Previous studies have shown that different gonadotropin-releasing hormone (GnRH) molecular forms are present in different groups of bony fish. In the present study, we have investigated the possible influence of the antarctic environmental contributions upon the distribution and biochemical patterns of GnRH-related molecules. The immunocytochemical distribution of GnRH-like peptides has been studied in the brain of the antarctic fish, Notothenia coriiceps, using antisera raised against three variants of GnRH: mammalian (m-GnRH), chicken (cII-GnRH) and salmon (s-GnRH). cII-GnRH immunoreactivity appears confined to cell bodies located in the lateral hypothalamus, the ventral thalamus and the midbrain rostral tegmentum; immunoreactive nerve fibers densely innervated the hypothalamic periventricular region. By contrast, m-GnRH-like immunoreactive neurons are present exclusively in the tor trs semicircularis of the mesencephalon and in the outer plexiphorm layers of the optic tectum. These findings suggest that cII-GnRH-like peptides appear to function as hypophysiotropic factors, as demonstrated in other species of bony fish, whereas m-GnRH-like peptides could be involved in modulatory pathways of vestibular and visual functions of N. coriiceps. Incubation with s-GnRH antiserum failed to prove the occurrence of immunoreactive elements; consequently, at least two molecular forms related to cII-GnRH and m-GnRH seem to act as hypophysiotropic and neuromodulatory factors in the brain of Notothenia coriiceps. Moreover, m-GnRH immunoreactivity in ependymal tanycytes suggests the involvement of such specialized glial cells in neuroendocrine function by linking the cerebrospinal fluid and the median eminence, as demonstrated in mammals.
Previous studies have shown that different gonadotropin-releasing hormone (GnRH) molecular forms are present in different groups of bony fish. In the present study, we have investigated the possible influence of the antarctic environmental contributions upon the distribution and biochemical patterns of GnRH-related molecules. The immunocytochemical distribution of GnRH-like peptides has been studied in the brain of the antarctic fish, Notothenia coriiceps, using antisera raised against three variants of GnRH: mammalian (m-GnRH), chicken (cII-GnRH) and salmon (s-GnRH). cII-GnRH immunoreactivity appears confined to cell bodies located in the lateral hypothalamus, the ventral thalamus and the midbrain rostral tegmentum; immunoreactive nerve fibers densely innervated the hypothalamic periventricular region. By contrast, m-GnRH-like immunoreactive neurons are present exclusively in the torus semicircularis of the mesencephalon and in the outer plexiphorm layers of the optic tectum. These findings suggest that cII-GnRH-like peptides appear to function as hypophysiotropic factors, as demonstrated in other species of bony fish, whereas m-GnRH-like peptides could be involved in modulatory pathways of vestibular and visual functions of N. coriiceps. Incubation with s-GnRH antiserum failed to prove the occurrence of immunoreactive elements; consequently, at least two molecular forms related to cII-GnRH and m-GnRH seem to act as hypophysiotropic and neuromodulatory factors in the brain of Notothenia coriiceps. Moreover, m-GnRH immunoreactivity in ependymal tanycytes suggests the involvement of such specialized glial cells in neuroendocrine function by linking the cerebrospinal fluid and the median eminence, as demonstrated in mammals.
Distribution of immunoreactive multiple forms of gonadotropin-releasing hormone in the brain of the antartic fish, Notothenia coriiceps
PESTARINO, MARIO;CANDIANI, SIMONA;VALLARINO, MAURO
1998-01-01
Abstract
Previous studies have shown that different gonadotropin-releasing hormone (GnRH) molecular forms are present in different groups of bony fish. In the present study, we have investigated the possible influence of the antarctic environmental contributions upon the distribution and biochemical patterns of GnRH-related molecules. The immunocytochemical distribution of GnRH-like peptides has been studied in the brain of the antarctic fish, Notothenia coriiceps, using antisera raised against three variants of GnRH: mammalian (m-GnRH), chicken (cII-GnRH) and salmon (s-GnRH). cII-GnRH immunoreactivity appears confined to cell bodies located in the lateral hypothalamus, the ventral thalamus and the midbrain rostral tegmentum; immunoreactive nerve fibers densely innervated the hypothalamic periventricular region. By contrast, m-GnRH-like immunoreactive neurons are present exclusively in the torus semicircularis of the mesencephalon and in the outer plexiphorm layers of the optic tectum. These findings suggest that cII-GnRH-like peptides appear to function as hypophysiotropic factors, as demonstrated in other species of bony fish, whereas m-GnRH-like peptides could be involved in modulatory pathways of vestibular and visual functions of N. coriiceps. Incubation with s-GnRH antiserum failed to prove the occurrence of immunoreactive elements; consequently, at least two molecular forms related to cII-GnRH and m-GnRH seem to act as hypophysiotropic and neuromodulatory factors in the brain of Notothenia coriiceps. Moreover, m-GnRH immunoreactivity in ependymal tanycytes suggests the involvement of such specialized glial cells in neuroendocrine function by linking the cerebrospinal fluid and the median eminence, as demonstrated in mammals.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.