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Astrocytes (also known collectively as astroglia) are characteristic star-shaped glial cells in the brain. Image File history File links Gfapastr5. ...
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Neuroglia cells of the brain shown by Golgis method. ...
Drawing of the structure of cork as it appeared under the microscope to Robert Hook from Micrographia which is the origin of the word cell. Cells in culture, stained for keratin (red) and DNA (green). ...
In animals the brain, or encephalon (Greek for in the head), is the control center of the central nervous system, responsible for thought. ...
Description
Astrocytes are sub-type of the glial cells in the brain. They are also known as astrocytic glial cells. Star-shaped, their many arms span all around neurons. Astrocytes are classically identified histologically by their expression of glial fibrillary acidic protein (GFAP). Previously in medical science, the neuronal network was considered the only important one, and astrocytes were looked upon as gap fillers. But recently they have been reconsidered and are now thought to play a number of active roles in the brain. Neuroglia cells of the brain shown by Golgis method. ...
Drawing by Santiago Ramón y Cajal of neurons in the pigeon cerebellum. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
Functions - Structural: involved in the physical structuring of the brain.
- Metabolic support: they provide neurons with nutrients such as glucose.
- Blood-brain barrier: the astrocyte end-feet encircling endothelial cells form part of the blood-brain barrier.
- Transmitter reuptake and release: astrocytes express plasma membrane transporters such as glutamate transporters for several neurotransmitters, including glutamate, ATP and GABA. More recently, astrocytes were shown to release glutamate or ATP in a vesicular, Ca2+-dependent manner.
- Regulation of ion concentration in the extracellular space: astrocytes express potassium channels at a high density. When neurons are active, they release potassium, increasing its extracellular concentration. Because astrocytes are so permeable to potassium, they rapidly clear its excess accumulation in the extracellular space. If this function is interfered with, the extracellular concentration of potassium will rise, leading to neuronal depolarization by the Goldman equation. Abnormal accumulation of extracellular potassium is well known to result in epileptic neuronal activity.
- Modulation of synaptic transmission: in the supraoptic nucleus of the hypothalamus, rapid changes in astrocyte morphology have been shown to affect heterosynaptic transmission between neurons.[1]
- Vasomodulation: astrocytes may serve as intermediaries in neuronal regulation of blood flow.[2]
- Promotion of the myelinating activity of oligodendrocytes: electrical activity in neurons causes them to release ATP, which serves as an important stimulus for myelin to form. Surprisingly, the ATP does not act directly on oligodendrocytes. Instead it causes astrocytes to secrete LIM, a regulatory protein that promotes the myelinating activity of oligodendrocytes. This suggest that astrocytes have an executive-coordinating role in the brain.[3]
In the 1990s, following persistent study, a small fan club of scientists began to uncover evidence that astrocytes signal to neurons and influence their activity. First, cell experiments in petri dishes found that following an increase of the element calcium in astrocytes, there is an increase of calcium in surrounding neurons. This implied some form of communication between the two cell types. Next, scientists found that indeed the calcium increase in astrocytes directly links to changes in neuron activity. In one study of rat cells, microelectrodes measured the electrical impulses that neurons use to signal to each other. In response to the calcium increase in astrocytes, the majority of neurons tested slowed down their signaling activity. A few increased their signaling activity. Glucose (Glc), a monosaccharide (or simple sugar), is the most important carbohydrate in biology. ...
Freeze-fracture morphology of the blood-brain barrier of a rat The blood-brain barrier (abbreviated BBB, not to be confused with the blood-cerebrospinal fluid barrier, a function of the choroid plexus) is a membrane that controls the passage of substances from the blood into the central nervous system. ...
The endothelium is the layer of thin, flat cells that lines the interior surface of blood vessels, forming an interface between circulating blood in the lumen and the rest of the vessel wall. ...
Glutamate transporters exist in the membranes of neurons and glial cells to remove excess amounts of the amino acid neurotransmitters glutamate and aspartate from the synapse. ...
Glutamate is the anion of glutamic acid. ...
