The effects of activity, experience and deprivation on the nervous system Flashcards
What is Hebbian synaptic plasticity?
Activity-dependent strengthening of synapses between co-active neurons,
or weakening of synapses between neurons with uncorrelated activity
-> allows experience to shape connections that already exist by increasing or decreasing their efficacy
-> does not involve creation of synapses
Why does ‘Fire together, wire together’ doesn’t describe Hebbian plasticity?
This implies plasticity occurs between cells that are not already connected
What do synapses represent in the context of Hebbian plasticity?
- Major unit of information storage in the brain
- Reflects the history of activity at that synapse
What makes Hebbian plasticity input specific?
Synaptic plasticity occurs only at synapses that have undergone activity, and does not not occur at neighbouring inactive synapses on the same neuron
- its also long-lasting
What is a ‘tetanus’ stimulation?
High frequency electrical stimulation that allows experimenters to guarantee electrical activation of both pre-synaptic and post-synaptic terminals at the same time
-> Hebb’s conditions necessary for the strengthening of synapses
What is the most commonly studied form of Hebbian plasticity?
Does it rely on?
LTP
- relies upon electrophysiological stimulation and recording techniques
Who discovered LTP and in which brain region?
British neuroscientist Tim Bliss and his Norwegian colleague Terje Lømo
- discovered in granule cells of dentate gyrus - hippocampus
How can neurons of a resected human hippocampus be kept alive?
By maintaining the hippocampus at the correct temperature, in carefully oxygenated solutions that contain all required ionic concentrations and metabolites
What does it mean that synapses are bidirectionally modifiable?
Both LTP and LTD can be observed longitudinally at the same synapses
What is the modification threshold for LTD/LTP?
The frequency at which no change in synaptic strength will occur
How do frequencies result in LTP or LTD?
> Low frequency stimuli induce LTD by ensuring uncorrelated activity between pre- and post-synaptic cells
Higher frequencies induce LTP by strongly correlated pre- and post-synaptic activity
What is bidirectional plasticity? What does its direction reflect? Are its principles generalisable?
A perfect system to shape the functional response of neurons in the brain to activity and sensory input
- its direction reflects the recent history of activity at the synapse
- its principles generalise from rodent hippocampus to neocortex and to other species: all show similar degrees of LTP and LTD when assessed with electrophysiology
Are the principles of bidirectional plasticity generalisable?
Its principles generalise from rodent hippocampus to neocortex and to other species
- all show similar degrees of LTP and LTD when assessed with electrophysiology
What are AMPA receptors? What are their characteristics?
> Ion channel opened by Glu which allows flow of cations into a neuron
> Carries major synaptic current
> Responsible for excitatory fast synaptic transmission
> LTP and LTD are expressed through changes in AMPA conductance
What are NMDA receptors? What are their characteristics?
What makes it a ‘coincidence detector’?
> Ion channel allowing flow of cations
> Glu-binding and voltage-dependent
- channel opens only when Glu is bound and is depolarised
> Ideal coincidence detector to fulfill the Hebbian criterion of simultaneous pre- and post-synaptic activity
> Ca2+ conductance through NMDAR is the critical factor for plasticity to occur
What is the consequence of NMDA receptor antagonist AP5 (APV) on LTP and LTD?
What does it demonstrate?
AP5 (APV) blocks the induction of both LTP and LTD
- > NMDAR are the biological solution to Hebb’s theory
- > LTP can still be induced after washout
- > The ex-vivo slice is advantageous as it allow drugs to both be washed on and off at appropriate times -> synapses are not irreparably altered by drug delivery
How can the same receptor serve both LTP and LTD (opposite directions of synaptic change)?
> The concentration of post-synaptic Ca2+ is very different between LTP and LTD:
- summates to high concentrations for high frequency stimulation while remaining elevated
- considerably lower in concentration as a result of pulsatile, non-summating in Ca2+ ion concentration
> Different Ca2+-sensing enzymes are activated by high and low concentrations of Ca2+ ions:
- protein kinases (e.g. AMPAR) change their properties -> phosphorylated synaptic protein -> LTP
- protein phosphatases -> unphosphorylated synaptic protein -> LTD
Why are primary sensory areas best studied and understood?
- They receive relatively unprocessed sensory information relayed from the relevant sensory apparatus via few intermediaries
- They provide a general model of neocortical function
- Their structure and function are well understood and they often exhibit visible specialisations that reflect spatial recapitulations of the sensory world
What are ‘whisker barrels’?
Columnar anatomical specialisations in primary somatosensory cortex of rodents that are dedicated to input from a single whisker
What do whisker barrels allow?
To constrain sensory stimulation to a very specific region of interest and study the resulting plasticity
Where do ocular dominance columns reside?
In the primary visual cortex of most highly binocular mammals