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Transcript 
BASICS OF NEUROBIOLOGY
NERVOUS TISSUE
ZSOLT LIPOSITS
1
Basics of Neurobiology: Nervous tissue
MAIN CHARACTERISTICS NERVOUS TISSUE
THE NERVOUS TISSUE RECEIVES INFORMATION FROM THE ENVIRONMENT
PROCESSES THE INCOMING DATA AND DISPATCHES EXECUTIVE COMMANDS THAT
REGULATE THE BASIC FUNCTIONS OF THE BODY AND ADJUST THEM TO THE
CHANGING INTERNAL AND EXTERNAL CONDITIONS
COMPOSED OF TWO MAJOR CELL TYPES: NEURONS AND GLIAL CELLS
NEURONS EXHIBIT PROCESSES (DENDRITES, AXONS) THAT ARE USED FOR
NETWORKING AND COMMUNICATION
NEURONS ARE EXCITABLE CELLS THAT MAINTAIN A -70 mV RESTING POTENTIAL DUE
TO THE UNEVEN DISTRIBUTION OF K+, Na+ AND Cl – IONS ACROSS THE PLASMA
MEMBRANE.
INCREASE IN THE K+ AND Na+ CONDUCTANCES EVOKES ACTION POTENTIAL THAT
RESULTS IN ELECTRIC OR CHEMICAL SIGNALLING AFFECTING THE MEMBRANE
PROPERTIES OF THE SYNAPTICALLY COUPLED NEURONS.
GLIAL CELLS EXIST IN STRUCTURAL AND FUNCTIONAL SYMBIOSIS WITH NEURONS
2
Basics of Neurobiology: Nervous tissue
NEURON
GLIA
3
Basics of Neurobiology: Nervous tissue
STRUCTURAL DOMAINS OF NEURONS
CELL BODY (PERIKARYON)
DENDRITIC PROCESS
AXON PROCESS
AXON COLLATERAL
AXON TERMINAL
NEURON RECONSTRUCTION
3D ORIENTATION
Drawing by Santiago Ramón y Cajal of cerebellar neurons
(A) Purkinje cells. (B) Granule cells.
4
Basics of Neurobiology: Nervous tissue
NEURON-GLIA
INTERACTION
GLIA
NEURON
GLIA
5
Basics of Neurobiology: Nervous tissue
BASIC NEURON TYPES
MULTIPOLAR NEURONS. MOST COMMON TYPE WITH AN EXTENDED,
BRANCHING DENDRITIC TREE. MOTONEURONS OF THE SPINAL CORD
BIPOLAR NEURONS. POSSESS A DENDRITIC PROCESS AND AN AXON,
ORIGINATING FROM THE OPPOSITE POLES OF THE CELL. SENSORY
NEURONS OF THE VESTIBULAR GANGLION
PSEUDO-UNIPOLAR NEURONS. THE DENDRITE AND THE AXON ARISE
FROM A COMMON STEM OF THE NEURON. SENSORY NEURONS OF
THE SPINAL GANGLION
6
DENDRITIC TREE
CELL BODY
PERIKARYON
AXON
AXON TERMINAL
IDEGSEJT ALKOTÓI
7
Basics of Neurobiology: Nervous tissue
RECONSTRUCTION
3D ORIENTATION
Axon
Perikaryon
Dendrites
8
Basics of Neurobiology: Nervous tissue
1
1. DENDRITIC TREE. COLLECTION OF DENDRITES. EXTENSIVE BRANCHING.
EXHIBITS DENDRITIC SPINES. RECEIVES AFFERENT AXON TERMINALS
FROM OTHER NEURONS
2. CELL BODY. RICH IN CELL ORGANELLES. ENSURES PROTEIN
PRODUCTION. ORGANIZES INTRACELLULAR TRAFFICKING
2
3. AXON HILLOCK. SITE FOR AXON ORIGIN. SHOWS HIGH DENSITY
OF VOLTAGE-DEPENDENT SODIUM CHANNELS. ACTION POTENTIAL
INITIATION
3
4
4. AXON COLLATERAL. BRANCH OF THE AXON PROCESS. TAKES PART
IN LOCAL NEURONAL NETWORKS
5. AXON. EFFERENT PROCESS OF NEURON. PROPAGATES ACTION
POTENTIALS. ENSURES TRANSPORT MECHANISMS
5
6
6. AXON TERMINAL. THE FINAL SEGMENT OF THE AXON SPLITTING
INTO FINE-CALIBER PROCESSES THAT COMMUNICATE WITH
OTHER ELEMENTS. RELEASES NEURO-MESSENGERS
9
Basics of Neurobiology: Nervous tissue
AFFERENT INPUT
PROCESSING
EFFERENT OUTPUT
EXECUTION
10
Basics of Neurobiology: Nervous tissue
PYRAMIDAL CELL
11
Basics of Neurobiology: Nervous tissue
P
U
R
K
I
N
J
E
12
Basics of Neurobiology: Nervous tissue
SEM OF A NEURON
13
Basics of Neurobiology: Nervous tissue
