Demonstration of coexisting catecholamine (dopamine), amino acid (GABA), and peptide (NPY) involved in inhibition of melanotrope cell activity in Xenopus laevis: a quantitative ultrastructural, freeze-substitution immunocytochemical study.

This quantitative ultrastructural immunocytochemical study demonstrates the coexistence of a catecholamine [dopamine (DA)], an amino acid (GABA), and a neuropeptide [neuropeptide Y (NPY)] in axon varicosities innervating the pars intermedia of Xenopus laevis. The varicosities are assumed to control the pars intermedia melanotrope cells, which regulate skin color during the physiological process of background adaptation. Varicosity profiles appear to abut melanotrope cells and folliculostellate cells, star-shaped cells that intimately contact the melanotropes. All varicosity profiles contain two morphological types of vesicle. Monolabeling studies on routinely fixed and freeze-substituted tissues showed that the small, electron-lucent vesicles store GABA, whereas DA and NPY occur in larger, electron-dense ones. Double and triple labeling experiments, in which the degree of immunoreactivity was quantified per varicosity profile and per vesicle, led to the conclusion that (1) DA, GABA, and NPY coexist within almost all varicosity profiles and (2) DA and NPY are costored within electron-dense vesicles. Varicosity profiles that about melanotrope cells show a much higher ratio between the numbers of electron-lucent and electron-dense vesicles than varicosities contacting folliculostellate cells (15.8 and 3.3, respectively). This differential distribution is in line with the previous demonstration that, in contrast to GABA, NPY does not act directly on the melanotrope cells but indirectly, by controlling the activity of the folliculostellate cells.