Lecture Human anatomy and physiology - Chapter 11: Fundamentals of the nervous system and nervous tissue (part c)
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In this chapter, students will be able to understand: Define synapse, distinguish between electrical and chemical synapses by structure and by the way they transmit information, distinguish between excitatory and inhibitory postsynaptic potentials, describe how synaptic events are integrated and modified,...
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Nội dung Text: Lecture Human anatomy and physiology - Chapter 11: Fundamentals of the nervous system and nervous tissue (part c)
- PowerPoint® Lecture Slides prepared by Janice Meeking, Mount Royal College CHAPTER 11 Fundamentals of the Nervous System and Nervous Tissue: Part C Copyright © 2010 Pearson Education, Inc.
- The Synapse • A junction that mediates information transfer from one neuron: • To another neuron, or • To an effector cell Copyright © 2010 Pearson Education, Inc.
- The Synapse • Presynaptic neuron—conducts impulses toward the synapse • Postsynaptic neuron—transmits impulses away from the synapse PLAY Animation: Synapses Copyright © 2010 Pearson Education, Inc.
- Types of Synapses • Axodendritic—between the axon of one neuron and the dendrite of another • Axosomatic—between the axon of one neuron and the soma of another • Less common types: • Axoaxonic (axon to axon) • Dendrodendritic (dendrite to dendrite) • Dendrosomatic (dendrite to soma) Copyright © 2010 Pearson Education, Inc.
- Axodendritic synapses Dendrites Axosomatic synapses Cell body Axoaxonic synapses (a) Axon Axon Axosomatic synapses Cell body (soma) of (b) postsynaptic neuron Copyright © 2010 Pearson Education, Inc. Figure 11.16
- Electrical Synapses • Less common than chemical synapses • Neurons are electrically coupled (joined by gap junctions) • Communication is very rapid, and may be unidirectional or bidirectional • Are important in: • Embryonic nervous tissue • Some brain regions Copyright © 2010 Pearson Education, Inc.
- Chemical Synapses • Specialized for the release and reception of neurotransmitters • Typically composed of two parts • Axon terminal of the presynaptic neuron, which contains synaptic vesicles • Receptor region on the postsynaptic neuron Copyright © 2010 Pearson Education, Inc.
- Synaptic Cleft • Fluid-filled space separating the presynaptic and postsynaptic neurons • Prevents nerve impulses from directly passing from one neuron to the next Copyright © 2010 Pearson Education, Inc.
- Synaptic Cleft • Transmission across the synaptic cleft: • Is a chemical event (as opposed to an electrical one) • Involves release, diffusion, and binding of neurotransmitters • Ensures unidirectional communication between neurons PLAY Animation: Neurotransmitters Copyright © 2010 Pearson Education, Inc.
- Information Transfer • AP arrives at axon terminal of the presynaptic neuron and opens voltage-gated Ca2+ channels • Synaptotagmin protein binds Ca2+ and promotes fusion of synaptic vesicles with axon membrane • Exocytosis of neurotransmitter occurs Copyright © 2010 Pearson Education, Inc.
- Information Transfer • Neurotransmitter diffuses and binds to receptors (often chemically gated ion channels) on the postsynaptic neuron • Ion channels are opened, causing an excitatory or inhibitory event (graded potential) Copyright © 2010 Pearson Education, Inc.
