An in vitro assay system for studying synapse formation between nociceptive dorsal root ganglion and dorsal horn neurons
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- 作者:Donald J. Joseph ; Papiya Choudhury ; Amy B. MacDermott
- 关键词:Electrophysiology ; Synaptogenesis ; Immunocytochemistry ; Nociceptive ; Microisland ; Dorsal horn ; Dorsal root ganglia
- 刊名:Journal of Neuroscience Methods
- 出版年:2010
- 出版时间:15 June 2010
- 年:2010
- 卷:189
- 期:2
- 页码:197-204
- 全文大小:757 K
文摘
Synapses between nociceptive dorsal root ganglion (DRG) neurons and spinal cord dorsal horn neurons represent the first loci for transmission of painful stimuli. Our knowledge of the molecular organization and development of these synapses is sparse due, partly, to a lack of a reliable model system that reconstitutes synaptogenesis between these two neuronal populations. To address this issue, we have established an in vitro assay system consisting of separately purified DRG neurons and dorsal horn neurons on astrocyte microislands. Using immunocytochemistry, we have found that 97 % , 93 % , 98 % , 96 % , and 94 % of DRG neurons on these microislands express markers often associated with nociceptive neurons including Substance P, TRPV1, calcitonin-gene related peptide (CGRP), TrKA, and peripherin, respectively. Triple labeling with these nociceptive-like markers, synaptic vesicle marker Vglut2 and using MAP2 as a dendritic marker revealed the presence of nociceptive-like markers at synaptic terminals. Using this immunocytochemical approach, we counted contact points as overlapping MAP2/Vglut2 puncta and showed that they increased with time in culture. Single and dual patch-clamp recordings showed that overlapping Vglut2/MAP2 puncta observed after a few days in culture are likely to be functional synapses between DRG and dorsal horn neurons in our in vitro assay system. Taken together, these data suggest our co-culture microisland model system consists of mostly nociceptive-like DRG neurons that express presynaptic markers and form functional synapses with their dorsal horn partners. Thus, this model system may have direct application for studies on factors regulating development of nociceptive DRG/dorsal horn synapses.