Lecture 20- Receptors

Question 1

What do polyribosomes do?

Answer 1

Translate mRNA free in cytosol

Question 2

What is the post synaptic density?

Answer 2

An electron dense area, packed with proteins

Question 3

What is ATP like?

Answer 3

Nucleotides can act as extracellular
signalling molecules
* ATP can act as a neurotransmitter
* Remember its really important role in energy
metabolism, and a source of phosphate groups
* ATP is co-stored and co-released with
classical neurotransmitters
* ATP acts on purinergic receptors
* both ion channel and G-protein coupled

Question 4

Do all vesicles have only one type of receptor?

Answer 4

No some vesicles have mixed categories

Question 5

What is an example of an enzyme linked receptor? How does it work?

Answer 5

Receptor tyrosine kinases”
* Cytosolic domain with intrinsic enzyme (enzyme part of receptor)
activity
or
* Direct association with an enzyme (enzyme close by)

• Note: each subunit of an enzyme-linked receptor usually has only one
  transmembrane domain.

Question 6

For receptor tyrosine kinases is the kinase part of the receptor?

Answer 6

No, but it is an important part of the complex

Question 7

What is brain derived neurotrophic factor an example of? How does it work? What is it’s function?

Answer 7

-An enzyme-linked receptor

How does it work:
-Neurotrophins bind to TrkB receptors (which are dimers which have a neurotrophic binding site externally and an intrinsic tyrosine kinase domain inwardly)

Function:
-Brain derived neurotropic factor (BDNF) is a neurotrophin
-Neurotrophins are proteins required for the development of the nervous system
-BDNF was first identified as a survival promoting protein and is a member of the
neurotrophin family of growth factors
-High levels of BDNF are found in the hippocampus
-BDNF plays an important role in neuronal
plasticity

Question 8

How is BDNF synthesized and packaged/ released?

Answer 8

• Synthesized as the precursor proBDNF
• ProBDNF is not an inactive precursor, it is a signalling protein in its own right
• Both are released in an activity dependent
  manner

-BDNF is is packaged into dense core vesicles

Question 9

What is BDNF associated with?

Answer 9

BDNF expression is associated with
* normal and pathological aging
* psychiatric disease

Question 10

What lifestyle choice enhances the expression of BDNF

Answer 10

• Exercise enhances the expression of
  BDNF in normal and pathological
  conditions.

Question 11

How do the constituted and regulated pathways of BDNF release from vesicles have opposing functions?

Answer 11

Regulated pathway:
-Increased mature BDNF
causes…
-Pro survival effects
-Facilitates LTP

Constitutive pathway:
-Increase in pro BDNF
causes…
-Pro-apoptotic effects
-Facilitates LTD

Pro and mature forms of BDNF have opposite effects

Question 12

At the ionic /cellular level how does BDNF/ TrkB work?

Answer 12

• BDNF undergoes Ca2+ influx-dependent
  release from pre and postsynaptic sites
• act on ligand-gated ion channels
• voltage-gated ion channels
• second-messenger pathways
• which mediate fast and slow synaptic transmission in neurons

This has multiple actions in the cell

Question 13

What does it mean when we say Brain derived neurotropic factor (BDNF)
Alters “local protein synthesis” and gene expression….

Answer 13

-Change last for long time

-Regulate the transmission of MRNA and synapses

Question 14

What is Endocannabinoids an example of? What are they and what do they do?

Answer 14

-It’s a presynaptic target
- Anandamide and arachidon-oylglycerol (2-AG)
-Endogenous ligand for the cannabis receptors (CB1 and CB2)
-small lipid soluble molecules
-synthesized in postsynaptic terminals in response to Ca2+ influx
-acts as a retrograde signal to the presynaptic terminal
-activates CB1 receptors which are coupled to G-proteins
-There are more CB1 receptors than any other
G-protein-coupled receptor in the brain

Question 15

What does medical marijuana do? What is it an example of?

Answer 15

-“medical marijuana” to stimulate appetite in
patients with chronic diseases, cancer and
AIDS, via enhancing the sense of smell
-Is a Endocannabinoid

Question 16

What are some fast acting receptors?

Answer 16

Ligand-gated ion channels
* milliseconds
* have intrinsic ion channels (ligand gated
ion channels)
* channel opens to allow influx or efflux of
ions
* excitatory or inhibitory depending on ion
involved and its direction of movement

Question 17

What are some examples of neurotransmitter that act on ligand gated/ fast acting receptors?

Answer 17

Glutamate and GABA

most CNS synapses are mediated by the
amino acids:
* glutamate (Glu),
* gamma-aminobutyric acid (GABA), or
* glycine (Gly)

Question 18

What does GABA stand for and what are the two types of receptors that it can act on? (what are these receptors types)

Answer 18

GABA: Gamma aminobutyric acid
GABA-A receptors: ionotropic
GABA-B receptors: metabotropic

Question 19

How is GABA synthesized? What does this mean in terms of localizing GABA?

Answer 19

• GABA is an amino acid but it is not found in proteins
• GABA is synthesized in GABA’ergic neurons by glutamic acid decarboxylases
  (GADs).
• GADs therefore are good markers for GABA’ergic neurons

Question 20

What cycle exists with GABA?

