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Transcript
Introduction
 “Neurophilosophy”

Brain is the origin of mental abilities
 Glia


and Neurons
Glia: Insulates, supports, and nourishes
neurons
Neurons
 Process
information
 Sense environmental changes
 Communicate changes to other neurons
 Command body response
The Neuron Doctrine
 Histology


Study of tissue structure
The Nissl Stain
 Facilitates
the study of
cytoarchitecture in the CNS
The Neuron Doctrine
 Golgi-stain
(Developed by Camillo Golgi) shows
two parts of neurons:


Soma and perikaryon
Neurites: Axons and dendrites
The Neuron Doctrine
 Cajal’s


Contribution
Neural circuitry
Neurons communicate by
contact, not continuity
 Neuron
doctrine
 Neurons
adhere to cell theory
 Based in Golgi stain
The Prototypical Neuron
 The



Nucleus
Gene expression
Transcription
RNA processing
The Prototypical Neuron
 The
Soma
 Cytosol:
Watery fluid inside the cell
 Organelles: Membrane-enclosed structures
within the soma
 Cytoplasm: Contents within a cell membrane
(e.g., organelles, excluding the nucleus)
The Prototypical Neuron
 The

Soma
Major site for protein synthesis
 Rough
endoplasmic reticulum
The Prototypical Neuron
 The

Soma
Protein synthesis also on free ribosomes; polyribosomes
The Prototypical Neuron
 The

Soma
Smooth ER and Golgi Apparatus
 Sites
for preparing/sorting proteins for delivery to different
cell regions (trafficking) and regulating substances
The Prototypical Neuron
 The

Soma
Mitochondrion
 Site
of cellular respiration (inhale
and exhale)
 Krebs cycle
 ATP- cell’s energy source
The Prototypical Neuron
 The




Neuronal Membrane
Barrier that encloses cytoplasm
~5 nm thick
Protein concentration in membrane varies
Structure of discrete membrane regions
influences neuronal function
The Prototypical Neuron
 The



Cytoskeleton
Not static
Internal scaffolding of neuronal
membrane
Three “bones”
 Microtubules
 Microfilaments
 Neurofilaments
The Prototypical Neuron
 The



Axon
Axon hillock (beginning)
Axon proper (middle)
Axon terminal (end)
 Differences
soma


between axon and
ER does not extend into axon
Protein composition: Unique
The Prototypical Neuron
 The

Axon
The Axon Terminal
 Differences
between the cytoplasm of axon
terminal and axon




No microtubules in terminal
Presence of synaptic vesicles
Abundance of membrane proteins
Large number of mitochondria
The Prototypical Neuron
 The

Axon
Synapse
 Synaptic
transmission
 Electrical-to-chemical-to-electrical
transformation
 Synaptic transmission dysfunction

Mental disorders
The Prototypical Neuron
 The


Axon
Axoplasmic transport
Anterograde (soma to terminal) vs. Retrograde
(terminal to soma) transport
The Prototypical Neuron
 Dendrites




“Antennae” of neurons
Dendritic tree
Synapse - receptors
Dendritic spines
 Postsynaptic
(receives signals
from axon terminal)
Classifying Neurons
 Classification
Based on the
Number of Neurites

Single neurite
 Unipolar

Two or more neurites
 Bipolar-
two
 Multipolar- more than two
Classifying Neurons
 Classification
Based on
Dendritic and Somatic
Morphologies


Stellate cells (star-shaped)
and pyramidal cells (pyramidshaped)
Spiny or aspinous
Classifying Neurons
 Further

Classification
By connections within the CNS
 Primary
sensory neurons, motor neurons,
interneurons

Based on axonal length
 Golgi
Type I
 Golgi Type II

Based on neurotransmitter type
 e.g.,
– Cholinergic = Acetycholine at synapses
Glia


Function of Glia
 Supports neuronal functions
Astrocytes
 Most numerous glia in the brain
 Fill spaces between neurons
 Influence neurite growth
 Regulate chemical content of
extracellular space
Glia
 Myelinating



Glia
Oligodendroglia (in CNS)
Schwann cells (in PNS)
Insulate axons
Glia
 Myelinating
(Cont’d)


Glia
Oligodendroglial cells
Node of Ranvier
 Region
where the
axonal membrane is
exposed
Glia

Other Non-Neuronal Cells
 Microglia as phagocytes (immune)
Structure Correlates
with Function
Structural
characteristics of a
neuron tell us about
its function
NEURONS
Soma
Axons
Dendrites
Synapse
e.g., Dense Nissl
stain = protein;
suggests
specialization
Elaborate
structure of
dendritic tree =
receiver