Ca2+ channels and synaptic transmission at the adult, neonatal, and P/Q-type deficient neuromuscular junction

Different types of voltage-activated Ca2+ channels have been established based on their molecular structure and pharmacological and biophysical properties. One of them, the P/Q-type, is the main channel involved in nerve-evoked neurotransmitter release at neuromuscular junctions and the immunologica...

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Detalles Bibliográficos
Autores principales: Nudler, S., Piriz, J., Urbano, F.J., Rosato-Siri, M.D., Piedras Renteria, E.S., Uchitel, O.D.
Formato: SER
Materias:
Calcium channels
Calcium dependence
Miniature endplate potentials
Neuromuscular junction
Transmitter release
calcium channel
calcium channel blocking agent
calcium channel L type
calcium channel N type
calcium channel P type
calcium channel Q type
calcium channel R type
immunoglobulin
neurotransmitter
nitrendipine
okadaic acid
omega agatoxin
omega agatoxin gvia
omega agatoxin IVA
snx 482
unclassified drug
agents interacting with transmitter, hormone or drug receptors
potassium
ataxia
chemical structure
conference paper
drug effect
dystonia
Eaton Lambert syndrome
electric potential
electrophysiology
endplate potential
exocytosis
experiment
genetic analysis
genetic code
human
immune system
knockout mouse
nerve ending
nerve potential
neuromuscular synapse
neurotransmitter release
nonhuman
pathophysiology
structure analysis
synaptic transmission
adult
aging
animal
classification
fetus
genetics
metabolism
mouse
neuromuscular junction disorder
newborn
physiology
rat
review
secretion
synaptic membrane
Ataxia
Adult
Aging
Animals
Animals, Newborn
Calcium Channels, L-Type
Calcium Channels, N-Type
Fetus
Humans
Mice
Neuromuscular Junction
Neuromuscular Junction Diseases
Neurotransmitter Agents
Potassium
Rats
Synaptic Membranes
Synaptic Transmission
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00778923_v998_n_p11_Nudler
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:Different types of voltage-activated Ca2+ channels have been established based on their molecular structure and pharmacological and biophysical properties. One of them, the P/Q-type, is the main channel involved in nerve-evoked neurotransmitter release at neuromuscular junctions and the immunological target in Eaton-Lambert Syndrome. At adult neuromuscular junctions, L- and N-type Ca2+ channels become involved in transmitter release only under certain experimental or pathological conditions. In contrast, at neonatal rat neuromuscular junctions, nerve-evoked synaptic transmission depends jointly on both N- and P/Q-type channels. Synaptic transmission at neuromuscular junctions of the ataxic P/Q-type Ca2+ channel knockout mice is also dependent on two different types of channels, N- and R-type. At both neonatal and P/Q knockout junctions, the K +-evoked increase in miniature endplate potential frequency was not affected by N-type channel blockers, but strongly reduced by both P/Q- and R-type channel blockers. These differences could be accounted for by a differential location of the channels at the release site, being either P/Q- or R-type Ca2+ channels located closer to the release site than N-type Ca2+ channels. Thus, Ca2+ channels may be recruited to mediate neurotransmitter release where P/Q-type channels seem to be the most suited type of Ca2+ channel to mediate exocytosis at neuromuscular junctions.

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