1. Capítulo 12 Tejido Nervioso I Biol 3791 UPR – Aguadilla
JA Cardé, Ph. D.
© 2015 Pearson Education, Inc.

2. An Introduction to the Nervous System
Learning Outcomes
12-1 Describe the anatomical and functional divisions of the nervous system.
12-2 Sketch and label the structure of a typical neuron, describe the functions of each component, and classify neurons on the basis of their structure and function.
12-3 Describe the locations and functions of the various types of neuroglia.
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3. An Introduction to the Nervous System
Learning Outcomes
12-4 Explain how the resting membrane potential is created and maintained.
12-5 Describe the events involved in the generation and propagation of an action potential.
12-6 Discuss the factors that affect the speed with which action potentials are propagated.
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4. An Introduction to the Nervous System
Learning Outcomes
12-7 Describe the structure of a synapse, and explain the mechanism involved in synaptic activity.
12-8 Describe the major types of neurotransmitters and neuromodulators, and discuss their effects on postsynaptic membranes.
12-9 Discuss the interactions that enable information processing to occur in neural tissue.
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5. An Introduction to the Nervous System
Includes all neural tissue in the body
Neural tissue contains two kinds of cells
Neurons
Cells that send and receive signals
Neuroglia (glial cells)
Cells that support and protect neurons
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6. An Introduction to the Nervous System
Organs of the Nervous System
Brain and spinal cord
Sensory receptors of sense organs (eyes, ears, etc.)
Nerves connect nervous system with other systems
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7. 12-1 Divisions of the Nervous System
Anatomical Divisions of the Nervous System
Central nervous system (CNS)
Peripheral nervous system (PNS)
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8. 12-1 Divisions of the Nervous System
The Central Nervous System (CNS)
Consists of the spinal cord and brain
Contains neural tissue, connective tissues, and blood vessels
Functions of the CNS are to process and coordinate:
Sensory data from inside and outside body
Motor commands control activities of peripheral organs (e.g., skeletal muscles)
Higher functions of brain: intelligence, memory, learning, emotion
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9. 12-1 Divisions of the Nervous System
The Peripheral Nervous System (PNS)
Includes all neural tissue outside the CNS
Functions of the PNS
Deliver sensory information to the CNS
Carry motor commands to peripheral tissues and systems
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10. 12-1 Divisions of the Nervous System
The Peripheral Nervous System (PNS)
Nerves (also called peripheral nerves)
Bundles of axons with connective tissues and blood vessels
Carry sensory information and motor commands in PNS
Cranial nerves – connect to brain
Spinal nerves – attach to spinal cord
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11. 12-1 Divisions of the Nervous System
Functional Divisions of the PNS
Afferent division
Carries sensory information
From PNS sensory receptors to CNS
Efferent division
Carries motor commands
From CNS to PNS muscles and glands
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12. 12-1 Divisions of the Nervous System
Functional Divisions of the PNS
Receptors and effectors of afferent division
Receptors
Detect changes or respond to stimuli
Neurons and specialized cells
Complex sensory organs (e.g., eyes, ears)
Effectors
Respond to efferent signals
Cells and organs
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13. 12-1 Divisions of the Nervous System
Functional Divisions of the PNS
The efferent division
Somatic nervous system (SNS)
Controls voluntary and involuntary (reflexes) skeletal muscle contractions
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14. 12-1 Divisions of the Nervous System
Functional Divisions of the PNS
The efferent division
Autonomic nervous system (ANS)
Controls subconscious actions, contractions of smooth muscle and cardiac muscle, and glandular secretions
Sympathetic division has a stimulating effect
Parasympathetic division has a relaxing effect
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15. Figure 12-1 A Functional Overview of the Nervous System.
Organization of the Nervous System
Central Nervous System (CNS) (brain and spinal cord)
Integrate, process, and coordinate sensory data and motor commands
Sensory information
within
afferent division
Motor commands
within
efferent division
Peripheral Nervous System (PNS) (neural tissue outside the CNS)
includes
Somatic nervous system (SNS)
Autonomic
nervous system (ANS)
Parasympathetic division
Sympathetic division
Receptors
Effectors
Smooth muscle
Cardiac muscle
Glands
Adipose tissue
Special sensory receptors
Visceral sensory receptors
Somatic sensory receptors
monitor smell, taste, vision, balance, and hearing
monitor internal organs
monitor skeletal muscles, joints, and skin surface
Skeletal muscle
Skeletal muscle

