BIO 201 Chapter 12, Part 1 Lecture
Transcript of BIO 201 Chapter 12, Part 1 Lecture
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Chapter 12, Part 1Nervous Tissue
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Overview of the NervousS stem
The nervous system, along with theendocrine system, helps to keep
controlled conditions within limitsthat maintain health and helps tomaintain homeostasis.
The nervous system is responsible for
all our behaviors, memories, andmovements.
The branch of medical science that
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Major Structures of theNervous System
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Overview of MajorStructures Twelve pairs of cranial nerves. Thirty-one pairs of spinal nerves emerge from the
spinal cord. Ganglia, located outside the brain and spinal cord,
are small masses of nervous tissue, containingprimarily cell bodies of neurons.
Enteric plexuses help regulate the digestivesystem.
Sensory receptors are either parts of neurons or
specialized cells that monitor changes in theinternal or external environment.
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Functions of NervousS stem
Sensory function: to sense changes in theinternal and external environment throughsensory receptors.
Sensory (afferent) neurons serve this function. Integrative function: to analyze the sensory
information, store some aspects, and makedecisions regarding appropriate behaviors.
Association or interneurons serve this function. Motor function is to respond to stimuli by
initiating action.
Motor(efferent) neurons serve this function.
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Nervous SystemDivisions
Central nervous system (CNS) consists of the brain and spinal cord
Peripheral nervous system (PNS) consists of cranial and spinal nerves that
contain both sensory and motor fibers
connects CNS to muscles, glands & all
sensory receptors
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Structure of a MultipolarNeuron
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Histology of the NervousSystem: Neurons
Functional unit of nervous system Have capacity to produce action potentials
electrical excitability
Cell body single nucleus with prominent nucleolus
Nissl bodies (chromatophilic substance)rough ER & free ribosomes for protein synthesis
neurofilaments give cell shape and support
microtubules move material inside cell lipofuscin pigment clumps (harmless aging)
Cell processes = dendrites & axons
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Structural Classification of Neurons
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Sensory receptors that are
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CNS Neurons
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Axonal Transport
Cell body is location for most proteinsynthesis neurotransmitters & repair proteins
Axonal transport system moves substances slow axonal flow
movement in one direction only -- away from cell body
movement at 1-5 mm per day
fast axonal flowmoves organelles & materials along surface of microtubules
at 200-400 mm per day
transports in either direction
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Neuroglia of the CNS
Most commonglial cell type
oligodendrocyte
forms myelinsheath aroundmore than oneaxons in CNS
Analogous toSchwann cells of PNS
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Neuroglia of the PNS
Schwann cells encircling PNS axons Each cell produces part of the myelin
sheath surrounding an axon in the PNS
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Myelinated andunmyelinated axons
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Organization of theNervous System
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Subdivisions of the PNS
Somatic (voluntary) nervous system (SNS) neurons from cutaneous and special sensory receptors to
the CNS
motor neurons to skeletal muscle tissue
Autonomic (involuntary) nervous systems sensory neurons from visceral organs to CNS motor neurons to smooth & cardiac muscle and glands
sympathetic division (speeds up heart rate)parasympathetic division (slow down heart rate)
Enteric nervous system (ENS) involuntary sensory & motor neurons control GI tract neurons function independently of ANS & CNS
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Electrical Signals inNeurons
Neurons are electrically excitable dueto the voltage difference across their
membraneCommunicate with 2 types of electricsignals action potentials that can travel long
distances graded potentials that are local
membrane changes only
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Overview of Nervous SystemFunctions
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Types of Ion Channels
Leakage (nongated) channels are alwaysopen nerve cells have more K+ than Na+ leakage
channels as a result, membrane permeability to K+ is higher explains resting membrane potential of -70mV in
nerve tissue Ligand-gated channels open and close in
response to a stimulus results in neuron excitability
Voltage-gated channels respond to a directchange in the membrane potential.
Mechanically gated ion channels respond
to mechanical vibration or pressure.
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Ion channels in plasmamembrane
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Resting MembranePotential Negative ions along inside of cell membrane
& positive ions along outside potential energy difference at rest is -70 mV cell is “polarized”
Resting potential exists because concentration of ions different inside & outside
extracellular fluid rich in Na+ and Cl
cytosol full of K+, organic phosphate & amino
acids membrane permeability differs for Na+ and K+
50-100 greater permeability for K+
inward flow of Na+ can’t keep up withoutward flow of K+
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Resting MembranePotential
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Factors that contribute toresting membrane potential
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Graded Potentials
Small deviations from resting potential of -70mV hyperpolarization = membrane has become more
negative depolarization = membrane has become more
positive
The signals are graded , meaning they vary inamplitude (size), depending on the strengthof the stimulus and localized .
Graded potentials occur most often in thedendrites and cell body of a neuron.
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Hyperpolarized/DepolarizedGraded Potential
G d d t ti l i t
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Graded potentials in response toopening mechanically-gated
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Stimulus strength andgraded potentials
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Summation
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Generation of ActionPotentials
An action potential (AP) or impulse is asequence of rapidly occurring events thatdecrease and eventually reverse the
membrane potential (depolarization) and thenrestore it to the resting state (repolarization). During an action potential, voltage-gated Na+ and
K + channels open in sequence.
According to the all-or-none principle, if a stimulusreaches threshold, the action potential is always thesame.
A stronger stimulus will not cause a larger impulse.
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Action Potentials
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Stimulus strength and ActionPotential generation
Ch i i fl d i
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Changes in ion flow duringdepolarizing and repolarizing
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Refractory period
Period of time during whichneuron can not generateanother action potential
Absolute refractory period even very strong stimulus will
not begin another AP inactivated Na+ channels must return to the resting
state before they can be reopened large fibers have absolute refractory period of 0.4
msec and up to 1000 impulses per second arepossible Relative refractory period
a suprathreshold stimulus will be able to start an AP K+ channels are still open, but Na+ channels have
closed
E d f Ch 12 P
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End of Chapter 12, Part1