Neurons expressing relaxin 3/INSL 7 in the nucleus incertus respond to stress.

Relaxin 3/INSL 7 has recently been identified as a new member of the insulin/relaxin superfamily. Although it was reported to be dominantly expressed in the brain, its detailed distribution and function in the central nervous system are still obscure. In the present study we demonstrated that in the rat relaxin 3 was mainly expressed in neurons of the nucleus incertus (NI) of the median dorsal tegmental pons. Other relaxin 3-expressing neurons were scattered in the pontine raphe nucleus, the periaqueductal gray and dorsal area to the substantia nigra in the midbrain reticular formation. Relaxin 3-immunoreactive fibers projected particularly densely in the septum, hippocampus, lateral hypothalamus and intergeniculate leaflet of the thalamus. Ultrastructural examination revealed that relaxin 3 was localized in the dense-cored vesicles in the perikarya and was also observed in the synaptic terminals of axons. As almost all relaxin 3-containing neurons express corticotropin-releasing factor (CRF) type 1 receptor in the NI, we examined the response of relaxin 3 neurons to intracerebroventricular administration of CRF; 65% of relaxin 3 neurons expressed c-Fos 2 h after intracerebroventricular administration of 1 microg CRF. We then confirmed that c-Fos was induced in 60% of relaxin 3 neurons in the NI and the expression of relaxin 3 mRNA increased significantly in the NI after water-restraint stress. Collectively, these results suggest that relaxin 3 produced in the NI is released from nerve endings and is involved in the regulation of the stress response.

Developmental expression of RFamide-related peptides in the rat central nervous system.

RFamide-related peptides (RFRP-1 and RFRP-3) have been recently identified in mammals and considered to play significant functional roles in the rat brain. In this study, we report the developmental expression of RFRP mRNA and its immunoreactive neuronal cells and fibers in the rat brain. The RFRP mRNA was expressed in the brain from embryonic day 15 (E15) according to reverse transcription-polymerase chain reaction analysis. We first detected RFRP mRNA expressing neurons in the caudal portion of the hypothalamus at E16 by in situ hybridization analysis. Immunohistochemical analysis showed that RFRP-3 or RFRP-1 immunoreactive neuronal cell bodies were first detected at E16 or E17, respectively. Double-labeling fluorescent immunohistochemical analysis showed that neurons containing both RFRP-1 immunoreactivity (ir) and RFRP-3-ir were detected from E18. We also detected RFRP-1 immunoreactive nerve fiber processes in the forebrain, hypothalamus, thalamus, midbrain, pons and medulla oblongata at prenatal day and the distribution of RFRP-1 immunoreactive nerve fibers in postnatal day 0 (P0) were almost coincident with that in adult. However, localization of RFRP-3 immunoreactive nerve fibers was limited around the RFRP-3 immunoreactive neuronal cell bodies during prenatal days. The distribution of RFRP-3 immunoreactive nerve fibers was first detected in the above areas at P0. The nerve fibers containing only RFRP-3-ir in the thalamus or spinal cord were first appeared at P21 or P28. Our results show that RFRP mRNA was expressed during the neonates and the distribution of RFRP-1 or RFRP-3 immunoreactive nerve fibers would be distinctly regulated in the developing rat brain.

Localization and neuronal response of RFamide related peptides in the rat central nervous system.

RFamide related peptides (RFRP)-1 and RFRP-3 are neuropeptides derived from the same preproprotein. We have examined the distribution of RFRP-1 and RFRP-3 immunoreactivities (irs) in the rat central nervous system using specific antibodies. Neuronal cell bodies containing both RFRP-1 and RFRP-3 were detected within the caudal portion of the hypothalamus, the periventricular nucleus (PerVN), and the portion around or above the ventromedial nucleus of the hypothalamus. Both immunohistochemical and in situ hybridization analyses showed that neurons containing RFRP immunoreactivity and mRNA were distinct from those of neuropeptide FF, which contains the same structure at the C-terminus, Pro-Glu-Arg-Phe-NH2, as RFRP-3. Fibers containing both RFRP-1 and RFRP-3 were widely distributed in the brain: the lateral septal nucleus in the telencephalon, the paraventricular thalamic nucleus, various hypothalamic nuclei, the periaqueductal gray in the midbrain, the parabrachial nucleus in the pons, and the nucleus tractus solitarius (NTS) in the medulla oblongata. Only RFRP-1-ir was detected within the posterior gray horn in the spinal cord. Only RFRP-3-ir was detected in several thalamic nuclei and the spinal cord, especially at the posterior intermediate sulcus and within the anterior gray horn. Intracerebroventricular administration of RFRPs induced c-Fos expression in the anterior portion of the NTS, locus coeruleus, the nucleus of incertus, supraoptic nucleus, PerVN and the arcuate nucleus of the hypothalamus. These results show that RFRP-1 and RFRP-3 are widely distributed in the rat central nervous system and might be involved in various functions such as the neuroendocrine system or pain modulation.