Gaba may refer to: Gabâ or gabaa (Philippines), the concept of negative karma of the Cebuano people GABA, the gamma-amino-butyric acid neurotransmitter GABA receptor, in biology, receptors with GABA as their endogenous ligand Gaba 1 to 1, an English conversational school in Japan Marianne Gaba, a US model...
Adenosine 5-triphosphate (ATP) is a multifunctional nucleotide that is most important as a molecular currency of intracellular energy transfer. ...
In cell biology, potassium channels are the most common type of ion channel. ...
The Goldman-Hodgkin-Katz voltage equation, more commonly known as the Goldman equation is used in cell membrane physiology to determine the potential across a cells membrane taking into account all of the ions that are permeant through that membrane. ...
The supraoptic nucleus (SON) is a nucleus of magnocellular neurosecretory cells in the hypothalamus of the mammalian brain. ...
The hypothalamus (from Greek ὑποθαλαμος = under the thalamus) is a region of the mammalian brain located below the thalamus, forming the major portion of the ventral region of the diencephalon and functioning to regulate certain metabolic processes and other autonomic activities. ...
Oligodendrocytes (from Greek literally meaning few tree cells), or oligodendroglia (Greek, few tree glue)[1], are a variety of neuroglia. ...
Other research is uncovering key molecules that aid the communication. Several studies indicate that following the rise of calcium, astrocytes release the amino acid glutamate, which helps them talk to the neurons. The communication flows both ways, with neurons also being able to talk to the astrocytes through their own glutamate release. Signaling molecules, such as ATP and prostaglandins, also appear to promote the cell-to-cell communication, according to other new investigations.
Determining why the astrocyte chatting occurs and whether it actually affects the neurons' ability to process information, is another area of research. Early studies hint that some of the chatting may aid memory. Adding glutamate to cell samples of astrocytes prompts them to produce special molecules that nourish neurons, known as trophic factors. Other research has found that these molecules are key to memory function. In one recent study, injections of trophic factors into the brains of rats boosted the biological mechanisms known to relate to memory and improved the rats' performance in a memory task. This all may mean that glutamate release from neurons triggers astrocytes to produce trophic factors, which then help neurons process information for memory. Scientists currently are testing this theory.
Together the research is not only making researchers rethink how the brain operates, but also how to treat it when it malfunctions. For one, if the research on astrocytes' connection to memory pans out, then the cells may make good targets for treatment of memory disorders such as Alzheimer's disease. Astrocytes' relationship to glutamate also may make them good targets for clinical intervention since several brain disorders have been tied to glutamate problems. For example, some scientists believe that when the brain is infected by the AlDS-causing HIV virus or deprived of oxygen from lack of blood flow due to a stroke, a release of excess glutamate causes neurons to die. Agents that target astrocytes might help limit the glutamate overflow and prevent the cell death.
Furthermore, studies are underway to determine whether astroglia play an instrumental role in depression, based on the link between diabetes and depression. Altered CNS glucose metabolism is seen in both these conditions, and the astroglial cells are the only cells with insulin receptors in the brain.
Calcium waves Astrocytes are linked by gap junctions, creating an electrically coupled syncytium.[4] A gap junction is a junction between certain animal/plant cell-types that allows different molecules and ions to pass freely between cells. ...
In biology, a syncytium is a large region of cytoplasm that contains many nuclei. ...
An increase in intracellular calcium concentration can propagate outwards through this syncytium. Mechanisms of calcium wave propagation include diffusion of IP3 through gap junctions and extracellular ATP signalling.[5] Calcium elevations are the primary known axis of activation in astrocytes, and are necessary and sufficient for some types of astrocytic glutamate release.[6] IP3 can refer to the following: Inositol triphosphate (biochemistry) Third-order_intercept_point (radiocommunication) This is a disambiguation page — a navigational aid which lists pages that might otherwise share the same title. ...
Classification There are several different ways to classify astrocytes:
by Location - Type I: Those astrocytes are in direct contact with blood capillaries through astrocytique pod. They are actively helping neuronal metabolism and glucose delivery.
