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2. Action Potential Initiation

Author

Zecevic, Dejan, Popovic, Marko, Migliore, Michele, Section editor, Linster, Christiane, Section editor, Cavarretta, Francesco, Section editor, Jaeger, Dieter, editor, and Jung, Ranu, editor

Published
2022
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24. Multiple spike-initiation zones in single neurons revealed by voltage-sensitive dyes

Author

Zecevic, Dejan

Subjects
Neurons -- Research, Neural stimulation -- Observations, Optical measurements -- Usage, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Optical recordings from different neurons show that multiple spike trigger zones exist in separate axonal branches of a neuron and this indicates that neurons may be functionally subdivided. The membrane excitability is different in different regions of the same neuron. Spike initiation, and pattern and nature of signal processing is complex and difficult to predict. A study records membrane potential changes using voltage-sensitive dyes to understand neuronal processes.

Published
1996

28. Contributors

Author

Alexander, Garrett E., primary, Altman, Jennifer S., additional, Brody, David, additional, Cohen, Larry B., additional, Crutcher, Michael D., additional, Falk, Chun Xiao, additional, Ferguson, Graham P., additional, Goldberg, Gary, additional, Grobstein, Paul, additional, Hennig, R. Matthias, additional, Hopp, Hans-Peter, additional, Jansen, Rene F., additional, Kien, Jenny, additional, Kristan, William B., additional, Kyriakides, Michael A., additional, Lockery, Shawn R., additional, London, Jill, additional, McCrohan, Catherine R., additional, Marder, Eve, additional, Moroz, Leonid L., additional, Mos, Willem, additional, Roberts, Barry L., additional, Roschin, Vadim, additional, Soffe, Stephen R., additional, Syed, Naweed I., additional, Maat, Andries Ter, additional, Weimann, James M., additional, Winlow, William, additional, Wittenburg, George, additional, Wu, Jian-Young, additional, and Zecevic, Dejan, additional

Published
1992
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32. Imaging Membrane Potential With Voltage-Sensitive Dyes

Author

ZOCHOWSKI, MICHAL, WACHOWIAK, MATT, FALK, CHUN X., COHEN, LAWRENCE B., LAM, YING-WAN, ANTIC, SRDJAN, and ZECEVIC, DEJAN

Subjects
Optical measurements -- Analysis, Cell research -- Analysis, Imaging systems -- Evaluation, Cell membranes -- Analysis, Biological sciences, Imaging technology, Evaluation, Analysis
Abstract

MICHAL ZOCHOWSKI [1,*] MATT WACHOWIAK [1] CHUN X. FALK [2] LAWRENCE B. COHEN [1,2] YING-WAN LAM [1] SRDJAN ANTIC [1] DEJAN ZECEVIC [1] Abstract. Membrane potential can be measured optically [...]

Published
2000

34. Combining Ca2+ and membrane potential imaging in single neurons

Author

Canepari, Marco, Vogt, Kaspar, De Waard, Michel, Zecevic, Dejan, INSERM U836, équipe 3, Canaux calciques, fonctions et pathologies, Grenoble Institut des Neurosciences (GIN), Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM), Department of Pharmacology and Neurobiology, University of Basel (Unibas), Department of Cellular and Molecular Physiology, and Yale University School of Medicine

Subjects
[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]
Abstract

International audience; The ability to monitor Ca(2+) signals and membrane potential simultaneously at multiple locations on the same neuron facilitates further progress in our understanding of neuronal function. In particular, this method allows correlation of electrical and chemical signals from multiple sites, including those inaccessible to microelectrodes. This protocol describes a procedure for loading cells with two indicators, a Ca(2+)-sensitive Fura dye and voltage-sensitive JPW1114, together with the equipment required for detecting and imaging the two signals. Potential problems are discussed as well as the capabilities and limitations of the technique.

