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Lecture II. The Nervous System and Its Cells

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Title: Lecture II. The Nervous System and Its Cells


1
Lecture II. The Nervous System and Its Cells
  • Bio 3411
  • Friday
  • August 29, 2008

2
  • T. Woolsey
  • 3802 North Building
  • 362-3601
  • woolseyt_at_medicine.wustl.edu

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Readings
  • NEUROSCIENCE 3rd ed, pp 1-22
  • THE BRAIN ATLAS 3rd ed, pp 4-17
  • (pdf of this chapter on course website
    http//artsci.wustl.edu/sdanker/)

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Movie - vmjr-brain.mov
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  • Overview
  • A Few Facts
  • Main Features of Nervous System
  • Cells of Nervous System
  • Importance in Health and in Disease

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Facts
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OrganWeight 2-3 of bodyO2 Consumption 20
of totalBrain Energy (Glucose) Utilization 20
of totalBrain Blood Flow 20 of heart output
at rest
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ElementsNeurons (nerve cells) 100
BillionGlia ( glue supporting cells) 1
TrillionSynapses (clasp) gt all stars planets
in the universeGenes 50 of 30,000 genes in
genome are expressed only in Brain70 of the
balance are also expressed in the nervous system
the total is 85 of the genome
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FeaturesBrain, Spinal Cord, Other
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THE BRAIN ATLAS 3rded, p. 8
Mid-line (sagittal) section through central
nervous system (CNS). Note the relationship
between vertebrae (BLACK), segments of the spinal
cord (RED) and spinal nerves (YELLOW).
13
THE BRAIN ATLAS 3rd ed, p. 111
Magnetic Resonance Image (MRI) of head and neck
at the midline.
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Peripheral (PNS - outside the skeleton) Sensory
(sensation) Motor (movement) Autonomic
(involuntary) Enteric (gut)Central (CNS
-inside the skeleton) Spinal Cord (Spine) Brain
(Skull)
15
Views of the human spinal cord and lower brain
stem. LEFT - Left lateral (side) showing segments
and spinal nerves. MIDDLE - Anterior (front)
view of spinal cord without showing
enlargements. RIGHT - Posterior (back) view of
spinal cord with roots, ganglia and nerves.
16
THE BRAIN ATLAS 3rd ed, p. 49
Spinal Cord Segment
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THE BRAIN ATLAS 3rd ed, p. 20
Left Lateral (side) view of the human Brain
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THE BRAIN ATLAS 3rd ed, p. 9
The different regions of the brain from the
lateral (side) and median section (middle) human
brain. These brain regions are discernable in in
all vertebrates and in early embryos. (cerebral
cortex gold thalamus blue/purple midbrain
orange pons purple, cerebellum blue medulla
red/orange spinal cord green)
19
THE BRAIN ATLAS 3rd ed, p. 58
20
THE BRAIN ATLAS 3rd ed, p. 59
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THE BRAIN ATLAS 3rd ed, p. 6
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Components
  • Gray Matter
  • Cortex, Nuclei or Ganglia (groups of nerve cell
    bodies and neuropil) generally of similar
    function
  • Neuropil - neuronal processes, synapses and glia

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Components
  • White Matter
  • Bundles (groups of myelinated axons see below
    that course in the same direction)
  • Tracts (also groups of axons (myelinated and
    un-myelinated but indicates origin, destination
    and therefore function)

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Cerebrospinal Fluid (CSF)
The brain and spinal cord are bathed in a
colorless fluid called cerebrospinal fluid (CSF).
The fluid is made in chambers in the brain called
ventricles (blue). It circulates between all the
cells and their processes and in the space
between a membrane on the brain surface (called
the pia mater) and a membrane that is next to the
skull or spine (arachnoid mater) called the
subarachnoid space (gold).
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Components
  • Other
  • Blood Vessels (arteries, capillaries, veins and
    venous sinuses)
  • Coverings - meninges (dura mater (tough mother),
    arachnoid (spider web like), pia
    (tender/affectionate))
  • Cerebrospinal fluid (CSF - ventricles, canals,
    intercellular space, subarachnoid space)

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Movie - vmjr-brain.mov
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Cells of Nervous SystemNeurons, Contacts,
Support
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Santiago Ramón y Cajal (1851-1932) ca.
1892 Cajal (say kaahaal) shared the 1906 Nobel
Prize for discoveries indicating that the nervous
system was made up of individual contiguous
elements - the neurons.
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Cells of Nervous System
  • Neurons
  • Parts cell body (soma), dendrites (input
    processes), axon (output process)
  • Types local circuit (90), projection (10)
  • Variations stellate (star like) pyramidal
    (conical/triangular) famous guys - Purkinje,
    Betz, Cajal, Retzius, Mauthner
  • All variations are correlated to particular
    functions.

