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LECTURES

(Alphabetical Order)

  • Speaker
    Haruhiko Bito
  • Position
    Department of Neurochemistry, The University of Tokyo Graduate School of Medicine
  • Title
    Nonlinear Decoding and Asymmetric Representation of Neuronal Input Information by CaMKII-alpha and Calcineurin
  • Abstract

    Neurons receive information in the form of temporal patterns of neuronal inputs and decode them through a complex and hierarchical network of biochemical signal transduction systems. Each molecular component in such a network processes upstream inputs and regulates downstream effectors. These elementary steps have been proposed to constitute the simplest forms of computation, information processing, and even cellular decision making such as induction of synaptic plasticity that has been considered as cellular correlates of learning behavior. However, how information encoded in firing rates can be converted into biochemical activation patterns of distinct postsynaptic enzymes remains unknown. To address this issue, we developed a dual FRET imaging platform and recorded CaMKIIalpha and calcineurin activities in individual spines of hippocampal neurons, during high- or low-frequency glutamate uncaging. High-frequency stimuli (20 Hz) that induced spine growth activated both CaMKII and calcineurin, with comparable population kinetics. In contrast, low-frequency stimuli (5 Hz) strongly stimulated calcineurin but not CaMKII, with little spine morphological change. Higher temporal resolution imaging in the neuronal soma revealed that CaMKII activation was summed supralinearly and required both higher frequency and input number, thus acting as a dual high-pass filter. In contrast, calcineurin activity summated sublinearly with increasing input number and showed little frequency-dependence, thus functioning as an input number counter. Taken together, CaMKII and calcineurin are fine-tuned to unique bandwidths and process input variables in an asymmetric, rather than opposing, manner.

  • References
  • Speaker
    Shawn Xu
  • Position
    Life Sciences Institute, University of Michigan
  • Title
    TBA
  • Abstract

    TBA

  • References
    1. TBA
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