Publication

The matricellular protein Drosophila Cellular Communication Network Factor is required for synaptic transmission and female fertility

Résumé

Within the extracellular matrix, matricellular proteins are dynamically expressed nonstructural proteins that interact with cell surface receptors, growth factors, and proteases, as well as with structural matrix proteins. The cellular communication network factors family of matricellular proteins serve regulatory roles to regulate cell function and are defined by their conserved multimodular organization. Here, we characterize the expression and neuronal requirement for the Drosophila cellular communication network factor family member. Drosophila cellular communication network factor is expressed in the nervous system throughout development including in subsets of monoamine-expressing neurons. Drosophila cellular communication network factor-expressing abdominal ganglion neurons innervate the ovaries and uterus and the loss of Drosophila cellular communication network factor results in reduced female fertility. In addition, Drosophila cellular communication network factor accumulates at the synaptic cleft and is required for neurotransmission at the larval neuromuscular junction. Analyzing the function of the single Drosophila cellular communication network factor family member will enhance our potential to understand how the microenvironment impacts neurotransmitter release in distinct cellular contexts and in response to activity.

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Concepts associés (34)
Vésicule synaptique
Les vésicules synaptiques sont de petits compartiments des terminaux présynaptiques des neurones, stockant des neurotransmetteurs qui sont susceptibles d'être libérés dans l'espace intersynaptique à la suite de l'arrivée d'un potentiel d'action dépolarisant et l'augmentation des niveaux calciques intracellulaires. Le nombre ou la taille du pool de vésicules synaptiques est variable selon le type de neurones considérés (quelques dizaines pour les petites synapses telles que celles trouvées dans l'hippocampe).
Synapse
thumb|400px|Synapse entre deux neurones. La synapse (du grec , « contact, point de jonction », dérivé de , « joindre, connecter ») est une zone de contact fonctionnelle qui s'établit entre deux neurones, ou entre un neurone et une autre cellule (cellules musculaires, récepteurs sensoriels...). Elle assure la conversion d'un potentiel d'action déclenché dans le neurone présynaptique en un signal dans la cellule postsynaptique. On estime, pour certains types cellulaires (par exemple cellule pyramidale, cellule de Purkinje.
Chemical synapse
Chemical synapses are biological junctions through which neurons' signals can be sent to each other and to non-neuronal cells such as those in muscles or glands. Chemical synapses allow neurons to form circuits within the central nervous system. They are crucial to the biological computations that underlie perception and thought. They allow the nervous system to connect to and control other systems of the body. At a chemical synapse, one neuron releases neurotransmitter molecules into a small space (the synaptic cleft) that is adjacent to another neuron.
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