A Golgi study of the parvocellular neurons in the paraventricular nucleus of the domestic fowl

The present study was focussed on the typology of small and medium-sized neurons in the hypothalamic paraventricular nucleus (PVN) of the domestic fowl as revealed by means of Golgi impregnation. This region is provided with different systems of neurons that can be distinguished on the basis of their location and dendritic morphology. Intraependymal neurons and CSF-contacting nerve cells are found in the periventricular layer together with bipolar elements endowed with processes extending parallel to the surface of the third ventricle. The short axons of these neurons may contact the magnocellular elements. Numerous isodendritic neurons are scattered throughout the entire PVN; these nerve cells possessing short and branched axons may be considered as local-circuit neurons. The complex intrinsic organization of the PVN of the domestic fowl might provide the structural basis for local interactions among the neuronal elements of this hypothalamic region.     

Preliminary observations on the fine structure of the medial preoptic nucleus in Coturnix japonica

The organization of the sexually dimorphic medial preoptic nucleus of the Japanese quail was studied at ultrastructural level. The region was characterized by clusters of parvocellular neurons showing a rich supply of axo-somatic synapses and a peculiar distribution of synthetic (rough endoplasmic reticulum) and secretory (Golgi complexes) structures. Further analyses are required to relate these features with sex, hormonal status and sexual behaviour of quail.     

A Golgi study on the neuronal morphology in the hypothalamus of the Japanese quail (Coturnix coturnix japonica)

Neuronal morphology and dendritic architecture of the tuberal and mammillary regions in the hypothalamus of the quail (Coturnix coturnix japonica) were investigated by means of classical neuroanatomical methods (Bodian silver impregnation, Luxol-fast blue, cresyl violet, toluidine blue, rapid Golgi method). The tuberal region is characterized by isodendritic neurons, in particular: a) pyriform and bipolar neurons, occasionally arranged diagonally to the ventricular surface; b) CSF-contacting neurons, located subependymally or more deeply in the periventricular gray, which are especially abundant in the paraventricular organ and in the proximity of the median eminence; c) numerous multipolar neurons, endowed with stout, almost unbranched dendritic processes, occupying generally the medio-lateral areas of the hypothalamus. Some multipolar neurons display somata, pyramidal or ovoidal in shape, almost imperceptibly tapering into three or more dendritic trunks. These relatively straight and long dendrites are rich in dendritic spines. In the mammillary region, Golgi impregnation shows multipolar neurons of medium size, most likely belonging to the lateral mammillary nucleus.     

A Golgi study on the cerebrospinal fluid (CSF)-contacting neurons in the paraventricular nucleus of the Pekin duck

The present investigation based on classical neurohistological techniques (Nissl-staining, Golgi-impregnation) was focussed on the cytoarchitecture of the periventricular layer of the paraventricular nucleus in the Pekin duck. This region is endowed with intraependymal neurons, the perikarya of which are mostly covered by a thin ependymal lamella. Several of the intraependymal neurons were shown to give rise to dendrites extending into the third ventricle. An additional population of nerve cells located in the deeper layers of the periventricular region also gained direct access to the cerebrospinal fluid by means of long dendrites terminating with a bulbous-like swelling in the third ventricle. This cerebrospinal fluid (CSF)-contacting dendrite branched off several times in a rectangular fashion to give rise to collaterals running in the subependymal or periventricular layers. The axons of these CSF-contacting neurons were followed into the magnocellular portion of the paraventricular nucleus. Small bipolar nerve cells with processes parallel to the surface of the third ventricle occupied a subependymal position. The isodendritic magnocellular neurons of the paraventricular nucleus emitted dendritic processes that reached the basal pole of the ependymal cells. The complex arrangement of the periventricular layer of the paraventricular nucleus might provide the structural basis for the mechanisms of cerebral osmoreception defined by means of physiological parameters.     

Typology,distribution and development of the catecholamine-containing neurons in the chicken brain

Summary Fluorescence-histochemical investigations by use of the FAGLU method show the presence of several groups of catecholamine (CA)-containing neurons in the chicken brain. The distribution, shape and orientation of the fluorescent perikarya as well as the number and orientation of primary dendrites have been systematically examined. In the chick embryo, the first neurons displaying specific catecholamine fluorescence are identifiable on the 9th day of incubation. The onset of this type of specific fluorescence is consistent with biochemical data reported in the literature for the chick embryo. The main complexes of CA-containing cell bodies, shown at medullary, pontine and mesencephalic levels, display a pattern of distribution that is quite similar in both the chicken and the rat. In the hypothalamus of chick embryos and newly hatched chicks, CA-containing neurons have been localized within the paraventricular organ, and the periventricular and mammillary regions. By the fourth week after hatching, within the hypothalamus the paraventricular organ alone continues to display fluorescent neurons.This investigation was supported by grants from the Italian National Research Council (CNR) No 82.02079.04 (R.G.), No 83.00492.04 (G.C.P.) and MPI (40%).Part of this study was previously presented at the 7th ENA meeting, Hamburg, FRG, September 1983 (Guglielmone and Panzica 1983).