16. 12-2 Neurons Neurons The basic functional units of the nervous system
The structure of neurons
The multipolar neuron
Common in the CNS
Cell body (soma)
Short, branched dendrites
Long, single axon
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17. 12-2 Neurons The Cell Body Large nucleus and nucleolus
Perikaryon (cytoplasm)
Mitochondria (produce energy)
RER and ribosomes (produce neurotransmitters)
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18. 12-2 Neurons The Cell Body Cytoskeleton Nissl bodies
Neurofilaments and neurotubules in place of microfilaments and microtubules
Neurofibrils: bundles of neurofilaments that provide support for dendrites and axon
Nissl bodies
Dense areas of RER and ribosomes
Make neural tissue appear gray (gray matter)
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19. 12-2 Neurons Dendrites Highly branched Dendritic spines
Many fine processes
Receive information from other neurons
80–90 percent of neuron surface area
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20. 12-2 Neurons The axon Is long
Carries electrical signal (action potential) to target
Axon structure is critical to function
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21. 12-2 Neurons Structures of the Axon Axoplasm Axolemma
Cytoplasm of axon
Contains neurofibrils, neurotubules, enzymes, organelles
Axolemma
Specialized cell membrane
Covers the axoplasm
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22. 12-2 Neurons Structures of the Axon Axon hillock Initial segment
Thick section of cell body
Attaches to initial segment
Initial segment
Attaches to axon hillock
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23. 12-2 Neurons Structures of the Axon Collaterals Telodendria
Branches of a single axon
Telodendria
Fine extensions of distal axon
Axon terminals
Tips of telodendria
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24. Figure 12-2a The Anatomy of a Multipolar Neuron.
Dendrites
Perikaryon
Cell body
Telodendria
Nucleus
Axon
This color-coded figure shows the four general regions of a neuron. a

25. Figure 12-2b The Anatomy of a Multipolar Neuron.
Nissl bodies (RER and free ribosomes)
Dendritic branches
Mitochondrion
Axon hillock
Initial segment of axon
Axolemma
Axon
Telodendria
Direction of action potential
Golgi apparatus
Axon terminals
Neurofilament
Nucleolus
Nucleus
Dendrite
See Figure 12–3
Presynaptic cell b
An understanding of neuron function requires knowing its structural components.
Postsynaptic cell

26. 12-2 Neurons The Structure of Neurons The synapse
Area where a neuron communicates with another cell
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27. 12-2 Neurons The Structure of Neurons The synapse Presynaptic cell
Neuron that sends message
Postsynaptic cell
Cell that receives message
The synaptic cleft
The small gap that separates the presynaptic membrane and the postsynaptic membrane
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28. 12-2 Neurons The Synapse The synaptic terminal
Is expanded area of axon of presynaptic neuron
Contains synaptic vesicles of neurotransmitters
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29. 12-2 Neurons Neurotransmitters Are chemical messengers
Are released at presynaptic membrane
Affect receptors of postsynaptic membrane
Are broken down by enzymes
Are reassembled at axon terminal
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30. 12-2 Neurons Recycling Neurotransmitters Axoplasmic transport
Neurotubules within the axon
Transport raw materials
Between cell body and axon terminal
Powered by mitochondria, kinesin, and dynein
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31. 12-2 Neurons Types of Synapses Neuromuscular junction
Synapse between neuron and muscle
Neuroglandular junction
Synapse between neuron and gland
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32. Figure 12-3 The Structure of a Typical Synapse.
Telodendrion
Axon terminal
Mitochondrion
Synaptic vesicles
Presynaptic membrane
Postsynaptic membrane
Synaptic cleft

