Learning and memory I

Question 1

What are the 2 ways to describe memory?

Answer 1

1) Declarative or non-declarative

2) Long-term or short term

Question 2

What is declarative memory?

Answer 2

Something you learn in terms of KNOWLEDGE (information, facts)

Question 3

What is non-declarative memory?

Answer 3

Skills (walk, play instrument etc.)

Question 4

What are the key players in memory formation?

Answer 4

Presynapses

Question 5

What happens when an action potential arrives at the presynapse?

Answer 5

• Voltage gated Ca2+ channels open - Ca2+ into the cell
• Ca2+ inside the cell increases, causing the release of neurotransmitter into the synaptic cleft by increasing the fusion of synaptic vesicles to the presynapse

Question 6

What proteins are involved in regulating the docking of vesicles at the presynaptic membrane?

Answer 6

SNARE proteins

Question 7

Where are Ca2+ binding proteins present?

Answer 7

On the membrane of vesicles

Question 8

What is one way to control the release of neurotransmitter into the synaptic cleft?

Answer 8

By regulating the distance between the VESICLES and the Ca2+ CHANNELS

Question 9

How many different types of vesicles are there in the presynaptic terminal?

What classifies them into their types?

Answer 9

3 different types

Classified by their ‘readiness’ to fuse with the presynaptic membrane

Question 10

What are the 3 types of vesicles in the presynaptic terminal?

Answer 10

1) Readily available pool vesicles
2) Proximal pool
3) Reserve/resting pool

Question 11

Where are readily available vesicles present?

When are they releases?

Answer 11

Present at the active zone of the presynapse

INSTANTLY fuse when there is a Ca2+ influx

Question 12

Where is the proximal pool of vesicles present?

What do they become when Ca2+ influx?

Answer 12

Present slightly away from the active zone

Not released instantly, but become READILY RELEASABLE vesicles shortly after the Ca2+ influx

Question 13

What does the regulation mechanism inside the presynaptic terminal do?

Answer 13

Regulates the time of the reserve pool into the proximal pool and into the readily releasable pool

Question 14

What is important for short-term memory in adaptation?

Answer 14

The DEPLETION of the READILY RELEASABLE pool of vesicles in the presynaptic terminal

Question 15

How many different types of glutamate receptors are there

What are they called?

Answer 15

3 different classes:

• NDMA receptors
• Non-NDMA receptors (AMPA receptors)
• mGlut receptors

Question 16

Which of the glutamate receptors are ionotropic?

Metabotropic?

Answer 16

Ionotropic - NDMA and non-NDMA

Metabotropic - mGlut

Question 17

Which of the glutamate receptors is permeable for Ca2+ as well as Na2+?

Answer 17

NDMA

Question 18

Which of the glutamate receptors is important in memory?

Answer 18

NDMA

Question 19

Which of the glutamate receptors is G protein coupled?

Answer 19

mGlut

Question 20

Which of the ionic glutamate receptors is not permeable to Ca2+?

Answer 20

non-NDMA (AMPA)

Question 21

How can invertebrates learn?

What are the advantages of this?

Answer 21

Learn with a positive reward

Advantages:

• Neurons are larger
• Easier circuit complexity
• No temperature-dependance
• Mapping of neurons is easy

Question 22

What are the disadvantages of using invertebrates to model learning?

Answer 22

Circuitry doesn’t give direct relevance to humans - can only understand the basics of key mechanisms

Question 23

How is mapping of invertebrate neurons easier than in humans?

Answer 23

• Neurons are characteristic
• Can identify every neuron
• Have the exact number of neurons in each individual

Question 24

What are 2 simple types of memory present in invertebrates?

Answer 24

1) Habituation

2) Sensitisation

Question 25

What is habituation?

Answer 25

Where repeated presentation of a stimulus results in a DECREASE in response to that stimulus

(DESENSITISATION)

Question 26

What is the one condition of habituation?

Answer 26

Only occurs if the stimulus is NOT harmful

Question 27

What is sensitisation?

Answer 27

Where repeated presentation of a stimulus results in an INCREASE in behavioural response to that stimulus

Question 28

What are examples of habituation in humans?

Answer 28

1) Blink reflex
2) Repetitive non-harmful stimulus presentation
3) Visual attention
4) Emotional response (eg. more exams you take, the less nervous you get)

Question 29

What is an aplysia?

Answer 29

A sea snail (invertebrate)

Question 30

What are the 2 important organs in aplysia?