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Photograph of neurons stained by Golgis method
which fills processes of some cells with black
precipitates of heavy metals and Nissl which
stains all nuclei and neuronal cytoplasm blue.
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Pyramidal neuron (conical cell body) stained by
Golgis method. There are multiple processes that
resemble branches of trees (dendrites) and one
that resembles a wire (axon arrow). Inputs to
the cell are mainly on dendrites and the cell
body (soma) while outputs are mainly via the
axon. This the principal long axon (output) cell
in the cerebral cortex.
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Photograph of a Purkinje cell in the cerebellum
stained by Golgis method. The neuron has one
complex dendrite that resembles a sea fan
(arrow). Synapses on this cell type are estimated
to be about 0.5 Million.
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Cells of Nervous System
  • Contacts (Synapses)
  • Parts bouton or ending (contains vesicles
    (transmitters, modulators) and mitochondia),
    presynaptic membrane (dense in electron
    microscope) synaptic cleft postynaptic membrane
    (dense in electron microscope)
  • Types asymmetrical Type I (postsynaptic
    membrane is thicker than presynaptic membrane
    spherical clear vesicles) these are excitatory
    synapses - on symmetrical Type II
    (postsynaptic membrane same as presynaptic
    membrane flattened clear vesicles) these are
    inhibitory synapses - off
  • Variations large like to muscle, chalice in
    brain stem, climbing in the cerebellum
    intermediate small in passing or as a terminal.
    All variations relate to specific functions (like
    variations in hammers - sledge vs. jewelers).

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Photograph of the giant neuron in the brainstem
of the gold fish (Mauthner) stained by Bodians
method. Synapses on this cell type are
particularly easy to see. Much work on this cell
type contributed to understanding the structure
of the synapse before the electron microscope was
invented.
35
Electron micrograph of a synapse in the brain
stained with the heavy metal element osmium (Os)
which is lipophylic (stains lipids/fats). This
synapse is only about 2 micrometers across.
The main components of a synapse synaptic cleft
(space between the terminal and target process),
membrane thickenings on the terminal (pre) and
process (post), mitochondria and synaptic
vseicles (contain transmitter(s)).
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Most brain synapses (type I) have a wider cleft
(space between the terminal and target process),
thicker membrane densities on the terminal (pre)
and process (post) and rounder vesicles. Such
synapses are excitatory (on).
About 10 - 20 brain synapses (type II) have a
narrower cleft, thinner membrane densities on the
terminal (pre) and process (post) and flat
vesicles. Such synapses are inhibitory (off).
37
A neuron (red) grown in tissue-culture. Green
shows proteins in processes from pre-synaptic
neurons. The green/yellow dots on the red neuron
indicate synapses. The inset shows a cartoon of
blue synaptic terminals contacting a neuron.
These picture gives a sense of the enormous
numbers, distribution and density of synapses on
a nerve cell. Neurons integrate information
from thousands of synapses from many different
sources.
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Cells of Nervous System
  • Glia (glue) or Supporting Cells
  • Parts cell body (soma) and "short" processes
  • Types astrocytes (star like) oligodendorcytes
    (fewer (oligo) branches (dendrites) microglia
    (small ones)
  • Variations fleshy, fibrous (stringy),
    myelinating, non-myelinating
  • All variations relate to specific functions.

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Cajals drawing of glia in the spinal cord.
B
C
A Ependyma (lining of the central canal of the
spinal cord)
A
B Oligodendrocytes which myelinate axons in fiber
tracts
D
C Astrocytes - Protoplasmic (fleshy) in gray
matter
C
D Astrocytes - Fibrous
40
NEUROSCIENCE (3rd ed, p.8, fig 1.5)
41
How Does This Work?
Please vote on the following propositionI think
that the TA can run up the stairs to the back row
of this auditorium in less than 10 seconds.
Yes ____
No ____
(Estimated elapsed time )
42
THE BRAIN ATLAS 3rd ed, pp. 5, 7
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ImportanceBiology, Disease
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  • Biology
  • Understanding the brain is THE major question in
    biology and science.
  • Is it possible for the brain to understand
    itself?
  • The brain like any organ has functions input,
    output, thought, communication.

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  • Brain Diseases
  • Interfere with brain functions as heart disease
    interferes with the circulation.
  • Many diseases have a strong genetic component.
  • Prevalence is high 15 - 30 of the
    population.
  • Cost is high gtgt 2 Trillion/year in care, lost
    income, social services, etc., in the US.
  • Impact (personal, family, societal) is
    persistent, pervasive, enormous, incalculable.

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  • What this lecture was about
  • A Few Facts
  • (genes, size, energy)
  • Main Features of Nervous System
  • (brain, spinal cord, periphery)
  • Cells of Nervous System
  • (neurons, glia, contacts)
  • Importance in Health and in Disease
  • (bases, prevalence, impact)

48
Movie - vmjr-brain.mov
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