Neuroscience 1 - Trans 4 - Neuron and Neuroglia PDF

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University of Northern Philippines

Dr. A. Viado, M.D.

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neuron neuroglia neuroanatomy biology

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This document is about neuron and neuroglia, including their functions, structures, and types. It describes the different parts of a neuron, such as dendrites, axons, and cell bodies, and explains how neurons communicate with each other. It also covers the different types of neuroglia and their roles in supporting neurons.

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1A NUEROANATOMY NEURON AND NEUROGLIA DR. A. VIADO, M.D. OUTLINE...

1A NUEROANATOMY NEURON AND NEUROGLIA DR. A. VIADO, M.D. OUTLINE According to Function I. Neuron II. Structure of the Neuron  Motor - conducts impulses from the CNS to the muscles III. Nerve cell Process and glands IV. Synapse  Sensory – Receives sensory input. Conduct impulses V. Myelin Production towards the CNS. VI. Neuroglia  Interneurons – interconnectors ; Establish neuronal circuit between sensory and motor neurons. I. NEURON  Nerve cells and its processes According to size  Amitotic A. Functions  Receptive – Receive stimuli and transducer into nerve impulses for transfer to another region  Integrative – processing impulse on the higher center  Motor – Initiating motor response and transducer the impulse to an effector Dendrite – Receives information and conducting it TOWARD the cell body. Axon – Long tubular neurite that conducts impulse away from the cell body. Nerve Fibers – Combination of dendrites and axons  Golgi type I Neurons - long axons that may be 1 meter or B. Varieties of Neurons more. o Forms the long fiber tracts of the brain and spinal cord and nerve fiber of peripheral nerve.  Golgi type II Neurons – Short axon o Greatly outnumbered the type I o Star-shaped appearance o Often inhibitory in function Neuron Grouping  Cortex – Neuron form six layer on the cerebrum, three layers on the cerebellum  Unipolar Neurons – cell body has a single neurite. o The branches of this single neurite have the  Nuclei – In subcortical region (thalamus, midbrain, structural and functional characteristics of an brainstem and spinal cord) neuron form irregular cluster axon; forms central and peripheral processes. o Found in Posterior root ganglion  Ganglion – Cluster of neuron outside CNS\  Bipolar Neurons – Elongated cell body from each end of which a single neurite emerges. o Found in retinal bipolar cells and cells of the II. STRUCTURE OF THE NEURON sensory cochlear and vestibular ganglia  3 main parts: o One is a fused dendrite, the other is and axon o Cell Body  Multipolar Neurons – have a number of neuritis arising o Axon from the cell body. o Dendrites o All are dendrites except for a single axon. o Most neurons of the CNS o Fiber tracts of the brain, spinal cord and peripheral nerves. Trans 2 | Brul, Allida, Andam, Andoy 1 of 6 Neuroanatomy Neuron and Neuroglia - Belongs to cytokeratin family Microfilaments – concentrated at the periphery of the cytoplasm - Function in the formation of new cell process and retraction of old ones - Assist microtubules in axon transport Microtubules – found interspersed among the neurofilaments  Rapid transport – brought about by two motor proteins associated with ATPase site. KINESIN for antegrade (away from the cell) DYNEIN for retrograde movement.  Slow transport – bulk movement of cytoplasm. Occurs only in Antegrade direction Lysosome – Intracellular scavengers contain hydrolytic enzymes formed by budding of golgi apparatus. Centrioles – Bundle of microtubules found in immature dividing nerve cells. NERVE CELL BODY  Perikaryon / Soma – Clusters of cell bodies Lipofuscin (Pigment Material) – result of the lysosomal activity  Bounded by plasma membrane, mass of cytoplasm which - Yellow to Brown ; accumulate with age nucleus is embedded Melanin Granules – Found in the substantia nigra of midbrain. - Related to the cathecholamine synthesizing ability of the Nucleus – Stores the genes and is commonly centrally located - In mature neurons, the chromosome no longer duplicate and function only in gene expression - There is usually a single prominent nucleus - The nuclear envelope can be regarded as a special portion of the rough ER. - Transcriptionally active Cytoplasm – No centrioles, incapable