Neurones and Glia

Question 1

What 2 main components make up the CNS and what are the functions of each component?

Answer 1

Neurones - sense changes and communicae with other neurones

Glia - support, nourish and insulate neurones and remove waste

Question 2

How many neurones/ glia cells are there in the brain?

Answer 2

Neurones ~10¹¹

Glia ~10¹² (x10 more then neurones)

Question 3

What are the 3 types of glial cells?

Answer 3

1. Astrocytes
   
   • most abundant
   • supporters
2. Oligodendrocytes
   
   • insulators
3. Microglia
   
   • immune response

Question 4

What is the role of astrocytes?

Answer 4

• Structural support
• Help provide nutrition for neurones (glucose-lactate shuttle)
• Remove neurotransmitters (uptake)
• Maintain ionic environment (K⁺ buffering)
• Help form blood brain barrier

Question 5

Explain the glucose-lactate shuttle of astrocytes

Answer 5

• Neurones do not store or produce glycogen
• Glucose enters astrocytes by GLUT1 transporter
• Astrocytes produce lactate from glycolysis that can be transported into neurones by MCT1 transporter
• In the neurone, Lactate converted to pyruvate which can be used for energy

Question 6

Why do astrocytes need to re-uptake neurotransmitters?

Answer 6

• Astrocytes have transporters for transmitters e.g glutamate (major excitatory neurotransmitter)
• Helps to keep extracellular concentration low so a second response can occur
• Too much glutamate causes excito-toxicity to neurones as too much Ca²⁺ is released

Question 7

Why is it necessary for astrocytes to buffer K⁺ in the brain ECF?

Answer 7

• High levels of neuronal activity leads to a rise in [K+] in brain ECT
• Too much K⁺ causes neurones to depolarise → inadvertantly activating neurones
• The resting membrane potential is more negative and can therefore buffer K⁺ from ECF

Question 8

What is the role of oligodenrocytes?

Answer 8

Responsible for myelinating multiple axons at once within the CNS

Question 9

What are microglia?

Answer 9

Immunocompetent ‘macrophages’ of the brain

Recognise foreign material, once activated dendrites get thicker and become phagocytotic

Remove debris and foreign material - brains main defence system against plaques and dead material

Question 10

What is the function of the the blood brain barrier?

Answer 10

• Limits diffusion of substances from the blood to the brain ECF
• Maintains correct environment for neurones
• Brain capillaries have
  
  • tight junctions between endothelial cells
  • basement membrane surround capillary
  • end feet of astrocyte processes

Question 11

Which substances can be transported across the blood brain barrier?

Answer 11

• Glucose - transported
• Amino acids- transported
• K⁺ - transported
• Lipid soluble move freely e.g CO₂ and O₂
• Ions and small molecules can’t move across due to very tight junctions allowing for tight junction

Question 12

Explain what is meant by ‘The CNS is immune priveleged’

Answer 12

• The brain does not undergo rapid rejection of allografts
• Rigid skull will not tolerate volume expansion- too much inflammatory response would be harmful
• Microglia can act as APCs
• T Cells can enter the CNS but the CNS inhibits the pro-inflammatory T cell response

Question 13

Identify the dendrites, soma, axon, terminals, internodes and myelin sheath

Answer 13

Question 14

How is neurotransmitter released at the synpase?

Answer 14

• Action potential arrives at the pre-synaptic terminal
• Depolarisation of the terminal opens VGCC
• Ca²⁺ ions enter the terminal
• Vesicles fuse with pre synaptic membrane and transmiter is released
• Transmitter diffuses across the cleft and binds to receptors post-synaptically

Question 15

What does the postsynaptic response depend on?

Answer 15

• nature of transmitter
• nature of receptor
  
  • ligand gated ion channel
  • GPCR

Question 16

What are the 3 main chemical classes of neurotransmitter?

Answer 16

Question 17

What are the main amino acid neurotransmitters?

Answer 17

Excitatory - mainly Glutamate major excitatory neurotransmitter (70% of all CNS synapses are glutamatergic)

Inhibitory - GABA and Glycine

Question 18

What are the main types of Glutamate receptors?