Published
2013
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35. Combining calcium imaging with other optical techniques

Author

Canepari, Marco, Zecevic, Dejan, Vogt, Kaspar, Ogden, David, de Waard, Michel, Canepari, Marco, INSERM U836, équipe 3, Canaux calciques, fonctions et pathologies, Grenoble Institut des Neurosciences (GIN), Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM), Department of Cellular and Molecular Physiology, Yale School of Medicine [New Haven, Connecticut] (YSM), Division of Pharmacology and Neurobiology, University of Basel (Unibas), Laboratoire de physiologie cérébrale (LPC - UMR 8118), and Université Paris Diderot - Paris 7 (UPD7)-Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects
[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]
Abstract

International audience; Ca(2+) imaging is a commonly used approach for measuring Ca(2+) signals at high spatial resolution. The method is often combined with electrode recordings to correlate electrical and chemical signals or to investigate Ca(2+) signals following an electrical stimulation. To obtain information on electrical activity at the same spatial resolution, Ca(2+) imaging must be combined with membrane potential imaging. Similarly, stimulation of subcellular compartments requires photostimulation. Thus, combining Ca(2+) imaging with an additional optical technique facilitates the study of a number of physiological questions. The aim of this article is to introduce some basic principles regarding the combination of Ca(2+) imaging with other optical techniques. We discuss the design of the optics, the design of experimental protocols, the optical characteristics of Ca(2+) indicators used in combination with an optical probe, and the affinity of the Ca(2+) indicator in relation to the type of measurement. This information will enable the reader to devise an optimal strategy for combined optical experiments.

Published
2013
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36. Membrane Potential Imaging in the Nervous System and Heart / edited by Marco Canepari, Dejan Zecevic, Olivier Bernus.

Author

Canepari, Marco. editor., Zecevic, Dejan. editor., Bernus, Olivier. editor., SpringerLink (Online service), Canepari, Marco. editor., Zecevic, Dejan. editor., Bernus, Olivier. editor., and SpringerLink (Online service)

Abstract

This volume discusses membrane potential imaging in the nervous system and in the heart and modern optical recording technology. Additionally, it covers organic and genetically-encoded voltage-sensitive dyes; membrane potential imaging from individual neurons, brain slices, and brains in vivo; optical imaging of cardiac tissue and arrhythmias; bio-photonics modelling . This is an expanded and fully-updated second edition, reflecting all the recent advances in this field. Twenty chapters, all authored by leading names in the field, are cohesively structured into four sections. The opening section focuses on the history and principles of membrane potential imaging and lends context to the following sections, which examine applications in single neurons, networks, large neuronal populations, and the heart. Topics discussed include population membrane potential signals in development of the vertebrate nervous system, use of membrane potential imaging from dendrites and axons, and depth-resolved optical imaging of cardiac activation and repolarization. The final section discusses the potential – and limitations – for new developments in the field, including new technology such as non-linear optics, advanced microscope designs, and genetically encoded voltage sensors. Membrane Potential Imaging in the Nervous System and Heart is ideal for neurologists, electrophysiologists, cardiologists, and those who are interested in the applications and the future of membrane potential imaging. .

Published
2015

40. Contributors

Author

AMIRAND-PERCHARD, CLAUDINE, primary, ARNDT-JOVIN, DONNA, additional, BRIGHT, GARY R., additional, CALLENDER, ROBERT, additional, CANNELL, M.B., additional, CASSIMERIS, L.U., additional, CATTARELLI, MARTINE, additional, CHANCE, BRITTON, additional, CHUSED, THOMAS M., additional, COHEN, LAWRENCE B., additional, DEBIASIO, ROBBIN, additional, FISHER, GREGORY W., additional, HIRSCHBERG, JOSEPH G., additional, JOVIN, THOMAS M., additional, KASTEN, FREDERICK H., additional, KOHEN, CAHIDE, additional, KOHEN, ELLI, additional, LAKOWICZ, JOSEPH R., additional, LOEW, LESLIE M., additional, LONDON, JILL A., additional, LUBY-PHELPS, KATE, additional, MEDA, P., additional, MURPHY, ROBERT F., additional, NESTORA, JACK, additional, ORBACH, HARRY S., additional, PEDEN, DAVID, additional, PIPELEERS, D., additional, PLOEM, J.S., additional, SALMON, E.D., additional, SALMON, J.M., additional, SANTUS, RENE, additional, SCHACHTSCHABEL, D.O., additional, SELIGER, HOWARD H., additional, STELZER, E.H.K., additional, TAYLOR, D. LANSING, additional, VAN DE WINKEL, M., additional, VAN DYKE, CHRIS, additional, VAN DYKE, KNOX, additional, VIALLET, P., additional, VIGNY, PAUL, additional, VIGO, J., additional, WANG, LEI-LEI, additional, WARE, BENNIE R., additional, WEBER, GERGORIO, additional, WIJNAENDTS-VAN-RESANDT, R.W., additional, WU, JIAN-YOUNG, additional, YE, ZUGUANG, additional, and ZECEVIC, DEJAN, additional