of cell division - Stains basophilically due to abundance of RER and poly ribosome. (Stains: Toluidine Blue or Basic Aniline Dye)  Nissl Bodies – clumps of RER that are site of protein synthesis - Distributed throughout the cytoplasm except for the AXON HILLOCK  Microtubules and Neurofibrils – protein transport (Neurofilaments)  Chromatolysis – Disappearance of Nissl Bodies Golgi Complex – Stained by Silver Osmium method - Network of irregular wavy threads around the nucleus. - Protein storage and where CHO may be added to form glycoproteins - Active in lysosome production and in synthesis of cell membranes neurons, whose neurotransmitter is dopamine. - Important in the formation of synaptic vesicles of the axon terminals Where to find nerve cell bodies with their dendrites?  Cerebral Cortex Mitochondria – important in energy production  Inner gray of Spinal Cord (Dorsal and Ventral Horns)  Clusters: Neurofibrils – May form bundles (neurofilaments) o CNS – Basal ganglia and Thalamus - Form the main component of the cytoskeleton o PNS – Ganglia S1T2 2 of 6 Neuroanatomy Neuron and Neuroglia o Often have small protrusions, called dendritic spines PLASMA MEMBRANE that expand the dendritic surface area.  External boundary of the cell body  Serves as sites of synaptic contact with the  Site of Initiation and conduction of impulse. axon of another neuron. Excitation of the Plasma Membrane ( Nerve Impulse)  Axon – longest process of the cell body.  Stimulation of the Nerve Cells (-80mV) o Generate Nerve impulses away from the soma o Originate from:  + Na Ions diffuse in Plasma Membrane Axon hillock  distal portion  axon terminal  end bulbs  synapse with another neurons  Depolarization (+40 mV) o Devoid of nissl boddies  Varicosite – series of swelling in the terminal  Increase membrane permeability for K + ends resembling string of beads. o Larger diameter – Rapid Impulse  + K Influx o Smaller diameter – slower impulse  Resting Stage  Sarcolemma – the plasma membrane bounding the axon Refractory Period – Duration of non-excitable state  Axoplasm – cytoplasm of the axon o No Nissl granules or golgi apparatus - Influx of Cl - Causing the inhibitory stimuli producing hyperpolarization o Under normal condition, an action potential does not originate on the plasma membrane of the cell body, instead always at the initial segment. o When bundled together:  CNS : Tracts (e.g. Corpus callosum, corticospinal tract) – made up of AXONS only.  PNS: Nerves (e.g. Ulnar nerve)  Tracts – bundle of axons (nerve fiber) within the CNS (connective tissue is absent) o Found in the white matter / spinal cord  Nerves – bundle of axons that extend out from the brain as cranial nerves and from the spinal cord as spinal nerves (surrounded by connective tissue sheaths) Axons are either:  Myelinated – surrounded by insulating sheath that speeds conduction of the electrical impulses  Non-Myelinated – lacking of myelin sheath and thus conduct impulse slowly. IV. SYNAPSES  Interneuronal communication III. NERVE CELL PROCESS Types depending on site  Dendrites – Short processes of the cell body  Axodendritic (most common) o Cytoplasm resembles that of cell body.  Axosomatic o Conduct the nerve impulses towards the cell body.  Axoaxonic o Receptive input region, Electrical signals are  Dendrodrendritc conveyed as Graded Potential o Always Unmyelinated Synaptic Spine – extension of the surface of a neuron from receptive sites for synaptic contact of afferent neurons. S1T2 3 of 6 Neuroanatomy Neuron and Neuroglia Summary Dendrites ( Graded potential) Soma/body (integration) Axons (Action Potential) Axon terminal synapse Peripheral Nerve -chemical transmission -chemical transmission -Axodendritic, axosomatic -Neuromascular Junction Axoaxonic ** transmission in nerve cells occurs along the cell membrane ** within the cell : Electrical transmission ** between the cell : Synaptic transmission Ultra structure of chemical synapses  Apposed surface of the terminal axonal expansion and neurons are called : presynaptic and post synaptic separated by synaptic cleft.  The vesicles fuse with the presynaptic membrane and discharge the neurotransmitter into the synaptic cleft by a process of exocytosis. Action of neurotransmitters  Nerve impulse ++  Ca influx  Fusion of synaptic vesicles with presynaptic membrane  Ejection of neurotransmitter to the ECF in synaptic cleft  Action Neuromodulators - modulate and modify the activity of post synaptic neurons. - Control hemeostasis V. MYELIN PRODUCTION  CNS – Oligodendrocytes Electrical transmission (ionic)  PNS – Schwann Cells  One way transmission along the cell membrane.  