Action Potentials Flashcards
What is an AP?
Change in voltage across a membrane.
How long do APs last? Why are they longer in cardiac cells?
- 0.5 ms in axons/skeletal muscles.
- 100 ms in SA node/cardiac ventricle. Longer duration allows CICR.
What are APs generated by?
Increase in permeability to Na+, bringing membrane close to Na+ equilibrium potential.
What is membrane conductance?
Permeability of a membrane to an ion. Dependent on:
- Number of open channels for that ion.
- Driving force (difference between membrane potential and equilibrium potential for the ion).
How are the effects of MP changes on sodium and potassium currents measured?
Voltage-clamp technique
Describe the opening and closing of ion channels during an AP.
- Depolarisation
- voltage-gated Na+ channels open - Na+ influx.
- membrane depolarises - threshold is reached - positive feedback: more Na+ channels open. - Repolarisation
- Na+ channels inactivate - Na+ influx stops.
- voltage-gated K+ channels open - K+ efflux.
- membrane repolarises (and even hyperpolarises as K+ channels stay open longer than necessary).
What are the absolute and relative refractory periods?
- ARP = nearly all Na+ channels are inactivated - no AP can occur.
- RRP = Na+ channels are recovering from inactivation, excitability returns towards normal. AP can be initiated upon strong stimulation.
Describe the structure of a voltage-gated sodium channel.
- 1 peptide consisting of 4 homologous repeats.
- Each repeat consists of 6 transmembrane spanning domains (helices) with a pore region between the 5th and 6th helices.
- 4th helice contains many positively charged aa - acts as voltage sensor.
- Inactivation particle located between 3rd and 4th repeats.
How are sodium channels inactivated?
Inactivation loop can enter pore and block sodium flow. Membrane hyperpolarisation required to unblock pore.
Describe the structure of voltage-gated potassium channels.
- Similar organisation to Na+ channels but consists of 4 alpha subunits of 1 repeat each.
- No inactivation particle.
How do local anaesthetics such as procain act?
- Bind to and block Na+ channels - stops AP generation.
- 2 pathways:
- Hydrophilic pathway
- For anaesthetics that are weak bases - cross PM in un-ionised form.
- Block channel more easily when it is open and have higher affinity for inactivated state - block in a use dependent manner. - Hydrophobic pathway
- Lipid-soluble anaesthetic enters channel via membrane.
- No use-dependence.
What is conduction velocity?
Distance travelled by AP / time
How is conduction velocity along an axon calculated?
Measure:
- distance between a stimulating electrode and a recording electrode
- time gap between stimulus and AP being registered by recording electrode
What is the local current theory?
A change in MP in one part of an axon can immediately spread to adjacent areas because of local current spread.
What is conduction velocity determined by?
- By how far along the axon local currents can spread.
- The further the local current spreads down the axon, the faster the conduction velocity of the axon will be.