33. 12-2 Neurons Structural Classification of Neurons Anaxonic neurons
Found in brain and sense organs
Bipolar neurons
Found in special sensory organs (sight, smell, hearing)
Unipolar neurons
Found in sensory neurons of PNS
Multipolar neurons
Common in the CNS
Include all skeletal muscle motor neurons
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34. 12-2 Neurons Anaxonic Neurons Bipolar Neurons Small
All cell processes look alike
Bipolar Neurons
Are small
One dendrite, one axon
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35. 12-2 Neurons Unipolar Neurons Multipolar Neurons
Also called pseudounipolar neurons
Have very long axons
Fused dendrites and axon
Cell body to one side
Multipolar Neurons
Multiple dendrites, one axon
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36. Figure 12-4 Structural Classifications of Neurons.
Anaxonic neuron
Bipolar neuron
Unipolar neuron
Multipolar neuron
Dendrites
Dendrites
Initial segment
Cell body
Dendritic branches
Axon
Dendrite
Cell body
Cell body
Axon
Axon
Cell body
Axon
Axon terminals
Axon terminals
Axon terminals a
Anaxonic neurons have more than two processes, and they are all dendrites. b
Bipolar neurons have two processes separated by the
cell body. c
Unipolar neurons have a single elongated process, with the cell body located off to the side.
Multipolar neurons have more than two processes; there is a single axon and multiple dendrites. d

37. Figure 12-4a Structural Classifications of Neurons.
Anaxonic neuron
Cell body a
Anaxonic neurons have more than two processes, and they are all dendrites.

38. Figure 12-4b Structural Classifications of Neurons.
Bipolar neuron
Dendritic branches
Dendrite
Cell body
Axon
Axon terminals b
Bipolar neurons have two processes separated by the cell body.

39. Figure 12-4c Structural Classifications of Neurons.
Unipolar neuron
Dendrites
Initial segment
Axon
Cell body
Axon
Axon terminals
Unipolar neurons have a single elongated process, with the cell body located off to the side. c

40. Figure 12-4d Structural Classifications of Neurons.
Multipolar neuron
Dendrites
Cell body
Axon
Axon terminals d
Multipolar neurons have more than two processes; there is a single axon and multiple dendrites.

41. 12-2 Neurons Three Functional Classifications of Neurons
Sensory neurons
Afferent neurons of PNS
Motor neurons
Efferent neurons of PNS
Interneurons
Association neurons
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42. 12-2 Neurons Functions of Sensory Neurons
Monitor internal environment (visceral sensory neurons)
Monitor effects of external environment (somatic sensory neurons)
Structures of Sensory Neurons
Unipolar
Cell bodies grouped in sensory ganglia
Processes (afferent fibers) extend from sensory receptors to CNS
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43. 12-2 Neurons Three Types of Sensory Receptors Interoceptors
Monitor internal systems (digestive, respiratory, cardiovascular, urinary, reproductive)
Internal senses (taste, deep pressure, pain)
Exteroceptors
External senses (touch, temperature, pressure)
Distance senses (sight, smell, hearing)
Proprioceptors
Monitor position and movement (skeletal muscles and joints)
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44. 12-2 Neurons Motor Neurons
Carry instructions from CNS to peripheral effectors
Via efferent fibers (axons)
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45. 12-2 Neurons Motor Neurons Two major efferent systems
Somatic nervous system (SNS)
Includes all somatic motor neurons that innervate skeletal muscles
Autonomic (visceral) nervous system (ANS)
Visceral motor neurons innervate all other peripheral effectors
Smooth muscle, cardiac muscle, glands, adipose tissue
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46. 12-2 Neurons Motor Neurons Two groups of efferent axons
Signals from CNS motor neurons to visceral effectors pass synapses at autonomic ganglia dividing axons into:
Preganglionic fibers
Postganglionic fibers
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47. 12-2 Neurons Interneurons
Most are located in brain, spinal cord, and autonomic ganglia
Between sensory and motor neurons
Are responsible for:
Distribution of sensory information
Coordination of motor activity
Are involved in higher functions
Memory, planning, learning
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