3 - Glia Flashcards
What is the most abundant glial cell and what are it’s roles?
Astrocytes
- Structural support
- Nutrition
- Remove neurotransmitters
- Buffer
- BBB
How do astrocytes provide nutrition to neurones?
Glucose-Lactate shuttle
Neurones cannot store or produce glycogen so astrocytes produce lactate from glucose for storage.
Lactate can be converted to to pyruvate when needed
How do astrocytes remove neurotransmitters?
- Removes glutamate from synapses to prevent excitotoxicity
- Too much glutamate is toxic to cells due to increased Ca causing increased excitability
How do astrocytes act as a buffer for the brain ECF?
- When neurones fire lots of A.Ps there is lots of K movement out of the cell
- Increase in K means neurones depolarise so inappropriate A.P firing so increased excitabilty
- Astrocytes have a slightly negative resting membrane potential so take up lots of potassium with chloride to stop this
What is the role of oligodendrocytes?
Myelinate and insulate the neurones in the CNS
Antibodies attack these in MS
What is the role of microglia?
Immunocompetent cells
- Become activated into phagocytes when they recognise foreign material
- Can antigen present to T cells
What components make the BBB?
- Tight junctions between capillary endothelial cells
- Basement membrane around capillary
- End feet of astrocyte processes
Only substances like water, CO2 and lipophilic substances can pass through easily
How do substances get across the BBB?
- Substances like glucose, AA and potassium are all through transporters to allow ECF to be controlled
Why is there a specialised immune response in the CNS?
- Normal inflammatory response would be harmful as skull prevents volume expansion
- T cells enter BBB and microglia antigen present to them.
- CNS inhibits the intiation of the proinflammatory T cell response
How are neurotransmitters released from neurones?
- Depolarisation in the terminal opens VOCC so Ca enters
- Calcium causes vesicles with neurotransmitters to fuse with presynaptic membrane and released into cleft to bind with post synaptic membrane
- Response depends on what receptor it is, e.g GPCR or nAchR
What are the different chemical classes of neurotransmitters?
- Amino acids
- Biogenic amines
- Peptides
Can be excitatory, inhibitory or modulatory
What are the main excitatory and inhibitory amino acid neurotransmitters?
Excitatory: glutamate
Inhibitory: GABA and Glycine
What are the different types of glutamate receptors?
- Metabotropic are GPCRs (same with GABA), these have a modulatory role
How does a fast excitatory response occur?
- Glutamate causes depolarisation of post synaptic cell by acting on LGIC and causing a EPSP
- AMPA LGIC causes initial fast depolarisation as they are linked to an Na/K channel to allow Na influx to depolarise
- When the cell has been depolarised NMDA LGIC are activated and they are linked to a Ca channel to allow Ca in, which is important for memory and learning
How are NMDA receptors activated?
- Cell needs to be depolarised to move Mg from pores and glutamate also needs to be bound
- Glycine can act as co-agonist