Komol Akhmedov scite author profile

SUMMARY Mechanisms that regulate the bi-directional transport of mitochondria in neurons for maintaining functional synaptic connections are poorly understood. Here, we show that in the pre-synaptic sensory neurons of the Aplysia gill withdrawal reflex, the formation of functional synapses leads to persistent enhancement in the flux of bi-directional mitochondrial transport. In the absence of a functional synapse, activation of cAMP signaling is sufficient to enhance bi-directional transport in sensory neurons. Furthermore, persistent enhancement in transport does not depend on NMDA and AMPA receptor signaling nor signaling from the post-synaptic neuronal cell body, but it is dependent on transcription and protein synthesis in the pre-synaptic neuron. We identified ~4,000 differentially enriched transcripts in pre-synaptic neurons, suggesting a long-term change in the transcriptional program produced by synapse formation. These results provide insights into the regulation of bi-directional mitochondrial transport for synapse maintenance.

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<em>Aplysia</em> Ganglia Preparation for Electrophysiological and Molecular Analyses of Single Neurons

Akhmedov

Kadakkuzha

Puthanveettil

2014

JoVE

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A major challenge in neurobiology is to understand the molecular underpinnings of neural circuitry that govern a specific behavior. Once the specific molecular mechanisms are identified, new therapeutic strategies can be developed to treat abnormalities in specific behaviors caused by degenerative diseases or aging of the nervous system. The marine snail Aplysia californica is well suited for the investigations of cellular and molecular basis of behavior because neural circuitry underlying a specific behavior could be easily determined and the individual components of the circuitry could be easily manipulated. These advantages of Aplysia have led to several fundamental discoveries of neurobiology of learning and memory. Here we describe a preparation of the Aplysia nervous system for the electrophysiological and molecular analyses of individual neurons. Briefly, ganglion dissected from the nervous system is exposed to protease to remove the ganglion sheath such that neurons are exposed but retain neuronal activity as in the intact animal. This preparation is used to carry out electrophysiological measurements of single or multiple neurons. Importantly, following the recording using a simple methodology, the neurons could be isolated directly from the ganglia for gene expression analysis. These protocols were used to carry out simultaneous electrophysiological recordings from L7 and R15 neurons, study their response to acetylcholine and quantitating expression of CREB1 gene in isolated single L7, L11, R15, and R2 neurons of Aplysia.

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Isolation and characterization of neurotoxins from the venom of the spiderAnemesia sp.

Kalikulov¹,

Akhmedov²,

Nasirov³

et al. 1996

Chem Nat Compd

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Isolation of a ca-channel blocker from the venom of the spiderAgelena labirintica

Nasirov¹,

Akhmedov²,

Kalikulov³

et al. 1996

Chem Nat Compd

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<em>Aplysia</em> Ganglia Preparation for Electrophysiological and Molecular Analyses of Single Neurons

Akhmedov

Kadakkuzha

Puthanveettil

2014

JoVE

View full text Add to dashboard Cite

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Komol Akhmedov

Synapse Formation Activates a Transcriptional Program for Persistent Enhancement in the Bi-directional Transport of Mitochondria

<em>Aplysia</em> Ganglia Preparation for Electrophysiological and Molecular Analyses of Single Neurons

Isolation and characterization of neurotoxins from the venom of the spiderAnemesia sp.

Isolation of a ca-channel blocker from the venom of the spiderAgelena labirintica

<em>Aplysia</em> Ganglia Preparation for Electrophysiological and Molecular Analyses of Single Neurons

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