Answer 20

-Synthesized in the GABAergic neuron (presynaptic terminal). Goes from glutamine to glutamate then GABA
-GABA then loaded into vesicles via a neurotransmitter
-Goes across clef interacts with receptors on post synaptic neuron
-Then taken up by astrocytes for metabolism
-Glutamine is returned to the presynaptic terminal via the astrocyte so the process can repeat (recycling mechanism)

Question 21

Where are GABA-A receptors located?

Answer 21

• Widespread- CNS and PNS, e.g.
• Limbic system
• Eye
• Amygdala
• Neurons, oligodendrocytes and
  Schwann cells
• NMJ

Question 22

Are GABA-A receptors diverse?

Answer 22

Yes, there is a huge variety of subunits that can make them up

Question 23

What is the structure of GABA receptors like?

Answer 23

-Each segment= a subunit
-Between subunits are GABA binding sites which are not specific to the subunit
-Across the membrane there is an Extracellular end terminal, 4 transmembrane domains and intracellular end terminal

Question 24

What type of electrical potential are GABA-A receptors associated with? What happens?

Answer 24

Inhibitory Postsynaptic Potential (IPSP)
* Activation of GABA (or glycine)-gated ion
channels causes an IPSP.
* An inhibitory postsynaptic potential (IPSP) is a
transient hyperpolarization of the postsynaptic
membrane potential caused by the presynaptic
release.
* Via opening of Chloride ion channels and resulting influx of Cl-
* Results in inhibition of the target cells
* More negative inside, and thus less likely to fire
* GABA’ergic interneurons
* Modulatory effects within a network

Question 25

What do Benzodiazepines & ethanol so with regards to GABA?

Answer 25

Enhance it’s natural effect

Question 26

What is the activity at GABA-A receptors like?

Answer 26

• Synaptic and extrasynaptic sites
• Mediate phasic and tonic inhibition
• In phasic inhibition, GABA is released from
  presynaptic terminals and binds to
  postsynaptic GABAARs
• In tonic inhibition, ambient extracellular
  GABA binds to extrasynaptic GABAARs
  and modulates resting membrane
  potentials and cell excitability

Question 27

What are drugs that enhance GABA action? What do pet scans show about GABA activity in people with anxiety disorders?

Answer 27

• Drugs that enhance GABA action are anxiolytic - reduce anxiety (or panic)
• People with anxiety disorders can have
  reduced GABA activity
• The figures shows the level of GABA receptors in a person with a panic disorder
  (right) relative to a person who does not.

Question 28

What type of receptor are GABA-B receptors?

Answer 28

G-protein coupled receptors

Question 29

Where are GABA-B receptors located in the brain?

Answer 29

-Widespread in the brain
-* Located both pre synaptically and postsynaptically,

Question 30

What are GABA-B receptors associated with?

Answer 30

*GABAB receptor associated with epilepsy,
spasticity, schizophrenia, anxiety, depression,
cognitive deficits, and addiction

Question 31

Where acetylcholine receptors located in the brain?

Answer 31

Widespread location
* transmitter at the neuromuscular junction,
autonomic ganglia, postganglionic
parasympathetic synapses
* interneurons in striatum and cortex
* and a diffuse modulatory system - neurons
originate in midbrain and project to cortex,
hippocampus and amygdaloid complex

Question 32

What is the action of choline acetyltransferase/ acetylcholinesterase and therefore what is a potential treatment for disease involving acetylcholine?

Answer 32

choline taken up into nerve terminal
* ACh synthesized by choline
acetyltransferase
* ACh transported into vesicles
* following synaptic release ACh degraded by
acetylcholinesterase

• Acetylcholine esterase inhibitors are used as
  one of out only therapies for Alzheimer’s disease (not broken down as fast means sits in synapse for longer)
• Target for insecticides
• Chemical weapons and drugs

Question 33

What are the different types of acetylcholine receptors?

Answer 33

-Can be metabotropic or ionotropic
-Homomeric nAChRs: Form a calcium channel which is very important
-There is also heteromeric nAChRs

The subunits mixing and matching is what creates these different subunits

Question 34

How is the idea of same signal, different responses illustrated by Acetylcholine?

Answer 34

-The specific way a cell responds to an extracellular signal depends on
its receptors and intracellular machinery used to interpret the signal.
-For example, with acetylcholine on a heart muscle cell it results in a decreased rate and force of contraction. On a salivary gland cell it causes secretion. On a Skeletal muscle cell it results in contraction

Question 35

What is Muscarinic AchR like?

Answer 35

• Sensitive to muscarine
• G-protein coupled (GPC)
• Found for example in:
• Glia
• Heart muscle
• Salivary glands

Question 36

What is Nicotinic AchR like?

Answer 36

• Sensitive to nicotine
• ligand gated ion channel
• mediate fast synaptic transmission
• occur in high density at neuromuscular
  junction
  ~ 20,000 µm2
• sensitive to a-bungarotoxin

Question 37

Where are acetylcholine receptors located? Where are sodium channels located?

(in the postsynaptic membrane)

Answer 37

-On crest of junctional folds (post synaptic membrane) so can act quickly when acetylcholine is released
-Sodium channels at base of junctional fold