BIOMAT Database Logo BIOMAT Database Logo

Intracellular EGTA alters phasic firing of neurons in the rat supraoptic nucleus in vitro. 1992

K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Department of Physiology, School of Medicine, University of Occupational and Environmental Health, Kitakyushu, Japan.

To determine the function of intracellular free Ca2+ which is important in generating the phasic firing pattern characteristic of vasopressin neurons in the supraoptic nucleus (SON), we injected the highly specific Ca(2+)-chelating agent ethyleneglycol-bis-(beta-aminoethyl ether) N,N-tetraacetic acid (EGTA) into SON cells in the rat hypothalamic slice preparation. Intracellular recordings from 29 SON neurons which showed phasic firing were analyzed. Of the 29 SON neurons, 21 were recorded with microelectrodes filled with 3 M potassium acetate and 20 of the 21 neurons retained the phasic pattern more than 1 h after penetration by the electrode. Only one neuron lost phasic firing and fired randomly. By contrast, in all 8 neurons which were recorded with microelectrodes filled with 100 mM EGTA/2 M potassium acetate, phasic firing disappeared 10-80 min after penetration of the recording electrode although the neurons still showed spontaneous activity. These neurons also lost the after hyperpolarization and plateau potentials which followed bursting discharges. Our results suggest that intracellular free Ca2+ may play an important role in generating phasic firing.

UI MeSH Term Description Entries
D007031 Hypothalamus Ventral part of the DIENCEPHALON extending from the region of the OPTIC CHIASM to the caudal border of the MAMMILLARY BODIES and forming the inferior and lateral walls of the THIRD VENTRICLE. Lamina Terminalis,Preoptico-Hypothalamic Area,Area, Preoptico-Hypothalamic,Areas, Preoptico-Hypothalamic,Preoptico Hypothalamic Area,Preoptico-Hypothalamic Areas
D008297 Male Males
D008839 Microelectrodes Electrodes with an extremely small tip, used in a voltage clamp or other apparatus to stimulate or record bioelectric potentials of single cells intracellularly or extracellularly. (Dorland, 28th ed) Electrodes, Miniaturized,Electrode, Miniaturized,Microelectrode,Miniaturized Electrode,Miniaturized Electrodes
D009474 Neurons The basic cellular units of nervous tissue. Each neuron consists of a body, an axon, and dendrites. Their purpose is to receive, conduct, and transmit impulses in the NERVOUS SYSTEM. Nerve Cells,Cell, Nerve,Cells, Nerve,Nerve Cell,Neuron
D002118 Calcium A basic element found in nearly all tissues. It is a member of the alkaline earth family of metals with the atomic symbol Ca, atomic number 20, and atomic weight 40. Calcium is the most abundant mineral in the body and combines with phosphorus to form calcium phosphate in the bones and teeth. It is essential for the normal functioning of nerves and muscles and plays a role in blood coagulation (as factor IV) and in many enzymatic processes. Coagulation Factor IV,Factor IV,Blood Coagulation Factor IV,Calcium-40,Calcium 40,Factor IV, Coagulation
D004533 Egtazic Acid A chelating agent relatively more specific for calcium and less toxic than EDETIC ACID. EGTA,Ethylene Glycol Tetraacetic Acid,EGATA,Egtazic Acid Disodium Salt,Egtazic Acid Potassium Salt,Egtazic Acid Sodium Salt,Ethylene Glycol Bis(2-aminoethyl ether)tetraacetic Acid,Ethylenebis(oxyethylenenitrile)tetraacetic Acid,GEDTA,Glycoletherdiamine-N,N,N',N'-tetraacetic Acid,Magnesium-EGTA,Tetrasodium EGTA,Acid, Egtazic,EGTA, Tetrasodium,Magnesium EGTA
D000200 Action Potentials Abrupt changes in the membrane potential that sweep along the CELL MEMBRANE of excitable cells in response to excitation stimuli. Spike Potentials,Nerve Impulses,Action Potential,Impulse, Nerve,Impulses, Nerve,Nerve Impulse,Potential, Action,Potential, Spike,Potentials, Action,Potentials, Spike,Spike Potential
D000818 Animals Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA. Animal,Metazoa,Animalia
D013495 Supraoptic Nucleus Hypothalamic nucleus overlying the beginning of the OPTIC TRACT. Accessory Supraoptic Group,Nucleus Supraopticus,Supraoptic Nucleus of Hypothalamus,Accessory Supraoptic Groups,Group, Accessory Supraoptic,Groups, Accessory Supraoptic,Hypothalamus Supraoptic Nucleus,Nucleus, Supraoptic,Supraoptic Group, Accessory,Supraoptic Groups, Accessory,Supraopticus, Nucleus
D017208 Rats, Wistar A strain of albino rat developed at the Wistar Institute that has spread widely at other institutions. This has markedly diluted the original strain. Wistar Rat,Rat, Wistar,Wistar Rats

Related Publications

K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Muscarinic receptor modulation of slow afterhyperpolarization and phasic firing in rat supraoptic nucleus neurons.
September 2004, The Journal of neuroscience : the official journal of the Society for Neuroscience,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Spontaneous "phasic-firing' in supraoptic neurons recorded from hypothalamo-neurohypophysial explants in vitro.
June 1982, Neuroendocrinology,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
The neurosteroid pregnenolone sulphate enhances NMDA-induced phasic firing of vasopressin neurones in the rat supraoptic nucleus.
April 1997, Neuroscience letters,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Excitatory role of the hyperpolarization-activated inward current in phasic and tonic firing of rat supraoptic neurons.
July 2000, The Journal of neuroscience : the official journal of the Society for Neuroscience,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Phasically firing neurons in the supraoptic nucleus of the rat hypothalamus: immunocytochemical and electrophysiological studies.
May 1983, Neuroscience letters,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
In vivo Intracellular Recording of Neurons in the Supraoptic Nucleus of the Rat Hypothalamus.
August 1991, Journal of neuroendocrinology,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Phasic and tonic firing properties in rat oculomotor nucleus motoneurons, studied in vitro.
May 2007, The European journal of neuroscience,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Electrical properties of neurons recorded from the rat supraoptic nucleus in vitro.
January 1983, Proceedings of the Royal Society of London. Series B, Biological sciences,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Flufenamic acid blocks depolarizing afterpotentials and phasic firing in rat supraoptic neurones.
December 2002, The Journal of physiology,
K Inenaga, and N Akamatsu, and T Nagatomo, and Y Ueta, and H Yamashita
Caesium blocks depolarizing after-potentials and phasic firing in rat supraoptic neurones.
July 1998, The Journal of physiology,
Copied contents to your clipboard!