Functional organization of the suprachiasmatic nucleus of Xenopus laevis in relation to background adaptation

The process of background adaptation in the toad Xenopus laevis is controlled by neurons in the suprachiasmatic nucleus (SC) that inhibit the release of α‐melanophore‐stimulating hormone from the neuroendocrine melanotrope cells in the pituitary gland. We have identified the structural and functional organization of different neuropeptide Y (NPY)‐containing cell groups in the Xenopus SC in relation to background adaptation. A ventrolateral, a dorsomedial, and a caudal group were distinguished, differing in location as well as in number, size, and shape of their cells. They also show different degrees of NPY immunoreactivity in response to different background adaptation conditions. In situ hybridization using a Xenopus mRNA probe for the exocytosis protein DOC2 revealed that melanotrope cells of black‐adapted animals have a much higher expression of DOC2‐mRNA than white‐adapted ones. This establishes that the degree of DOC2‐mRNA expression is a good parameter to measure cellular secretory activity in Xenopus. We show that in the ventrolateral SC group, more NPY‐positive neurons express DOC2‐mRNA in white‐ than in black‐adapted animals. In contrast, NPY‐positive neurons in the dorsomedial group have a high secretory activity under the black‐adaptation condition. We propose that in black‐adapted animals, NPY‐positive neurons in the ventrolateral group, known to inhibit the melanotrope cells in white‐adapted animals synaptically, are inhibited by NPY‐containing interneurons in the dorsmedial group. NPY‐positive neurons in the caudal group have similar secretory dynamics as the dorsomedial NPY neurons, indicating that they also play a role in background adaptation, distinct from that exerted by the ventrolateral and dorsomedial group. J. Comp. Neurol. 432:346–355, 2001. © 2001 Wiley‐Liss, Inc.