogli, neurotensin is:

Answer 58

packed into secretory vesicles that containe peptidases where it’s processed to one molecule of neurotensin and one neurmedin N

Question 59

What results from going 170 precursorr of neurtoensin

Answer 59

processed in the golgi by peptidases to one Neurotensin and one neuromedin N

Question 60

Neurotensin is stored in different type of vesicles that are NOT synaptic vesicles but are

Answer 60

secreatory vesicles: dense core

Question 61

dense core secreatory vesicles for Neurotensin are smaller or larger then synpatic vesicles

Answer 61

larger

Question 62

Neurotensin secreatory vesicles are transported to axons via

Answer 62

secratory path

Question 63

Neurotensin secreatory vesicles concentration as terminals

Answer 63

low, variable

Question 64

Release of Neurotensin is ________, but require high intensity, rapid firing of neurons to be released

Answer 64

calcium dependent

Question 65

What is special about neurotensin release

Answer 65

Release is not necessarily at the active zone; can be released anywhere along the membrane and is not recaptured

Question 66

Regulation of inactivation of neurotensin

Answer 66

1. Nonselective peptidases cleave the peptide
2. Diffusion
3. No reuptake by transporters
   a) However, peptide bound to receptor can be internalized along with the receptor and is transported up to the cell body and may be functional there

Question 67

peptides tend to _______that is, they are more persistent at their receptors than the amine neurotransmitters

Answer 67

“last longer”;

Question 68

Compared to the inactivation of glutamate, inactivation of neorotensin is:

Answer 68

more haphazard,

singnaling is LESS directed and can last longer with lower fidelity

Question 69

Receptors for Neurotensin

Answer 69

GCRP with many bonds bc neurtensin is so large and will have higher affinity binding

Question 70

The higher affinity binding and more bonds forming btw neurotensin and R may compensate for:

Answer 70

lower amounts released and distance needed to travel