Flow of ion along the length of a membrane CNS : Oligodendrocytes  Graded potential (Along Dendrites)  Have processes that form myelin sheath around CNS nerve  Action potential (Along Axons) fibers.  Role in the CNS  Multiple flat process that can coil around up to 60 axons  No chemical transmitter  Both myelinated and unmyelinated fibers are present in  Bidirectional CNS  Nodes of Ranvier are widely spaced Synaptic transmission  No neurilemma (Basal lamina)  Diffuse across space  Chemical transmission Myelin Sheath and Neurilemma Formation (PNS)  Cell to Cell signalling  Whittish, fatty (protein – lipid) segmented sheath around  Axon terminals (Axodendritic / Neuromascular Junction) most long axons S1T2 4 of 6 Neuroanatomy Neuron and Neuroglia  It Functions in:  End in expansions of blood vessels, and found in the outer o Protection of the axons and inner glial limiting membranes. o Electrically insulating fibers from one another  Outer glial – beneath the pia matter o Increase the speed of nerve impulse  Inner glial – beneath the ependyma lining the ventricles of transmission the brain  Formed by Schwann Cells  Functions: o Enveloped an axon with its plasma membrane o Supporting framework for the nerve cells and o Concentric layers of membrane make up the nerve fibers. myelin sheath o Scaffolding for the migration of immature o Wraps only one axon neuron  Neurilemma – remaining nucleus / cytoplasm of Schwann o Electrical insulators cells o Form barriers for the spread of neurotransmitter o Responsible for salutatory conduction substances released at synapses o Store glycogen within their cytoplasm Nodes of Ranvier o Secrete cytokines  Myelin sheath gaps between adjacent Schwann cells, occur o Structure of Blood Brain Barrier at regular intervals.  Sites where axon collaterals can emerge OLIGODENDROCYTE  Unmyelinated axons – Schwann cells enclose axons but no  found in rows along myelinated nerve fibers myelin present.  Functions: VI.NEUROGLIA o Responsible for the formation of myelin sheath o Provides the axons with insulating coat  Non excitable cells supporting the neurons o And increase the speed of nerve conduction  Smaller than neurons, comprise about half the total along the axons. volume of the brain and spinal cord  th Myelination begins at 16 week of intrauterine life  Metabolic and mechanical support  Mitotic MICROGLIA  Embryologically unrelated to the other neuroglial cells and are derived from macrophages outside cells with spine like projections  Functions: o Microglial cell in the normal brain and spinal cord appear to be inactive Resting microglial cells o Immune effector cells o Can become and antigen presenting cells o Actively phagocytic EPENDYMA  Line the cavities of the brain and the centrak canal of the spinal cord  Cuboidal or columnar in shape, contains microvilli and cilia  Cilia contributes to the flow of CSF  Divided into: o Ependymocytes – line the ventricles of the brain and central canal of the spinal cord  In contact with the CSF. Circulate and ASTROCYTES absorbs CSF rd  Small cell bodies with branching processes. o Tancytes – Line the floor of the 3 ventricle  Types: overlying the median eminence of hypothalamus o Fibrous Astrocytes – found mainly in the white  Transport chemical substances from matter CSF to the hypophysial portal system  Long, slender, smooth and NOT o Choroid epithelial cells – Covers the surface of branched containing many filaments the choroid plexus o Protoplasmic Astrocytes – Found mainly in the  The presence of tight junction prevents gray matter the leakage of CSF  Shorter, thicker and branched  Produce and secretes CSF S1T2 5 of 6 Neuroanatomy Neuron and Neuroglia  Functions: o Assist in the Circulation of CSF o Control the hormone production and secretion of CSF from the choroid plexus. EXTRACELLULAR SPACE  Gap separates the neurons and neuroglial cells  Surrounds the blood capillaries in brain and spinal cord  Pathway for exchange in ions between the blood and the neurons and glial cells. REFERENCES th 1. Snell RS,M.D. Clinical Neuroanatomy. 7 ed, updated. Philadelphia: Lipincott Williams & Wilkins, 2010. 2. Powerpoint of Dr. Viado S1T2 6 of 6

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