- Type II: Type II astrocytes surrounds neurones and synaptic gap. This coverage varies from 1 to 100%.
by Anatomical Classification Grey matter is a major component of the central nervous system, consisting of nerve cell bodies and short nerve cell extensions/processes (axons and dendrites). ...
Synapses allow nerve cells to communicate with one another through axons and dendrites, converting electrical signals into chemical ones. ...
White matter is one of the two main solid components of the central nervous system. ...
This article is about anatomy; for the musical group see Nodes of Ranvier (band) Nodes of Ranvier are regularly spaced gaps in the myelin sheath around an axon or nerve fiber. ...
by Transporter/receptor classification - GluT type: express glutamate transporters (EAAT1/SLC1A3 and EAAT2/SLC1A2) and respond to synaptic release of glutamate by transporter currents
- GluR type: express glutamate receptors (mostly mGluR and AMPA type) and respond to synaptic release of glutamate by channel-mediated currents and IP3-dependent Ca2+ transients
Glutamate is a neurotransmitter in nerve cells which binds to all glutamate receptors located on neuron membranes, and is an example of a transmembrane receptor. ...
Metabotropic glutamate receptors, or mGluRs, are a type of glutamate receptor which are active through an indirect metabotropic process. ...
The AMPA receptor (AMPAR) is a non-NMDA-type ionotropic transmembrane receptor for glutamate that mediates fast synaptic transmission in the central nervous system. ...
Inositol triphosphate or inositol 1,4,5-triphosphate (also commonly known as triphosphoinositol; abbreviated InsP3 or IP3), together with diacylglycerol, is a second messenger molecule used in signal transduction in biological cells. ...
Bergmann glia Bergmann glia also known as radial epithelial cells (as named by Camillo Golgi) are astrocytes in the cerebellum that have their cell bodies in the Purkinje cell layer and processes that extend into the molecular layer, terminating with bulbous endfeet at the pial surface. Bergmann glia express high densities of glutamate transporters that limit diffusion of the neurotransmitter glutamate during its release from synaptic terminals. Besides their role in early development of the cerebellum, Bergmann glia are also required for the pruning or addition of synapses. Camillo Golgi, 1906. ...
The cerebellum (Latin: little brain) is a region of the brain that plays an important role in the integration of sensory perception and motor output. ...
The cell body or soma is a structure in a neuron consisting of the main part of the cell and containing the nucleus. ...
Drawing of pigeon Purkinje cells (A) by Santiago Ramon y Cajal Purkinje cells are a class of GABAergic neuron located in the cerebellar cortex. ...
[www. ...
Glutamate transporters exist in the membranes of neurons and glial cells to remove excess amounts of the amino acid neurotransmitters glutamate and aspartate from the synapse. ...
Chemical structure of D-Aspartic Acid, a common Amino Acid neurotransmitter. ...
Glutamate is the anion of glutamic acid. ...
Illustration of the major elements in a prototypical synapse. ...
Pathology Astrocytomas are primary intracranial tumors derived from astrocytes cells of the brain. Astrocytomas are primary intracranial tumors derived from astrocytes cells of the brain. ...
Tumor or tumour literally means swelling, and is sometimes still used with that meaning. ...
References - ^ Piet R, Vargová L, Syková E, Poulain D, Oliet S (2004). "Physiological contribution of the astrocytic environment of neurons to intersynaptic crosstalk.". Proc Natl Acad Sci U S A 101 (7): 2151-5. PMID 14766975.
- ^ Parri R, Crunelli V (2003). "An astrocyte bridge from synapse to blood flow.". Nat Neurosci 6 (1): 5-6. PMID 12494240.
- ^ Ishibashi T, Dakin K, Stevens B, Lee P, Kozlov S, Stewart C, Fields R (2006). "Astrocytes promote myelination in response to electrical impulses.". Neuron 49 (6): 823-32. PMID 16543131.
