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Transcript of Copyright (c) Allyn & Bacon 20041 Chapter 2 Structure and Functions of Cells of the Nervous System.
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Copyright (c) Allyn & Bacon 20041
Chapter 2
Structure and Functions of Cells of the Nervous System
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Copyright (c) Allyn & Bacon 20042
The Nervous System
Central Nervous System (CNS)
• Comprised of the brain and spinal cord
• Encased within the skull and spinal column
Peripheral Nervous System (PNS)
• Comprised of nerve tissue located outside of the brain and spinal cord.
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Copyright (c) Allyn & Bacon 20043
Cells of the Nervous System
Neuron Basic Structure
Soma or “cell body”:• The cell body of a neuron, which contains the
nucleus.
Dendrite:• A branched treelike structure attached to the
soma of a neuron; receives information from the terminal button of other neurons.
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Copyright (c) Allyn & Bacon 20044
Cells of the Nervous System
Neuron Basic Structure
Terminal button:• The bud at the end of a branch of an axon; forms
synapses with another neuron; sends information to that neuron.
Neurotransmitter:• A chemical that is released by a terminal button;
has an excitatory or inhibitory effect on another neuron.
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Copyright (c) Allyn & Bacon 20045
Neuron
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Copyright (c) Allyn & Bacon 20046
Cells of the Nervous System
Neuron Basic Structure
Synapse:• A junction between the terminal button of an
axon and the membrane of another neuron.
Axon:• The long, thin cylindrical structure that conveys
information from the soma of a neuron to its terminal button.
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Copyright (c) Allyn & Bacon 20047
Cells of the Nervous System
There are three general types of neurons:
Sensory neuron:• A neuron that detects changes in the external or
internal environment and sends information about these changes to the central nervous system.
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Copyright (c) Allyn & Bacon 20048
Cells of the Nervous System
There are three general types of neurons:
Motor neuron:• A neuron located within the central nervous
system that controls the contraction of a muscle or the secretion of a gland.
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Copyright (c) Allyn & Bacon 20049
Cells of the Nervous System
There are three general types of neurons:
Interneuron:• A neuron located entirely within the central
nervous system.
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Cells of the Nervous System
Neuron Basic Structure
Multipolar neurons:
• A neuron with one axon and many dendrites.
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Cells of the Nervous System
Neuron Basic Structure
Bipolar neurons:
• A neuron with one axon and one dendrite attached to its soma.
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Basic Structures of Neurons
Three classifications of neurons
Unipolar neurons:
• A neuron with one axon attached to its soma; the axon divides, with one branch receiving sensory information and the
other sending the information into the central nervous system.
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Cells of the Nervous System
Internal structure
Membrane:• A structure consisting principally of lipid
molecules that defines the outer boundaries of a cell and also constitutes many of the cell organelles, such as the Golgi apparatus.
Nucleus:• A structure in the central region of a cell,
containing the nucleolus and chromosomes.
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Copyright (c) Allyn & Bacon 200414Copyright © Allyn & Bacon 2004
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Cells of the Nervous System
Internal structure
Nucleolus:• A structure within the nucleus of a cell that
produces the ribosomes.
Ribosomes:• A cytoplasmic structure, made of protein, that
serves as the site of production of proteins translated from mRNA.
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Nucleus
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Cells of the Nervous System
Internal structure
Chromosome:• A strand of DNA, with associated proteins, found
in the nucleus; carries genetic information.
Deoxyribonucleic acid (DNA):• A long complex macromolecule consisting of two
interconnected helical strands; along with associated proteins, strands of DNA constitute the chromosomes.
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Copyright (c) Allyn & Bacon 200418
Cells of the Nervous System
Internal structure
Gene:• The functional unit of the chromosome, which
directs synthesis of one or more proteins.
Messenger ribonucleic acid (mRNA):• A macromolecule that delivers genetic
information concerning the synthesis of protein from a portion of a chromosome.
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Copyright (c) Allyn & Bacon 200419Copyright © Allyn & Bacon 2004
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Cells of the Nervous System
Internal structure
Enzyme:• A molecule that controls a chemical reaction,
combining two substances or breaking a substance into two parts.
Cytoplasm:• The viscous, semi-liquid substance contained in
the interior of a cell.
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Copyright (c) Allyn & Bacon 200421
Cells of the Nervous System
Internal structure
Mitochondria:• An organelle that is responsible for extracting
energy from nutrients.
Adenosine triphosphate (ATP):• A molecule of prime importance to cellular
energy metabolism; its breakdown liberates energy.
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Cells of the Nervous System
Internal structure
Endoplasmic reticulum:• Parallel layers of membrane found within the
cytoplasm of a cell. Rough endoplasmic reticulum contains ribosomes and is involved in production of proteins that are secreted from the cell. Smooth endoplasmic reticulum is the site of synthesis of lipids and provides channels for the segregation of molecules involved in various cellular processes.
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Cells of the Nervous System
Internal structure
Golgi apparatus:• A complex of parallel membranes in the
cytoplasm that wraps the products of a secretory cell.
Exocytosis:• The secretion of a substance by a cell through
means of vesicles; the process by which neurotransmitters are secreted.
