Analysis of aplysia neuronal network by fluorescent voltage imaging

Kazuto Aoki, Naoko Matsumoto, Yasuo Yoshimi

研究成果: Paper

抜粋

Aplysia has been used as an ideal experimental model for studying neuronal networks involved in learning and memory because large and identifiable neurons present in its central nervous system (CNS). Fluorescent voltage imaging with a voltage-sensitive dye (VSD) is a potential tool for multiple-site monitoring of neuronal activity. Fluorescent voltage imaging of Aplysia CNS would contribute greatly toward basic research on neuronal network; however, this has not yet been implemented because of the difficulty in staining of Aplysia neurons with a VSD. In the present study, we developed a variant of voltage imaging using Aplysia ganglion neurons and di-4-ANEPPS, which is a commonly used fluorescent VSD. An Aplysia abdominal ganglion was digested using protease to facilitate the removal of fibrous sheath with microscissors. This treated ganglion was soaked in di-4-ANEPPS solution containing Aplysia hemolymph. The ganglionic neurons were stained well with the VSD, which emitted a detectable fluorescence. The change in fluorescent intensity agreed with the spontaneous firing in membrane potentials of the neurons. Results showed that fluorescent voltage imaging of Aplysia CNS neurons was possible after appropriate pretreatment of the ganglion. However, the sensitivity of the fluorescence to the membrane potential vanished in approximately 2 h. Despite the time limit, the voltage imaging method offers a great breakthrough for basic studies on neuronal network in learning and memory of animals.

元の言語English
出版物ステータスPublished - 2009 12 1
イベント2009 AIChE Annual Meeting, 09AIChE - Nashville, TN, United States
継続期間: 2009 11 82009 11 13

Conference

Conference2009 AIChE Annual Meeting, 09AIChE
United States
Nashville, TN
期間09/11/809/11/13

ASJC Scopus subject areas

  • Chemical Engineering(all)
  • Chemistry(all)

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  • これを引用

    Aoki, K., Matsumoto, N., & Yoshimi, Y. (2009). Analysis of aplysia neuronal network by fluorescent voltage imaging. 論文発表場所 2009 AIChE Annual Meeting, 09AIChE, Nashville, TN, United States.