- ^ Bennett M, Contreras J, Bukauskas F, Sáez J (2003). "New roles for astrocytes: gap junction hemichannels have something to communicate.". Trends Neurosci 26 (11): 610-7. PMID 14585601.
- ^ Newman, J Neurosci. 2001 Apr 1;21(7):2215-23
- ^ Parpura V, Haydon P (2000). "Physiological astrocytic calcium levels stimulate glutamate release to modulate adjacent neurons.". Proc Natl Acad Sci U S A 97 (15): 8629-34. PMID 10900020.
- ^ Anatomy at MUN nerve/neuron
Memorial University of Newfoundland, (popularly known as Memorial University or MUN) is a comprehensive university located primarily in St. ...
External links - UIUC Histology Subject 57
- Society for Neuroscience: Astrocytes
- Bergmann Glia GABAA Receptors Concentrate on the Glial Processes ...
- Cytodifferentiation of Bergmann glia and its relationship with Purkinje cells
| v • d • e Histology: nervous tissue | Neurons (gray matter): soma, axon (axon hillock, axoplasm, axolemma, neurofibril/neurofilament), dendrite (Nissl body, dendritic spine)
types (bipolar, pseudounipolar, multipolar, pyramidal, Purkinje, granule) Afferent nerve/Sensory nerve/Sensory neuron (GSA, GVA, SSA, SVA, Type Ia sensory fiber), Efferent nerve/Motor nerve/Motor neuron (GSE, GVE, SVE) Alpha motor neuron, Gamma motoneurons, Upper motor neuron, Lower motor neuron), Interneuron (Renshaw) The College of Medicine at Urbana-Champaign is a graduate school at the University of Illinois at Urbana-Champaign. ...
A thin section of lung tissue stained with hematoxylin and eosin. ...
Nervous tissue is the fourth major class of vertebrate tissue. ...
Drawing by Santiago Ramón y Cajal of neurons in the pigeon cerebellum. ...
Grey matter (or gray matter) is a major component of the central nervous system, consisting of nerve cell bodies, glial cells (astroglia and oligodendrocytes), capillaries, and short nerve cell extensions/processes (axons and dendrites). ...
The soma is the bulbous end of a neuron, containing the nucleus. ...
An axon or nerve fiber, is a long, slender projection of a nerve cell, or neuron, that conducts electrical impulses away from the neurons cell body or soma. ...
The arrow labeled axon is pointing directly at the axon hillock. ...
Axoplasm is the cytoplasm of the axon of a neuron. ...
The axolemma is the membrane of a neurons axon. ...
Intermediate filaments are one component of the cytoskeleton - important structural components of living cells. ...
Dendrites (from Greek dendron, “treeâ€) are the branched projections of a neuron that act to conduct the electrical stimulation received from other neural cells to the cell body, or soma, of the neuron from which the dendrites project. ...
Image of a Nissl-stained histological section through the rodent hippocampus showing various classes of neurons. ...
Close up of the dendrite of a striatal medium spiny neuron. ...
As a part of the retina, the bipolar cell exists between photoreceptors (rod cells and cone cells) and ganglion cells. ...
Pseudounipolar cells (Pseudo- false, uni- one) are sensory neurons in the peripheral nervous system. ...
The multipolar neuron possesses a single (usually long) axon and many dendrites, allowing for the integration of a great deal of information from other neurons. ...
A pyramidal cell (or pyramidal neuron, or projection neuron) is a multipolar neuron located in the hippocampus and cerebral cortex. ...
Drawing of pigeon Purkinje cells (A) by Santiago Ramon y Cajal Purkinje cells are a class of GABAergic neuron located in the cerebellar cortex. ...
In neuroscience, granule cells are tiny cells found within the granular layer of the cerebellum. ...
The mechanism of the reflex arc In the nervous system, afferent neurons--otherwise known as sensory or receptor neurons--carry nerve impulses from receptors or sense organs toward the central nervous system. ...
The mechanism of the reflex arc Sensory neurons (or neurones) are nerve cells within the nervous system responsible for converting external stimuli from the organisms environment into internal electrical impulses. ...
