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Odorant receptors instruct functional circuitry in the mouse olfactory bulb

Author

Listed:
  • Leonardo Belluscio

    (Duke University Medical Center
    The National Institute of Neurological Disorders and Stroke, National Institutes of Health)

  • Claudia Lodovichi

    (Duke University Medical Center)

  • Paul Feinstein

    (The Rockefeller University)

  • Peter Mombaerts

    (The Rockefeller University)

  • Lawrence C. Katz

    (Duke University Medical Center)

Abstract

The mammalian olfactory system detects and discriminates thousands of odorants using many different receptors expressed by sensory neurons in the nasal epithelium1. Axonal projections from these neurons to the main olfactory bulbs form reproducible patterns of glomeruli in two widely separated regions of each bulb, creating two mirror-symmetric maps of odorant receptor projections2. To investigate whether odorant receptors organize neural circuitry in the olfactory bulb, we have examined a genetically modified mouse line, rI7 → M71, in which a functionally characterized receptor, rI73,4, has been substituted into the M71 receptor locus5. Here we show that despite their ectopic location the resulting glomeruli are responsive to known ligands of the rI7 receptor, attract postsynaptic innervation by mitral/tufted cell dendrites, and endow these cells with responses that are characteristic of the rI7 receptor. External tufted cells receiving input from rI7 → M71 glomeruli form precise intrabulbar projections that link medial and lateral rI7 → M71 glomeruli anatomically, thus providing a substrate for coordinating isofunctional glomeruli. We conclude that odorant receptor identity in epithelial neurons determines not only glomerular convergence and function, but also functional circuitry in the olfactory bulb.

Suggested Citation

  • Leonardo Belluscio & Claudia Lodovichi & Paul Feinstein & Peter Mombaerts & Lawrence C. Katz, 2002. "Odorant receptors instruct functional circuitry in the mouse olfactory bulb," Nature, Nature, vol. 419(6904), pages 296-300, September.
  • Handle: RePEc:nat:nature:v:419:y:2002:i:6904:d:10.1038_nature01001
    DOI: 10.1038/nature01001
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    Cited by:

    1. Shachar Sherman & Irene Arnold-Ammer & Martin W. Schneider & Koichi Kawakami & Herwig Baier, 2023. "Retina-derived signals control pace of neurogenesis in visual brain areas but not circuit assembly," Nature Communications, Nature, vol. 14(1), pages 1-17, December.

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