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Copyright (c) Allyn & Bacon 200424
Cells of the Nervous System
Internal structure
Lysosome:• An organelle surrounded by membrane; contains
enzymes that break down waste products.
Cytoskeleton:• Formed of microtubules and other protein fibers,
lined to each other and forming cohesive mass that gives a cell its shape.
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Copyright (c) Allyn & Bacon 200425Copyright © Allyn & Bacon 2004
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Copyright (c) Allyn & Bacon 200426
Cells of the Nervous System
Internal structure
Microtubule:• A long strand of bundles of protein filaments
arranged around a hollow core; part of the cytoskeleton and involved in transporting substances from place to place within the cell.
Axoplasmic transport:• An active process by which substances are
propelled along microtubules that run the length of the axon.
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Copyright (c) Allyn & Bacon 200427Copyright © Allyn & Bacon 2004
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Cells of the Nervous System
Internal structure
Anterograde:• In a direction along an axon from the cell body to
the terminal buttons.
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Cells of the Nervous System
Internal structure
Retrograde:• In a direction along an axon from the terminal
buttons toward the cell body.
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Cells of the Nervous System
Glia
Glial cell:• The supporting cells of the central nervous
system.
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Cells of the Nervous System Glia
Astrocyte:• A glial cell that
provides support for neurons of the central nervous system, provides nutrients and other substances, and regulates the chemical composition of the extracellular fluid.
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Cells of the Nervous System
Phagocytosis:• The process by which cells engulf and digest
other cells or debris caused by cellular degeneration.
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Cells of the Nervous System
Oligodendrocyte:• A type of glial cell in the central nervous system
that forms myelin sheaths.
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Cells of the Nervous System
Myelin sheath:• A sheath that surrounds axons and insulates
them, preventing messages from spreading between adjacent axons.
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Cells of the Nervous System
Node of Ranvier:• A naked portion of a myelinated axon, between
adjacent oligodendroglia or Schwann cells.
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Cells of the Nervous System
Microglia:• The smallest glial cells; act as phagocytes and
protect the brain from invading microorganisms.
Schwann cell:• A cell in the peripheral nervous system that is
wrapped around a myelinated axon, providing one segment of its myelin sheath..
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The Blood-Brain Barrier (BBB)
Features of the Blood-Brain Barrier
• Regulates the chemicals that can enter the CNS from the blood.
• Helps the CNS maintain the proper composition of fluids inside and outside the neurons.
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Copyright (c) Allyn & Bacon 200438
The Blood-Brain Barrier (BBB)
Features of the Blood-Brain Barrier
Blood-brain barrier:• A semipermeable barrier between the blood and
the brain produced by cells in the walls of the brain’s capillaries.
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The Blood-Brain Barrier (BBB)
Features of the Blood-Brain Barrier
Area postrema:• A region of the medulla where the blood-brain
barrier is weak; poisons can be detected there and can initiate vomiting.
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Communication Within a Neuron
Measuring Electrical Potentials of Axons
Axons have two basic electrical potentials:• Resting Membrane Potential• Action Potential
The membrane potential can change:• Depolarization• Hyperpolarization• Threshold of excitation
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Communication Within a Neuron Measuring Electrical Potentials of Axons
Membrane potential:• The electrical charge across a cell membrane;
the difference in electrical potential inside and outside the cell.
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Communication Within a Neuron Measuring Electrical Potentials of Axons
Resting membrane potential:• The membrane potential of a neuron when it is
not being altered by excitatory or inhibitory postsynaptic potentials; approximately -70 mV in the giant squid axon.
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Communication Within a Neuron Measuring Electrical Potentials of Axons
Depolarization:• Reduction (toward zero) of the membrane
potential of a cell from its normal resting potential.
Hyperpolarization:• An increase in the membrane potential of a cell,
relative to the normal resting potential.
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Communication Within a Neuron Measuring Electrical Potentials of Axons
Action potential:• The brief electrical impulse that provides the
basis for conduction of information along an axon.
Threshold of excitation:• The value of the membrane potential that must
be reached to produce an action potential.
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Communication Within a Neuron The Membrane Potential is the result of a balance between
two forces.
Diffusion:• Movement of molecules from a region of high
concentration to regions of low concentration.
Electrostatic pressure :• The force exerted by the attraction or repulsion of ions,• Particles the same charge repel each other.• Particles with different charges attract each other.
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Communication Within a Neuron The Membrane Potential is the result of a balance
between two forces.
Diffusion:• Movement of molecules from a region of high
concentration to regions of low concentration,
i.e. when you put sugar in your coffee the sugar goes to the bottom and over time would diffuse throughout the coffee.
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Communication Within a Neuron The Membrane Potential is the result of a balance
between two forces.
Electrostatic Pressure• The force exerted by the attraction or repulsion
of ions.
• Particles with the same charge repel each other.• Particles with opposite charges attract each other.
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Communication Within a Neuron The Membrane Potential
Ion:• A charged molecule. Cations are positively
charged , and anions are negatively charged.
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Communication Within a Neuron The Membrane Potential
Intracellular fluid:• The fluid contained within cells.