The mechanism of the reflex arc Sensory neurons (or neurones) are nerve cells within the nervous system responsible for converting external stimuli from the organisms environment into internal [[electrical poop is responsible for it aright underlie motor reflex loops and several forms of involuntary behavior, including pain avoidance. ...
The general somatic afferent fibers (or somatic sensory fibers), afferent fibers, arise from cells in the spinal ganglia and are found in all the spinal nerves, except occasionally the first cervical, and conduct impulses of pain, touch and temperature from the surface of the body through the posterior roots to...
The general visceral afferent fibers (or sympathetic afferent fibers), conduct sensory impulses from the viscera through the rami communicantes and posterior roots to the spinal cord. ...
Special somatic afferent (SSA) refers to efferent nerves which supply muscles derived from ectoderm. ...
Special visceral afferent (SVA) refers to afferent nerves supporting the gastrointestinal tract. ...
Type Ia Sensory Fiber also called Primary Afferent Type 1A Fiber or Group II sensory fibers is a component of a muscle fibers muscle spindle which keeps track of the how fast a muscle stretch changes (the velocity of the stretch). ...
In the nervous system, efferent nerves otherwise known as motor or effector neuron carry nerve impulses away from the central nervous systemto effectors - either muscles or glands. ...
Motor nerves enable the brain to stimulate muscle contraction. ...
â…”In vertebrates, the term motor neuron (or “motoneuronâ€) classically applies to neurons located in the central nervous system (CNS) which project their axons outside the CNS and directly or indirectly control muscles. ...
The general somatic efferent fibers (or somatic motor fibers), efferent fibers, arise from cells in the anterior column of the spinal cord and pass out through the anterior roots to the voluntary muscles. ...
The general visceral efferent fibers (GVE or sympathetic efferent fibers), probably arise from cells in the lateral column or the base of the anterior column and emerge through the anterior roots and white rami communicantes. ...
Special visceral efferent (SVE) refers to efferent nerves which supply muscles which derived from the branchial arches. ...
Alpha motor neurons (α-MNs) are large lower motor neurons of the brainstem and spinal cord. ...
γ-motoneurons (gamma-motoneurons or motor neurons) are a component of the fusimotor system, the system by which the CNS controls muscle spindle sensitivity. ...
Upper motor neurons are any neurons that carry motor information down to the final common pathway, that is, any neurons that are not directly responsible for stimulating the target muscle. ...
Lower motor neurons (LMNs) are the motoneurons connecting the brainstem and spinal cord to muscle fibers, bringing the nerve impulses from the upper motor neurons out to the muscles. ...
An interneuron (also called relay neuron,association neuron or bipolar neuron) is a term used to describe a neuron which has two different common meanings. ...
Renshaw cells are located in the spinal cord horn. ...
Synapses: neuropil, synaptic vesicle, neuromuscular junction, electrical synapse Illustration of the major elements in a prototypical synapse. ...
Neuropil is the feltwork of unmyelinated neuronal processes (axonal and dendritic) within the gray matter of the central nervous system Traditionally, when pathologists looked at brain tissue they concentrated on neurons (the active functioning cells of the brain), glial cells and axons (especially in white matter, which is mostly composed...
In a neuron, synaptic vesicles, also called neurotransmitter vesicles, store the various neurotransmitters that are released during calcium-regulated exocytosis at the presynaptic terminal into the synaptic cleft of a synapse. ...
A neuromuscular junction is the junction of the axon terminal of a motoneuron with the motor end plate, the highly-excitable region of muscle fiber plasma membrane responsible for initiation of action potentials across the muscles surface. ...
An electrical synapse is a mechanical and electrically conductive link between two abutting neurons that is formed at a narrow gap between the pre- and postsynaptic cells known as a gap junction. ...
Sensory receptors: Free nerve ending, Meissner's corpuscle, Merkel nerve ending, Muscle spindle, Pacinian corpuscle, Ruffini ending, Olfactory receptor neuron, Photoreceptor cell, Hair cell, Taste bud In a sensory system, a sensory receptor is a structure that recognizes a stimulus in the internal or external environment of an organism. ...
