Biography

It is believed that neuronal activities in the individual neuronal network module, such as barrel and column, build up the fundamental function of the network module and the mutual interaction among the network modules are reflected in the brain function. To understand the brain mechanism at the neuronal network level, it is important to clarify how individual neuronal activities are processed in the network module.

Despite much study, the functional basis of the modules has remained unclear because it is difficult to detect individual neuronal activities in the context of their neuronal networks. Applying thein vivo电穿孔tw神经元标记方法o-photon functional imaging, I am currently investigating the questions using the olfactory glomerular module as a model system. This will in turn, allow us to understand not only the basic function the glomerular module plays in odor coding and smell perception but also the general functional rule of the neuronal network modules.

Research Information

About The Movie

Neurons associated with a single glomerulus were visualized using our developedin vivoelectroporation labeling method. These images were captured by two-photon microscopy and aligned from the surface to the deep part of the olfactory bulb. These methods allow for visualizing and detecting not only the multiple neuronal morphologies but also their neuronal activities. Now we are attempting to detect the neuronal ensemble activities within an intra- and inter-neuronal network unit to understand how individual neurons process the information in the context of the neuronal circuit using olfactory system as a model.

Nagayama Flash Video (Flash disabled, Dec 2020)

Publications

Publication Information

  • Kikuta S., Fletcher M.L., Homma R., Yamasoba T. &Nagayama S.Odorant response properties of individual neurons in an olfactory glomerular module.Neuron(2013) 77:1122-1135
  • Igarashi K.M., Ieki N., An M., Yamaguchi Y.,Nagayama S., Kobayakawa K., Kobayakawa R., Tanifuji M., Sakano H., Chen W.R. & Mori K. Parallel Mitral and Tufted Cell Pathways Route Distinct Odor Information to Different Targets in the Olfactory Cortex.J. Neurosci.(2012) 32(23): 7970-7985
  • Nagayama S.,弗莱彻·罗宾逊,文汇X, X。,z Shaoqun &陈, W.R.In VivoLocal Dye Electroporation for Ca2+ Imaging and Neuronal-Circuit Tracing.“Imaging In Neuroscience”: A Laboratory Manualedited by Yuste R., Konnerth A., Helmchen F. Cold Spring Harbor laboratory Press, (2011) Chapter 50, pp501-510.
  • Nagayama S., Enerva A., Fletcher M.L., Masurkar A.V., Igarashi K.M., Mori K. & Chen W.R. Differential axon projections of mitral and tufted cells in the mouse main olfactory system.Front. Neural Circuits(2010) 4: 120
  • Fletcher, M.L., Masurkar, A.V., Xing, J.-L., Xiong, W.,Nagayama, S.,Mutoh, H., Knöpfel, T., & Chen, W.R. Optical imaging of postsynaptic odor representation in the glomerular layer of the mouse olfactory bulb.J. Neurophysiol.(2009) 102(2): 817-30.
  • Nagayama S., Shaoqun Z., Xiong W., Fletcher M.L., Masurkar A.V., Davis D.J., Pieribone V.A. & Chen W.R.In vivosimultaneous tracing and Ca2+ imaging of local neuronal circuits.Neuron(2007) 53: 789-803.
  • Takahashi Y.K.,Nagayama S.& Mori K. Detection and masking of spoiled food smells by odor maps in the olfactory bulb.J. Neurosci.(2004) 24(40): 8690–8694.
  • Nagayama S., Takahashi Y.K., Yoshihara Y. & Mori K. Mitral and tufted cells differ in the decoding manner of odor maps in the rat olfactory bulb.J. Neurophysiol.(2004) 91: 2532-2540.
  • Inaki K., Takahashi Y.K.,Nagayama S.& Mori K. Molecular–feature domains with posterodorsal-anteroventral polarity in the symmetrical sensory maps of the mouse olfactory bulb: mapping of odorant-induced Zif268 expression.Eur. J. Neurosci.(2002) 15: 1563-1574.