- Chemical synapses transmit signals from one neuron to another using neurotransmitters. Presynaptic neuron Presynaptic Postsynaptic neuron neuron 1 Action potential arrives at axon terminal. 2 Voltage-gated Ca2+ channels open and Ca2+ Mitochondrion enters the axon terminal. Ca2+ Ca2+ Ca2+ Ca2+ 3 Ca2+ entry causes Synaptic neurotransmitter- cleft containing synaptic Axon terminal Synaptic vesicles to release their vesicles contents by exocytosis. 4 Neurotransmitter diffuses across the synaptic cleft and binds to specific Postsynaptic receptors on the neuron postsynaptic membrane. Ion movement Enzymatic Graded potential degradation Reuptake Diffusion away from synapse 5 Binding of neurotransmitter opens ion channels, resulting in graded potentials. 6 Neurotransmitter effects are terminated by reuptake through transport proteins, enzymatic degradation, or diffusion away from the synapse. Copyright © 2010 Pearson Education, Inc. Figure 11.17
- Chemical synapses transmit signals from one neuron to another using neurotransmitters. Presynaptic neuron Presynaptic Postsynaptic neuron neuron 1 Action potential arrives at axon terminal. Mitochondrion Ca2+ Ca2+ Ca2+ Ca2+ Synaptic cleft Axon terminal Synaptic vesicles Postsynaptic neuron Copyright © 2010 Pearson Education, Inc. Figure 11.17, step 1
- Chemical synapses transmit signals from one neuron to another using neurotransmitters. Presynaptic neuron Presynaptic Postsynaptic neuron neuron 1 Action potential arrives at axon terminal. 2 Voltage-gated Ca2+ channels open and Ca2+ Mitochondrion enters the axon terminal. Ca2+ Ca2+ Ca2+ Ca2+ Synaptic cleft Axon terminal Synaptic vesicles Postsynaptic neuron Copyright © 2010 Pearson Education, Inc. Figure 11.17, step 2
- Chemical synapses transmit signals from one neuron to another using neurotransmitters. Presynaptic neuron Presynaptic Postsynaptic neuron neuron 1 Action potential arrives at axon terminal. 2 Voltage-gated Ca2+ channels open and Ca2+ Mitochondrion enters the axon terminal. Ca2+ Ca2+ Ca2+ Ca2+ 3 Ca2+ entry causes Synaptic neurotransmitter- cleft containing synaptic Axon terminal Synaptic vesicles to release their vesicles contents by exocytosis. Postsynaptic neuron Copyright © 2010 Pearson Education, Inc. Figure 11.17, step 3
- Chemical synapses transmit signals from one neuron to another using neurotransmitters. Presynaptic neuron Presynaptic Postsynaptic neuron neuron 1 Action potential arrives at axon terminal. 2 Voltage-gated Ca2+ channels open and Ca2+ Mitochondrion enters the axon terminal. Ca2+ Ca2+ Ca2+ Ca2+ 3 Ca2+ entry causes Synaptic neurotransmitter- cleft containing synaptic Axon terminal Synaptic vesicles to release their vesicles contents by exocytosis. 4 Neurotransmitter diffuses across the synaptic cleft and binds to specific Postsynaptic receptors on the neuron postsynaptic membrane. Copyright © 2010 Pearson Education, Inc. Figure 11.17, step 4
- Ion movement Graded potential 5 Binding of neurotransmitter opens ion channels, resulting in graded potentials. Copyright © 2010 Pearson Education, Inc. Figure 11.17, step 5
- Enzymatic degradation Reuptake Diffusion away from synapse 6 Neurotransmitter effects are terminated by reuptake through transport proteins, enzymatic degradation, or diffusion away from the synapse. Copyright © 2010 Pearson Education, Inc. Figure 11.17, step 6
- Chemical synapses transmit signals from one neuron to another using neurotransmitters. Presynaptic neuron Presynaptic Postsynaptic neuron neuron 1 Action potential arrives at axon terminal. 2 Voltage-gated Ca2+ channels open and Ca2+ Mitochondrion enters the axon terminal. Ca2+ Ca2+ Ca2+ Ca2+ 3 Ca2+ entry causes Synaptic neurotransmitter- cleft containing synaptic Axon terminal Synaptic vesicles to release their vesicles contents by exocytosis. 4 Neurotransmitter diffuses across the synaptic cleft and binds to specific Postsynaptic receptors on the neuron postsynaptic membrane. Ion movement Enzymatic Graded potential degradation Reuptake Diffusion away from synapse 5 Binding of neurotransmitter opens ion channels, resulting in graded potentials. 6 Neurotransmitter effects are terminated by reuptake through transport proteins, enzymatic degradation, or diffusion away from the synapse. Copyright © 2010 Pearson Education, Inc. Figure 11.17
- Termination of Neurotransmitter Effects • Within a few milliseconds, the neurotransmitter effect is terminated • Degradation by enzymes • Reuptake by astrocytes or axon terminal • Diffusion away from the synaptic cleft Copyright © 2010 Pearson Education, Inc.
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