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Intercellular calcium signaling in a gap junction-coupled cell network establishes asymmetric neuronal fates in C. elegans.


ABSTRACT: The C. elegans left and right AWC olfactory neurons specify asymmetric subtypes, one default AWC(OFF) and one induced AWC(ON), through a stochastic, coordinated cell signaling event. Intercellular communication between AWCs and non-AWC neurons via a NSY-5 gap junction network coordinates AWC asymmetry. However, the nature of intercellular signaling across the network and how individual non-AWC cells in the network influence AWC asymmetry is not known. Here, we demonstrate that intercellular calcium signaling through the NSY-5 gap junction neural network coordinates a precise 1AWC(ON)/1AWC(OFF) decision. We show that NSY-5 gap junctions in C. elegans cells mediate small molecule passage. We expressed vertebrate calcium-buffer proteins in groups of cells in the network to reduce intracellular calcium levels, thereby disrupting intercellular communication. We find that calcium in non-AWC cells of the network promotes the AWC(ON) fate, in contrast to the autonomous role of calcium in AWCs to promote the AWC(OFF) fate. In addition, calcium in specific non-AWCs promotes AWC(ON) side biases through NSY-5 gap junctions. Our results suggest a novel model in which calcium has dual roles within the NSY-5 network: autonomously promoting AWC(OFF) and non-autonomously promoting AWC(ON).

SUBMITTER: Schumacher JA 

PROVIDER: S-EPMC3478688 | biostudies-literature | 2012 Nov

REPOSITORIES: biostudies-literature

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Intercellular calcium signaling in a gap junction-coupled cell network establishes asymmetric neuronal fates in C. elegans.

Schumacher Jennifer A JA   Hsieh Yi-Wen YW   Chen Shiuhwei S   Pirri Jennifer K JK   Alkema Mark J MJ   Li Wen-Hong WH   Chang Chieh C   Chuang Chiou-Fen CF  

Development (Cambridge, England) 20121101 22


The C. elegans left and right AWC olfactory neurons specify asymmetric subtypes, one default AWC(OFF) and one induced AWC(ON), through a stochastic, coordinated cell signaling event. Intercellular communication between AWCs and non-AWC neurons via a NSY-5 gap junction network coordinates AWC asymmetry. However, the nature of intercellular signaling across the network and how individual non-AWC cells in the network influence AWC asymmetry is not known. Here, we demonstrate that intercellular calc  ...[more]

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