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Protein & Cell ; (12): 804-819, 2016.
Article de Anglais | WPRIM | ID: wpr-757370

RÉSUMÉ

Axonal transport of mitochondria is critical for neuronal survival and function. Automatically quantifying and analyzing mitochondrial movement in a large quantity remain challenging. Here, we report an efficient method for imaging and quantifying axonal mitochondrial transport using microfluidic-chamber-cultured neurons together with a newly developed analysis package named "MitoQuant". This tool-kit consists of an automated program for tracking mitochondrial movement inside live neuronal axons and a transient-velocity analysis program for analyzing dynamic movement patterns of mitochondria. Using this method, we examined axonal mitochondrial movement both in cultured mammalian neurons and in motor neuron axons of Drosophila in vivo. In 3 different paradigms (temperature changes, drug treatment and genetic manipulation) that affect mitochondria, we have shown that this new method is highly efficient and sensitive for detecting changes in mitochondrial movement. The method significantly enhanced our ability to quantitatively analyze axonal mitochondrial movement and allowed us to detect dynamic changes in axonal mitochondrial transport that were not detected by traditional kymographic analyses.


Sujet(s)
Animaux , Rats , Transport axonal , Physiologie , Cortex cérébral , Biologie cellulaire , Métabolisme , Drosophila melanogaster , Biologie cellulaire , Métabolisme , Embryon de mammifère , Expression des gènes , Laboratoires sur puces , Microscopie confocale , Mitochondries , Métabolisme , Motoneurones , Métabolisme , Mouvement , Mutation , Culture de cellules primaires , Protéine FUS de liaison à l'ARN , Génétique , Métabolisme , Rat Sprague-Dawley , Logiciel
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