Extracellular fluid:• Body fluids located outside cells.
Sodium-potassium transporter:• A protein found in the membrane of all cells that
extrudes sodium ions.
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Communication Within a Neuron The Membrane Potential
Extracellular fluid:• Body fluids located outside cells.
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Communication Within a Neuron The Membrane Potential
Intracellular fluid:• The fluid contained within cells.
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Communication Within a Neuron The Membrane Potential
Sodium-potassium transporter:• A protein found in the membrane of all cells that
extrudes sodium ions.
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Copyright (c) Allyn & Bacon 200454Copyright © Allyn & Bacon 2004
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Communication Within a Neuron The Action Potential
Ion channel:• A specialized protein molecule that permits
specific ions to enter or leave the cell.
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Communication Within a Neuron The Action Potential
Voltage-dependent ion channel:• An ion channel that opens or closes according
to the value of the membrane potential.
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Communication Within A Neuron Conduction of the Action Potential:
All-or-none law:• The principle that once an action potential is
triggered in an axon, it is propagated without decrement to the end of the fiber.
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Communication Within A Neuron Conduction of the Action Potential:
Cable properties:• The passive conduction of electrical current, in a
decremental fashion, down the length of an axon.
Saltatory conduction:• Conduction of action potentials by myelinated
axons. The action potential appears to jump from one node of Ranvier to the next..
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Communication Between Neurons The Concept of Chemical Transmission
Postsynaptic potential:• Alterations in the membrane potential of a
postsynaptic neuron, produced by the liberation of neurotransmitter at the synapse.
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Communication Between Neurons The Concept of
Chemical Transmission
Neuromodulator:• A naturally secreted
substance that acts like a neurotransmitter except that it is not restricted to the synaptic cleft but diffuses through the extracellular fluid.
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Communication Between Neurons Structures of Synapses
Presynaptic membrane:• The membrane of a terminal button that lies
adjacent to the postsynaptic membrane and through which the neurotransmitter is released.
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Communication Between Neurons Structures of Synapses
Synaptic cleft:• The space between the presynaptic membrane
and the postsynaptic membrane.
Synaptic vesicle:• A small, hollow, beadlike structure found in the
terminal buttons; contains molecules of a neurotransmitter.
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Communication Between Neurons Structures of Synapses
Release zone:• A region of the interior of the presynaptic
membrane of a synapse to which synaptic vesicles attach and release their neurotransmitter into the synaptic cleft.
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Communication Between Neurons Activation of Receptors
Postsynaptic receptor:• A receptor molecule in the postsynaptic
membrane of a synapse that contains a binding site for a neurotransmitter.
Neurotransmitter-dependent ion channel:• An ion channel that opens when a molecule of a
neurotransmitter binds with a postsynaptic receptor.
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Communication Between Neurons Activation of Receptors
Ionotropic receptor:• A receptor that contains a binding site for a
neurotransmitter and an ion channel that opens when a molecule of the neurotransmitter attaches to the binding site.
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Communication Between Neurons Activation of Receptors
Metabotropic receptor:• A receptor that contains a binding site for a
neurotransmitter; activates an enzyme that begins a series of events that opens an ion channel elsewhere in the membrane of the cell when a molecule of the neurotransmitter attaches to the binding site.
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Communication Between Neurons Activation of Receptors
G protein:• A protein coupled to a metabotropic receptor;
conveys messages to other molecules when a ligand binds with and activates the receptor.
Second messenger:• A chemical produced when a g protein activates
an enzyme; carries a signal that results in the opening of the ion channel or causes other events to occur in the cell.
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Communication Between Neurons Postsynaptic Potentials
Excitatory postsynaptic potential (EPSP):• An excitatory depolarization of the postsynaptic
membrane of a synapse caused by the liberation of a neurotransmitter by the terminal button.
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Communication Between Neurons Postsynaptic Potentials
Inhibitory postsynaptic potential (IPSP):• An inhibitory hyperpolarization of the
postsynaptic membrane of a synapse caused by the liberation of a neurotransmitter by the terminal button.
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Communication Between Neurons Termination of Postsynaptic Potentials
Reuptake:• The reentry of a neurotransmitter just liberated by
a terminal button back through its membrane, thus terminating the postsynaptic potential.
Enzymatic deactivation:• The destruction of a neurotransmitter by an
enzyme after its release, for example, the destruction of acetylcholine by acetylcholinesterase.
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Communication Between Neurons Effects of Postsynaptic Potentials: Neural
Integration
Neural integration:• The process by which inhibitory and excitatory
postsynaptic potentials summate and control the rate of firing of a neuron.
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Communication Between Neurons Autoreceptors
Autoreceptor:• A receptor molecule located on a neuron that
responds to the neurotransmitter released by that neuron.
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Communication Between Neurons Autoreceptors have a variety of functions:
• A receptor molecule located on the presynaptic neuron that responds to the neurotransmitter released by the presynaptic neuron.
• Regulate internal processes of the cell
• Regulate synthesis of the neurotransmitter
• Regulate the release of a neurotransmitter
• Generally serve to inhibit the activity of a transmitter