What are they important in?

Answer 30

Siphon - important in locomotion

Gill - important in respiration

Question 31

What happens in aplysia when you touch the gill?

What is responsible for this movement?

Answer 31

It is withdrawn

Neural circuit is responsible:

• Sensory neuron (activated when the siphon is touched)
• Motor neuron

Question 32

What does repeated stimuli of the gill cause?

Answer 32

Habituation - reduces the gill reflex

Question 33

How can you test if the habituation mechanism of the gill reflex is localised to the siphon?

Is this the case?

Answer 33

Record from the sensory neuron cell body:

• If repeatedly touch the siphon and see habituation at the level of the cell body - must be localised to the siphon

However, NOT the case

Question 34

How can you test if the habituation mechanism of the gill reflex is at the level of the synapse between the sensory neuron and the motor neuron?

Is this the case?

Answer 34

Using 2 electrodes:

• Insert one into the sensory neuron
• One into the motor neuron
• Inject current into the sensory neuron and observe the response of the motor neuron
• If habituation occurs - see the response in the post synaptic neuron get smaller

This IS the case

Question 35

How does habituation occur?

Describe this

Answer 35

Due to reduced neurotransmitter release:

• Readily releasable pool of vesicles is depleted
• Reducing the number of vesicles that can be released in the NEXT stimulation

Question 36

Is sensitisation more or less pronounced than habituation?

Answer 36

More pronounced

Question 37

Describe how we can sensitise the aplysia

Answer 37

• Produce a small electic shock to the tail of the aplysia BEFORE touching the siphon
• This produces a larger gill withdrawal reflex

THEN,

• No longer provide the electric shock
• When touch the siphon, produces a larger response than if didn’t have the electric shock applied

Question 38

What sensory neurons is involved in the sensitisation of the gill reflex in aplysia?

How?

Answer 38

Sensory neuron L29:
- Is ACTIVATED when provide an electric shock

• This neuron synapses onto the presynaptic site of the sensory neuron
• Presynapse of L29 releases SEROTONIN - activates serotonin receptors (GPCR)
• This activtes adneylyl cyclase in the sensory neuron presynapse
• Activates PKA
• PKA phosphorylates many other proteins, causing conformational changes and changes in function

Question 39

What is the sensory neuron that senses the touch of the siphon postsynaptic for?

Presynaptic for?

Answer 39

Postsynaptic for the L29 neuron

Presynaptic for the motor neuron that travels to the gill

Question 40

What is the mechanism of sensitisation?

Answer 40

1) pKA phosphorylates and inactivates K+ channels, causing a LONGER DEPOLARISATION
2) Ca2+ works LONGER
3) More Ca+ enter presynaptic site
4) More neuroT release

Question 41

What is the difference between habituation and sensitisation?

Answer 41

Habituation - depletion of the readily releasable vesicle pool

Sensitisation - serotonergic feedback causing more neurotransmitter release

Question 42

What is associative learning?

Answer 42

A learning process in which a response becomes associated with a particular stimulus

Question 43

What happens in associative learning?

Answer 43

• Pair a conditional stimulus with a non-conditional stimulus
• Remove the non-conditional stimulus
• The conditional stimulus will be able to produce the same response as the non-conditioned stimulus

Question 44

What is the non-conditional stimulus?

Answer 44

The stimulus that normally evokes a particular response

Question 45

What is the conditional stimulus?

Answer 45

The stimulus that doesn’t normally evoke that response

Question 46

Why is the presentation of the stimulus crucial in associative learning?

Answer 46

If they are not presented at the same time - don’t get associative learning

Question 47

What is the synapse used in associative learning?

Answer 47

The same synapse as used in sensitisation - between the L29 and the other sensory neuron

Question 48

What happens when CS is paired with US?

How?

Answer 48

Have a longer response that is BIGGER than sensitisation:

• BOTH neurons are activated at the SAME time
• Release of BOTH serotonin (from L29) and Ca2+ (from the other sensory neuron)
• Adenylyl cyclase then works more and synergiese 5-HT effect (US)

Question 49

What is synergisation?

Answer 49

Combined activity produces a JOINT greater effect than the sum of their SEPARATE effects

Question 50

What are the differences between sensitisation and conditioning?

Answer 50

Many different mechanisms

Question 51

What does long-term sensitisation involve?

Answer 51

The nucleus - change of gene expression

Question 52

How can inhibitory interneurons be sensitised?

Answer 52

During habituation