Published
1989
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44. Voltage imaging from dendrites of mitral cells : EPSP attenuation and spike trigger zones

Author

Djurisic, Maja, Antic, Srdjan, Chen, Wei R., Zecevic, Dejan, Djurisic, Maja, Antic, Srdjan, Chen, Wei R., and Zecevic, Dejan

Abstract

Author Posting. © Society for Neuroscience, 2004. This article is posted here by permission of Society for Neuroscience for personal use, not for redistribution. The definitive version was published in Journal of Neuroscience 24 (2004): 6703-6714, doi:10.1523/JNEUROSCI.0307-04.2004., To obtain a more complete description of individual neurons, it is necessary to complement the electrical patch pipette measurements with technologies that permit a massive parallel recording from many sites on neuronal processes. This can be achieved by using voltage imaging with intracellular dyes. With this approach, we investigated the functional structure of a mitral cell, the principal output neuron in the rat olfactory bulb. The most significant finding concerns the characteristics of EPSPs at the synaptic sites and surprisingly small attenuation along the trunk of the primary dendrite. Also, the experiments were performed to determine the number, location, and stability of spike trigger zones, the excitability of terminal dendritic branches, and the pattern and nature of spike initiation and propagation in the primary and secondary dendrites. The results show that optical data can be used to deduce the amplitude and shape of the EPSPs evoked by olfactory nerve stimulation at the site of origin (glomerular tuft) and to determine its attenuation along the entire length of the primary dendrite. This attenuation corresponds to an unusually large mean apparent "length constant" of the primary dendrite. Furthermore, the images of spike trigger zones showed that an action potential can be initiated in three different compartments of the mitral cell: the soma-axon region, the primary dendrite trunk, and the terminal dendritic tuft, which appears to be fully excitable. Finally, secondary dendrites clearly support the active propagation of action potentials, This work was supported by National Institutes of Health Grants NS4273 and DC03918. W.R.C. was also supported by the Whitehall Foundation.

Published
2009

45. Functional structure of the mitral cell dendritic tuft in the rat olfactory bulb

Author

Djurisic, Maja, Popovic, Marko, Carnevale, Nicholas, Zecevic, Dejan, Djurisic, Maja, Popovic, Marko, Carnevale, Nicholas, and Zecevic, Dejan

Abstract

Author Posting. © Society for Neuroscience, 2008. This article is posted here by permission of Society for Neuroscience for personal use, not for redistribution. The definitive version was published in Journal of Neuroscience 28 (2008): 4057-4068, doi:10.1523/JNEUROSCI.5296-07.2008., The input–output transform performed by mitral cells, the principal projection neurons of the olfactory bulb, is one of the key factors in understanding olfaction. We used combined calcium and voltage imaging from the same neuron and computer modeling to investigate signal processing in the mitral cells, focusing on the glomerular dendritic tuft. The main finding was that the dendritic tuft functions as a single electrical compartment for subthreshold signals within the range of amplitudes detectable by voltage-sensitive dye recording. These evoked EPSPs had uniform characteristics throughout the glomerular tuft. The Ca2+ transients associated with spatially uniform subthreshold synaptic potentials were comparable but not equal in amplitude in all regions. The average range of normalized amplitudes of the EPSP-driven Ca2+ signals from different locations on dendritic branches in the glomerular tuft was relatively narrow and appeared to be independent of the dendritic surface-to-volume ratio. The computer simulations constrained by the imaging data indicated that a synchronized activation of ~100 synapses randomly distributed on tuft branches was sufficient to generate spatially homogenous EPSPs. This number of activated synapses is consistent with the data from anatomical studies. Furthermore, voltage attenuation of the EPSP along the primary dendrite at physiological temperature was weak compared with other cell types. In the model, weak attenuation of the EPSP along the primary dendrite could be accounted for by passive electrical properties of the mitral cell., This work was supported by National Institutes of Health Grant NS4273.

Published
2008

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