Functional retinal input stimulates expression of astroglial elements in the suprachiasmatic nucleus of postnatal developing rat.

Astrocytes are abundant in the hypothalamic suprachiasmatic nucleus (SCN), particularly in the retinorecipient region. Using glial fibrillary acidic protein (GFAP) immunocytochemistry, we investigated the effect of light on the development of astrocytes in the SCN housing under light-dark (LD) or constant dark (DD) conditions after birth. GFAP immunoreactivity in the DD group showed lower levels than those in the LD group at P50. However, there was no difference in density of retinohypothalamic tract (RHT) terminals in the SCN between the DD and LD groups. After the adult pattern of GFAP immunoreactivity was established at P30, transferring rats to different LD conditions produced changes in GFAP immunoreactivity evident when rats were sacrificed at P50. We next examined, using a primary culture of hypothalamic astrocytes, whether neurotransmitters of RHT such as glutamate and pituitary adenylate cyclase activating polypeptide (PACAP) can stimulate GFAP expression directly. PACAP-38 increased the length and number of astrocytic processes but glutamate did not. These findings indicate that the functional aspects of RHT such as the light stimulated release of neurotransmitters is important for the development of astrocytes in rat SCN. Dynamic plasticity of astroglial elements in the SCN occurs even after GFAP shows an adult pattern.

Nerve growth factor induces systemic hyperalgesia after thoracic burn injury in the rat.

Acute burn injury is usually associated with pain in the injured and nearby areas. However, we have recently reported that a thoracic scald induces hindpaw hyperalgesia during the healing stage in rats. The present study investigated the cause of the remotely occurring hyperalgesia. Behavioral testing using the von Frey test revealed that rats developed hyperalgesia in the neck and flank as well as the hindpaw 2-3 weeks after injury. The concentration of nerve growth factor (NGF) in the skin of the chest increased markedly during the healing stage. Moreover, rats injected daily with anti-NGF serum after burn injury did not develop hyperalgesia, suggesting that increased NGF in the tissue of the healing skin is a key factor causing systemic hyperalgesia during the recovery stage.

HPA-axis responses during experimental colitis in the rat.

We investigated the responses of the hypothalamic-pituitary-adrenal (HPA) axis during experimental colitis induced by intracolonic administration of 2,4,6-trinitrobenzenesulfonic acid in the rat. On days 3 and 7 after induction of colitis, the corticotropin-releasing hormone (CRH) mRNA level in the parvocellular paraventricular nucleus (pPVN) of the hypothalamus was reduced, the plasma ACTH level remained at the basal level, and the plasma corticosterone (Cort) level was high. Induction of colitis on day 3 after adrenalectomy with Cort pellet replacement (ADX + Cort) resulted in a marked increase in CRH mRNA on day 7 after induction of colitis compared with noncolitic ADX + Cort animals. Pair feeding to match the food intake of the colitic animals resulted in no significant change in CRH mRNA in the pPVN, plasma ACTH, and Cort compared with healthy control animals. These findings indicated that CRH mRNA expression in the pPVN was inhibited by glucocorticoid feedback during this experimental colitis, and the decrease in food intake during colitis was not simply responsible for the expression of CRH mRNA. It is inferred that the HPA axis including the CRH level in the pPVN is altered in patients with inflammatory bowel disease.

MOUSE MUSCLE CELL DIFFERENTIATION IN CLONAL CULTURE.

Clonal culture of muscle cells from thigh muscles of the term fetus of the mouse was undertaken. Myoblasts were spherical or spindle-shaped, and proliferated exponentially until day 4 in culture. The generation time of the muscle cells from 2 to 4 days' culture was 9.1 to 13.4 hr. The fusion of myoblasts began on day 4 in culture; many myotubes had been formed by day 6 and spontaneous contraction was observed on day 7. Clonal efficiency was 30%, and the proportion of muscle colonies in all the colonies was 72%.