NERVE ENDINGS SUCK PENIS!!! ...
Meissners corpuscles (discovered by the anatomist Georg Meissner (1829-1903) are a type of mechanoreceptor and more specifically, a tactile corpuscle(corpusculum tactus). ...
Merkel nerve endings are mechanoreceptors found in the skin and mucosa of vertebrates that provide touch information to the brain. ...
A muscle spindle is a specialized muscle structure innervated by both sensory and motor neuron axons. ...
A Pacinian corpuscle is a structure that functions as a mechanoreceptor. ...
Ruffini Endings are one of the four main cutaneous mechanoreceptors. ...
An olfactory receptor neuron, also called an olfactory sensory neuron, is the primary transduction cell for olfaction in the olfactory system. ...
Photoreceptor cells are contained in the retina and are responsible for transducing, or converting, light into signals that can be ultimately transmitted to the brain via the optic nerve. ...
Hair cells are the sensory cells of both the auditory system and the vestibular system in all vertebrates. ...
Taste buds are small structures on the upper surface of the tongue, soft palate, and epiglottis that provide information about the taste of food being eaten. ...
Glial cells: astrocyte, ependymal cells, microglia, radial glia This article or section does not cite its references or sources. ...
It has been suggested that this article or section be merged with Ependyma. ...
Microglia are a type of glial cell that act as the immune cells of the Central nervous system (CNS). ...
Radial glial cells are a pivotal cell type in the developing CNS involved in key developmental processes, ranging from patterning and neuronal migration to their newly described role as precursors during neurogenesis. ...
Myelination (white matter): Schwann cell, oligodendrocyte, nodes of Ranvier, internode, Schmidt-Lanterman incisures, neurolemma In neuroscience, myelin is an electrically insulating phospholipid layer that surrounds the axons of many neurons. ...
White matter is one of the two main solid components of the central nervous system. ...
Named after the German physiologist Theodor Schwann, Schwann cells are a variety of neuroglia that mainly provide myelin insulation to axons in the peripheral nervous system of jawed vertebrates. ...
Oligodendrocytes (from Greek literally meaning few tree cells), or oligodendroglia (Greek, few tree glue)[1], are a variety of neuroglia. ...
This article is about anatomy; for the musical group see Nodes of Ranvier (band) Nodes of Ranvier are regularly spaced gaps in the myelin sheath around an axon or nerve fiber. ...
The portion of nerve fiber between two Nodes of Ranvier is called an internodal segment (or internode). ...
Oblique clefts may be seen in the medullary sheath, subdividing it into irregular portions, which are termed Schmidt-Lanterman incisures (or clefts of schmidt-lanterman, segments of Lantermann, medullary segments. ...
Neurolemma (spelled also neurolema, neurilemma and neurilema, and used interchangeably with epineurium) is the insulating myelin layer that surrounds an individual peripheral nerve fiber. ...
Related connective tissues: epineurium, perineurium, endoneurium, nerve fascicle, meninges Connective tissue is one of the four types of tissue in traditional classifications (the others being epithelial, muscle, and nervous tissue. ...
Neurolemma (spelled also neurolema, neurilemma and neurilema, and used interchangeably with epineurium) is the insulating myelin layer that surrounds an individual peripheral nerve fiber. ...
In a nerve fiber, the tubular sheath of the funiculi, perineurium, is a fine, smooth, transparent membrane, which may be easily separated, in the form of a tube, from the fibers it encloses; in structure it is made up of connective tissue, which has a distinctly lamellar arrangement. ...
The nerve fibers are held together and supported within the funiculus by delicate connective tissue, called the endoneurium. ...
A small bundle of fibers, enclosed in a tubular sheath, is called a funiculus; if the nerve is of small size, it may consist only of a single funiculus; but if large, the funiculi are collected together into larger bundles or nerve fascicles, which are bound together in a common...
The meninges (singular meninx) are the system of membranes that envelop the central nervous system. ...
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