1. Communication Within the Nervous System
Chapter 4
Communication Within the Nervous System

2. The Exchange of Information

3. The Resting Membrane Potential
Factors involved:
Channel proteins - provide channels for the passage of substances from one side of the membrane to the other
Receptor proteins - recognize and bind to neurotransmitters or other chemicals
Pump proteins - exchange one type of substance for another
Polarity - intracellular fluid in more negatively charged than the extracellular fluid which has more positively charged ions;
Difference in polarity is called resting membrane potential

4. The Resting Membrane Potential
Forces affecting the membrane potential
Diffusion - refers to the movement of molecules from an area of higher concentration to an area of lower concentration
Electrostatic pressure - attraction of opposite-polarity molecules and repulsion of same-polarity molecules
Sodium-potassium pump - an active protein mechanism which excludes 3 Na+ ions for every 2 K+ ions taken into the cell

5. Influence of Diffusion and Electrostatic Pressure on the Movement of Ions into and out of the Neuron
(More negatively charged)

6. The Action Potential
All-or-none Law - the strength of the action potential is independent of the intensity of the stimulus that elicits it
Rate Law – the greater the intensity of the stimulus, the faster the rate of firing
Process:

7. The Action Potential: Depolarization to Threshold Level
Excitatory stimulus - A stimulus which causes depolarization due to the influx of Na+.
Threshold -The level of stimulation required for the neuron to fire
Voltage-gated ion channels - sensitive to changes in cell membrane potential.
Channels open to Na+ when threshold is reached
Followed by the opening of K+ channels.
The K+ are expelled by the electrostatic charge from the Na+ which have entered the cell.

8. Action Potential: Repolarization to Resting Potential
The process of recovery of the resting membrane potential.
Absolute refractory period - The time during which the neuron is insensitive to further stimulation.
Relative refractory period -The time following the absolute refractory period during which a neuron can generate another action potential but only by a stronger than normal stimulus.

9. The Neural Impulse
Neural impulse -The propagation of an action potential along an axon.
The axon depolarizes in a sequential fashion from the axon hillock to the presynaptic terminal.
The neural impulse occurs only one way because of the absolute refractory period.
Speed of transmission varies due to thickness of the axon, presence or absence of myelination, and number of synapses.

10. Propagation of the Action Potential along an Unmyelinated Axon
Action Potential in action

11. The Neural Impulse: Saltatory Conduction
Occurs on myelinated neurons only at the nodes of Ranvier.
Faster than unmyelinated neurons
Unmyelinated neurons conduct the nerve impulse at about 1m/sec whereas a myelinated neuron of the same size conducts about 100 m/sec
Requires less energy than unmyelinated neurons since depolarization only occurs at the nodes of Ranvier.

12. Propagation of an Action Potential Along a Myelinated Axon
Action Potential in action

13. Synaptic Transmission: Neurotransmitter Release
Neurotransmitter – chemical stored in the synaptic vesicles that when released transmits messages to other neurons, muscles, or blood vessels
Synaptic transmission occurs when neurotransmitter molecules pass across the synaptic cleft and depolarize or hyperpolarize the postsynaptic membrane.
Neurotransmitter molecules are carried across the synaptic cleft by diffusion.

14. Synaptic Transmission: Neurotransmitter Effects
Transmitter-gated ion channels – are sensitive to a specific neurotransmitter
A neurotransmitter will have either an:
Excitatory (EPSP) affect – which results from depolarization produced by neurotransmitter molecules on a postsynaptic membrane
Inhibitory (IPSP) affect – which results from hyperpolarization produced by neurotransmitter molecules on a postsynaptic membrane

15. Synaptic Transmission: Summation Effects
The result of multiple inputs, both EPSP and IPSP, on neurons
Spatial summation - the combined effects of neurotransmitters binding to different locations on the postsynaptic membrane at a particular moment in time
Temporal summation - the combined effects of neurotransmitters binding over time

16. Synaptic Transmission: Presynaptic Effects
Release of neurotransmitters is not automatic and can be influenced by several processes:
Presynaptic inhibition - A decrease in the release of neurotransmitters caused by the action of another neuron.
Presynaptic facilitation - The enhanced release of neurotransmitters caused by the action of another neuron.
Autoreceptors (inhibition) - stimulation of autoreceptors by a released neurotransmitter causes a decrease in subsequent neurotransmitter release

17. Axoaxonic Synapse and Presynaptic Inhibition and Facilitation
Synaptic Transmission: Presynaptic Effects
Axoaxonic Synapse and Presynaptic Inhibition and Facilitation

18. Ionotropic and Metabotropic Receptors
Synaptic Transmission: Postsynaptic Receptors
Ionotropic and Metabotropic Receptors

19. Synaptic Transmission: Termination of Neurotransmitter Effects
Diffusion - transmitter substance floats away from the synapse
Enzymatic degradation -The transmitter action is deactivated by an enzyme
Reuptake -The transmitter substance is returned to the presynaptic neuron

20. Agents of Synaptic Transmission: Small-Molecule Neurotransmitters
Amino acids
glutamate
gamma-amino butyric acid (GABA)
aspartate
glycine
Soluble gases
nitric oxide
carbon monoxide
Acetylcholine
Monoamines
catecholamines
epinephrine
norepinephrine
dopamine
indoleamines
serotonin
melatonin
Dopamine

21. Agents of Synaptic Transmission: Large-Molecule Neurotransmitters
Peptides - Small chains of amino acids
Neuropeptides - peptides that function as neurotransmitters
endogenous opioids
oxytocin
antidiuretic hormone (ADH)
cholecystokinin (CCK)
substance P
Oxytocin

22. Agents of Synaptic Transmission:
Neuromodulators
A type of chemical that modifies
the sensitivity of a group of cells to neurotransmitters
the amount of neurotransmitter released
Diffuse throughout an area
Dopamine
Serotonin
Histamine
Caffeine, nicotine
Precursors, Agonists, Antagonists

23. Hormones and the Endocrine System
Hormone - A chemical produced by the endocrine glands that is circulated widely throughout the body via the bloodstream.
Although hormones have similar actions to neurotransmitters, they are distinguished from neurotransmitters because they are released into the general circulation and not directly onto a target organ.
Pheromone - A chemical released into the air, rather than into the bloodstream, that affects other members of a species

24. The Endocrine System

26. Electrical Synaptic Transmission
Anaxonic neuron - a neuron without an axon.
- Communication is dendodentritic
- The synapse is called electrical synapse.
- Gap junction is the name
for the space between the
dendrites of two neurons
- Connexon is a specialized
protein channel through
which ions move across
gap junctions.

27. Electrical Synaptic Transmission

28. The Blood-Brain Barrier