nce
verge
di
converge
nce
14
Basics of Neurobiology: Nervous tissue
DIFFERENT PHENOTYPES AND CHEMOTYPES OF MULTIPOLAR NEURONS
A
CHOLINERGIC
MOTONEURON
GLUTAMATERGIC
PYRAMIDAL CELL
GABAERGIC PURKINJE CELL
15
Basics of Neurobiology: Nervous tissue
AXO-SPINOUS SYNAPTIC COMMUNICATION
sp
at
1. DENDRITE FORMING DENDRITIC
SPINES THAT RECEIVE TERMINATING
AXONS
2. ULTRASTRUCTURAL SCHEME
OF AN AXO-SPINOUS SYNAPSE
2. SYNAPSE (ARROW) FORMED BY
AN AXON TERMINAL (at) ON A
DENDRITIC SPINE (sp)
16
Basics of Neurobiology: Nervous tissue
17
Basics of Neurobiology: Nervous tissue
MAIN CELLULAR FUNCTIONS OF NEURONS
1. GENERATE INTRINSIC ACTIVITY
2. RECEIVE EXTRINSIC, SYNAPTIC INPUTS
3. INTEGRATE INTRINSIC AND EXTRINSIC SIGNALS
4. ENCODE THE PATTERN OF OUTPUT
5. DISTRIBUTE INFORMATION VIA SYNAPSES
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Basics of Neurobiology: Nervous tissue
MEMBRANE POTENTIAL AND ACTION POTENTIAL
MEASURING THE RESTING MEMBRANE POTENTIAL: -90 mV
THE ACTIVE TRANSPORT OF SODIUM AND POTASSIUM IONS THROUGH THE
MEMBRANE: THE SODIUM-POTASSIUM PUMP
LEAKAGE OF SODIUM AND POTASSIUM THROUGH THE MEMBRANE
CONTRIBUTION OF ION LEAKAGE AND THE SODIUM-POTASSIUM PUMP TO THE
RESTING POTENTIAL
THE 3 PHASES OF ACTION POTENTIAL: RESTING, DEPOLARIZATION
AND REPOLARIZATION STAGES
CORRELATION OF ACTION POTENTIAL STAGES WITH
THE OPERATION OF THE VOLTAGE-GATED SODIUM AND
POTASSIUM CHANNELS
19
Basics of Neurobiology: Nervous tissue
CHARACTERISTICS OF NEURONAL NETWORKS
CONVERGENT NEURONAL PATHWAY
FOR NARROWING INFORMATION FLOW
FEEDBACK INHIBITION
DIVERGENT NEURONAL PATHWAY
FOR WIDENING INFORMATION FLOW
FEED FORWARD INHIBITION
LATERAL INHIBITION
Neural inhibition
From Scholarpedia
Peter Jonas and Gyorgy Buzsaki (2007), Scholarpedia, 2(9):3286.
20
Basics of Neurobiology: Nervous tissue
INPUT-INTEGRATION-CONDUCTANCE-OUTPUT
21
Basics
of Neurobiology: Nervousidegsejtben
tissue
Információ
transzformációja
22
Basics of Neurobiology: Nervous tissue
NEURON DOCTRINE
NEURONS ARE DOMINANT CONSTITUENTS OF THE NERVOUS TISSUE.
THEY SERVE IN MULTIPLE CAPACITIES
STRUCTURAL UNIT. NEURONS ARE INDIVIDUAL ENTITIES, TOTALLY COVERED BY CELL
MEMBRANE, 15-20 nM WIDE INTERNEURONAL SPACE SEPARATES THEM
DEVELOPMENTAL UNIT. NEURONS DEVELOP FROM SPHERICAL OR COLUMNAR NEUROEPITHELIAL
CELLS OF THE NEURAL TUBE, NEURAL CREST AND THE PLACODE PLATES. DIFFERENTIATED,
MATURE NEURONS DO NOT DIVIDE
TROPHIC UNIT. THE CELL BODY PROVIDES THE GENETIC CODE AND THE DIVERSE BIOCHEMICAL
MACHINERIES THAT MAINTAIN THE TROPHIC NEEDS OF THE LONG PROCESSES. NISSL BODIES ARE
INDICATIVE OF THE ACTIVE PROTEIN SYNTHESIS IN NEURONS
FUNCTIONAL UNIT. THE INHIBITORY AND EXCITATORY CURRENTS SPREAD IN ALL DIRECTIONS IN
THE NEURONAL MEMBRANE. ONCE THE ALL-OR-NONE TYPE ACTION POTENTIAL IS GENERATED IT
SPREADS IN THE DIRECTION OF THE AXON TERMINAL
PATHOLOGICAL UNIT. NEURONS GIVE A DIFFERENTIAL RESPONSE TO PATHOLOGICAL CAUSES
HISTODYNAMIC POLARIZATION. THE PREFERRED WAY OF CONDUCTING INFORMATION IN THE
AXON IS FROM THE DIRECTION OF THE CELL BODY TOWARD THE AXON TERMINAL
23
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