KV1 and KV3 Potassium Channels Identified at Presynaptic Terminals of the Corticostriatal Synapses in RatReport as inadecuate




KV1 and KV3 Potassium Channels Identified at Presynaptic Terminals of the Corticostriatal Synapses in Rat - Download this document for free, or read online. Document in PDF available to download.

Neural Plasticity - Volume 2016 2016, Article ID 8782518, 11 pages -

Research Article

Neurociencias UIICSE, FES Iztacala, Universidad Nacional Autónoma de México UNAM, 54090 Tlalnepantla, MEX, Mexico

Carrera de Médico Cirujano UBIMED, FES Iztacala, Universidad Nacional Autónoma de México UNAM, 54090 Tlalnepantla, MEX, Mexico

Received 22 January 2016; Revised 12 April 2016; Accepted 16 May 2016

Academic Editor: Zygmunt Galdzicki

Copyright © 2016 David Meneses et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

In the last years it has been increasingly clear that -channel activity modulates neurotransmitter release. The subcellular localization and composition of potassium channels are crucial to understanding its influence on neurotransmitter release. To investigate the role of in corticostriatal synapses modulation, we combined extracellular recording of population-spike and pharmacological blockage with specific and nonspecific blockers to identify several families of channels. We induced paired-pulse facilitation PPF and studied the changes in paired-pulse ratio PPR before and after the addition of specific blockers to determine whether particular subtypes were located pre- or postsynaptically. Initially, the presence of channels was tested by exposing brain slices to tetraethylammonium or 4-aminopyridine; in both cases we observed a decrease in PPR that was dose dependent. Further experiments with tityustoxin, margatoxin, hongotoxin, agitoxin, dendrotoxin, and BDS-I toxins all rendered a reduction in PPR. In contrast heteropodatoxin and phrixotoxin had no effect. Our results reveal that corticostriatal presynaptic channels have a complex stoichiometry, including heterologous combinations 1.1, 1.2, 1.3, and 1.6 isoforms, as well as 3.4, but not 4 channels. The variety of channels offers a wide spectrum of possibilities to regulate neurotransmitter release, providing fine-tuning mechanisms to modulate synaptic strength.





Author: David Meneses, Ana V. Vega, Francisco Miguel Torres-Cruz, and Jaime Barral

Source: https://www.hindawi.com/



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