Answer 18

IONOTROPIC - integral ion channels

• AMPA receptors (Na^+/K⁺)
• Kainate receptors (Na^+/K⁺)
• NMDA receptors (Na^+/K⁺ and Ca²⁺)

Activation causes depolarisation increasing excitability → AMPA and NMDA mainly at synapses causing fast neurotransmission

METABOTROPIC - GPCR

• mGluR1-7
• Linked to either IP₃ and Ca²⁺ mobilisation
• or inhibition of AC and decreased cAMP

Question 19

Glutamergic synspases have both AMPA and NMDA receptors. Explain how the two cause a response

Answer 19

• AMPA receptors mediate the initial fast depolarisation
• NMDA receptors permeable to Ca²⁺
• NMDA receptors need glutamate to bind to depolarise the cell and allow ions to flow through the channel
  
  • GLYCINE acts as a co-agonist
  • Glutamate alone not enough as Mg²⁺ ions block the pore
  • Activation of AMPA receptors causes Mg²⁺ to move out of the pore

Question 20

How are glutamate receptors involved in learning and memory?

Answer 20

• Activation of NMDA receptors (and mGluRs) can up-regulate AMPA receptors
• Strong, high frequency stimulation causes long term potentiation
• Ca²⁺ entry through NMDA receptors important for induction of LTP
• However, too much calcium through NMDA can cause excitotoxicity

Question 21

What are the 2 inhibitory amino acid neurotransmitters?

Answer 21

• GABA - main inhibitory in brain
• Glycine acts as inhibitor mainy in the brainstem & spinal cord

Question 22

Describe the type of receptors for GABA_A and Glycine

Answer 22

Both have integral Cl^- channels

Opening the channel causes hyperpolarisation → decreased action potential firing

Question 23

How do barbiturates and benzodiazepines elicit their effects at GABA_A receptors?

Answer 23

Both bind to GABA_A enhancing the response to GABA → don’t open the channel themselves but get a bigger and longer response when GABA is present

Barbiturates - anxiolytic and sedative action (rarelt used as risk of fatal overdose, dependence and tolerance)

Benzodiazepines - have sedative and anxiolytic effects, used to treat anxiety, insomnia and epilepsy

Question 24

What is the role of glycinergic interneurones in the spinal cord and brainstem?

Answer 24

Involved in reflexes e.g. patellar jerk reflex

Every contraction needs a relaxation

Question 25

Where is ACh mainly released as a neurotransmitter?

Answer 25

• neuromuscular junction
• ganglion synapse in ANS
• postganglionic release in parasympathetics
• also nicotinic and muscarinic recepors in the brainstem

Question 26

Describe the cholinergic pathways in the CNS

Answer 26

• Neurones originate in the basal forebrain and brainstem
• There are diffuse projections to many parts of the cortex and hippocampus
• Local cholinergic interneurones in the corpus straitum
• Responsible for arousal, learning and memory

Question 27

What is the link between the cholinergic pathways in the CNS and Alzheimer’s disease?

Answer 27

Nucleus basalis neurones are the 1st to die in Alzheihmers

Drugs inhibiting AChesterase can slow progression by alleviating symptoms (no long term effect)

Question 28

Which dopaminergic pathway is involved in motor control?

Answer 28

The Nigrostriatal pathway

Question 29

What dopaminergic pathways are involved in mood, arousal and reward?

Answer 29

Mesocortical pathway and Mesolimbic pathways

Question 30

Name some conditions associated with dopamine dysfunction

Answer 30

• Parkinson’s
  
  • loss of DA neurones
  • substantia nigra mainly
  • can be treate with levodopa
• Schizophrenia
  
  • due to release of too much DA
  • amphetamine similar effect produces schizophrenic like behaviour
  • antipsychotic drugs are D₂ receptor antagonists

Question 31

Explain why L-DOPA is given alongside Carbidopa in treatment of Parkinson’s

Answer 31

• L-DOPA transported across BBB by LNAA (large neutral amino acid transporter)
• In the brain it is converted to Dopamine by AADC
• Caribdopa inhibits AADC but cannot cross BBB
  
  • it lmits the increase of dopamine in the periphery to avoid unwanted side effects

Question 32

Which receptors does noradrenaline act on?

Answer 32

GPCR alpha and beta adrenoreceptors

Question 33

Where are cell bodies containing noradrenaline neurones mainly located?

Answer 33

In the brainstem (pons and medulla)

The Locus Coerelus main cell body

Question 34

What is the role of locus ceruleus in behavioural arousal?

Answer 34

• Most NA in brain comes from the locus ceruleus
• LC is inactive during sleep but activity increases during behavioural arousal
• Amphetamines increase the release of NA and DA increasing wakefulness

Question 35

What is the link between depression and and NA?

Answer 35

Depression may be associated with a deficiency of NA

Question 36

What functions are Serotoning (5-HT) incolved in?

Answer 36

• Sleep /wakefulness
• Mood