[The study of role of membrane-bound Ca2+ in the regulation of relationship between neuron and glia during rhythmic excitation]

G V Maksimov; V B Turovetskiĭ; Ch Chaterjy; A I Andreev; Iu E Mironova; T A Brindikova; A B Rubin

[The study of role of membrane-bound Ca2+ in the regulation of relationship between neuron and glia during rhythmic excitation]

Biofizika. 2000 May-Jun;45(3):542-6.

[Article in Russian]

Authors

G V Maksimov¹, V B Turovetskiĭ, Ch Chaterjy, A I Andreev, Iu E Mironova, T A Brindikova, A B Rubin

Affiliation

¹ Biological Department, Lomonosov Moscow State University, Vorob'evy Gory, Russia.

PMID: 10872069

Abstract

The role of membrane-bound Ca2+ in the regulation of Ca2+ transport through voltage-gated Ca2+ channel, and NMDA-glutamate and n-acetylcholine receptors upon interaction of a neuron with glia during rhythmic excitation was studied. It was found that the redistribution and transport of Ca2+ play a crucial role in the conductance of rhythmic excitation in both a "neuron-neuron" system and the processes providing the maintenance of a stationary level of rhythmic excitation in the system "neuron-glia".

Publication types

English Abstract

MeSH terms

Animals
Calcium / physiology*
Cell Communication / drug effects
Cell Communication / physiology*
Cell Membrane / physiology*
Ion Transport / drug effects
Membrane Potentials
Neuroglia / physiology*
Neurons / physiology*
Neurotransmitter Agents / pharmacology
Rana temporaria

Substances

Neurotransmitter Agents
Calcium