Increase in Neuroexcitability of Unmyelinated C-type Vagal Ganglion Neurons During Initial Postnatal Development of Visceral Afferent Reflex Functions

Overview

Journal CNS Neurosci Ther

Specialties Neurology
Pharmacology

Date 2013 Oct 30

PMID 24164691

Citations 1

Authors

Zhao Qian

Dong-Jie Liu

Yang Liu

Li-Min Han

Mei Yuan

Jun-Nan Li

Bing Xu

Xiao-Long Lu

Pan-Xiang Cao

Hao-Yan Wang

Xiao-Dong Pan

Li-Juan Wang

Guo-Fen Qiao

Bai-Yan Li

Affiliations

Soon will be listed here.

Abstract

Background: Baroreflex gain increase up closely to adult level during initial postnatal weeks, and any interruption within this period will increase the risk of cardiovascular problems in later of life span. We hypothesize that this short period after birth might be critical for postnatal development of vagal ganglion neurons (VGNs).

Methods: To evaluate neuroexcitability evidenced by discharge profiles and coordinate changes, ion currents were collected from identified A- and C-type VGNs at different developmental stages using whole-cell patch clamping.

Results: C-type VGNs underwent significant age-dependent transition from single action potential (AP) to repetitive discharge. The coordinate changes between TTX-S and TTX-R Na(+) currents were also confirmed and well simulated by computer modeling. Although 4-AP or iberiotoxin age dependently increased firing frequency, AP duration was prolonged in an opposite fashion, which paralleled well with postnatal changes in 4-AP- and iberiotoxin-sensitive K(+) current activity, whereas less developmental changes were verified in A-types.

Conclusion: These data demonstrate for the first time that the neuroexcitability of C-type VGNs increases significantly compared with A-types within initial postnatal weeks evidenced by AP discharge profiles and coordinate ion channel changes, which explain, at least in part, that initial postnatal weeks may be crucial for ontogenesis in visceral afferent reflex function.

Citing Articles

Direct activation of tachykinin receptors within baroreflex afferent pathway and neurocontrol of blood pressure regulation.

Yuan M, Ma M, Wang T, Feng Y, Chen P, He C CNS Neurosci Ther. 2018; 25(1):123-135.

PMID: 29900692 PMC: 6436602. DOI: 10.1111/cns.12993.

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