Perinatal opiate treatment delays growth of cortical dendrites

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Abstract

Basilar dendritic arborizations of layer II–III pyramidal neurons in primary somatosensory cortex of 5-day-old male rats were reconstructed following perinatal morphine, morphine/naltrexone, or saline vehicle administration. Morphine treatment was observed to reduce total dendritic length. This effect was limited to higher order dendritic branches, with terminal dendrites manifesting the greatest reduction of length. The action of morphine was presumably mediated by opiate receptors, since concurrent naltrexone administration completely reversed morphine effects on dendritic length and branching. These results suggest that opiates act during late ontogenesis to affect dendritic growth in cerebral cortex.

References (22)

  • A.A. Smith et al.

    Inhibition of growth in young mice treated with D-1-methadone

    Eur. J. Pharmacol.

    (1977)
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