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Genetic evidence that relative synaptic efficacy biases the outcome of synaptic competition

Author

Listed:
  • Mario Buffelli

    (Washington University School of Medicine
    Università degli Studi di Verona)

  • Robert W. Burgess

    (Washington University School of Medicine
    Jackson Laboratories)

  • Guoping Feng

    (Washington University School of Medicine
    Duke University Medical School)

  • Corrinne G. Lobe

    (Sunnybrook and Women's College Health Science Centre)

  • Jeff W. Lichtman

    (Washington University School of Medicine)

  • Joshua R. Sanes

    (Washington University School of Medicine)

Abstract

Synaptic activity drives synaptic rearrangement in the vertebrate nervous system; indeed, this appears to be a main way in which experience shapes neural connectivity1,2. One rearrangement that occurs in many parts of the nervous system during early postnatal life is a competitive process called ‘synapse elimination’3,4. At the neuromuscular junction, where synapse elimination has been analysed in detail, muscle fibres are initially innervated by multiple axons, then all but one are withdrawn and the ‘winner’ enlarges4,5,6. In support of the idea that synapse elimination is activity dependent, it is slowed or speeded when total neuromuscular activity is decreased or increased, respectively4,7,8,9,10,11,12,13. However, most hypotheses about synaptic rearrangement postulate that change depends less on total activity than on the relative activity of the competitors1,2,3,4,13,14. Intuitively, it seems that the input best able to excite its postsynaptic target would be most likely to win the competition, but some theories and results make other predictions14,15,16,17,18. Here we use a genetic method to selectively inhibit neurotransmission from one of two inputs to a single target cell. We show that more powerful inputs are strongly favoured competitors during synapse elimination.

Suggested Citation

  • Mario Buffelli & Robert W. Burgess & Guoping Feng & Corrinne G. Lobe & Jeff W. Lichtman & Joshua R. Sanes, 2003. "Genetic evidence that relative synaptic efficacy biases the outcome of synaptic competition," Nature, Nature, vol. 424(6947), pages 430-434, July.
    • Handle: RePEc:nat:nature:v:424:y:2003:i:6947:d:10.1038_nature01844
    DOI: 10.1038/nature01844
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    Cited by:

    1. Irit Nowik & Idan Segev & Shmuel Zamir, 2006. "Games in the Nervous System: The Game Motoneurons Play," Levine's Bibliography 321307000000000718, UCLA Department of Economics.

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