Béla Halász

Location of the Neural Structures Triggering Ovulation in the Rat

The present studies concerned the location of the neural structures triggering ovulation. Using a small bayonet-shaped knife, three types of deafferentation were made and the rats were tested for ovul

Neuronal Labeling in the Rat Brain and Spinal Cord from the Ovary Using Viral Transneuronal Tracing Technique

In the present investigations the viral transneuronal labeling method, which is able to reveal hierarchial chains of central nervous system (CNS) neurons, was applied to identify sites in the CNS connected with the ovary and presumably involved in the control of ovarian functions. Pseudorabies virus was injected into the ovaries of rats and a few days later (at various times after the injection) the spinal cord and brain were examined for virus-infected neurons from the ovary. The virus-labeled nerve cells were identified by immunocytochemistry using polyclonal antiviral antibody. Virus-labeled neurons were detected both in the spinal cord and the brain. In the spinal cord such elements were observed in the intermediolateral cell column, in the dorsal horn close to the marginal zone and in the central autonomic nucleus. In the medulla oblongata and pons, neurons of several nuclei and cell groups (area postrema, nucleus of the solitary tract, dorsal vagal complex, nucleus ambiguus, paragigantocellular nucleus, parapyramidal nucleus, A1, A5 and A7 cell groups, caudal raphe nuclei, locus ceruleus, subceruleus nucleus, Barrington’s nucleus, Kölliker-Fuse nucleus) were found to be transneuronally labeled. In the mesencephalon, the ventrolateral part of the periaqueductal gray matter contained virus-labeled neurons. In the diencephalon, a very intensive cell body labeling was observed in the hypothalamic paraventricular nucleus and a few virus-infected neurons could be detected in the lateral and dorsal hypothalamus, in the arcuate nucleus, zona incerta, perifornical area and in the anterior hypothalamus. Concerning the telencephalic structures, virus-labeled cells were found in the bed nucleus of the stria terminalis and in the central amygdala nucleus. These findings provide the first neuromorphological evidence for the existence of a multisynaptic neuronal pathway between the ovary and the CNS, and give a detailed account of the structures involved in this pathway.

Ontogenesis of the three parts of the fetal rat adenohypophysis

The sequential changes in the histological pattern of anterior pituitary cytodifferentiation of the rat are described. The first labeled cells were ACTH positive and were detected in the pars tuberalis on postconceptual day 13. On day 14 ACTH cells also appeared in the ventral periphery of the pars distalis. On fetal day 15 the pars tuberalis anlage was characterized by numerous well-stained ACTH cells and by some weakly labeled FSH-beta, LH-beta, TSH-beta, GH and PRL cells while the pars distalis showed only ACTH positivity. On day 16 of gestation the ACTH cells were equally distributed throughout the whole pars distalis, while LH-beta, FSH-beta, TSH-beta, PRL and GH immunoreactive cells were localized either in the ventral region of the pars distalis only or were evenly distributed throughout the pars distalis. The present immunocytochemical data suggest that in the pars distalis the hypophyseal cell differentiation follows a clear rostrocaudal, ventrodorsal direction and that the time sequence of the functional differentiation of the adenohypophysis is pars tuberalis, pars distalis and pars intermedia.

Synaptic connections between serotoninergic axon terminals and tyrosine hydroxylase-immunoreactive neurons in the arcuate nucleus of the rat hypothalamus. A combination of electron microscopic autoradiography and immunocytochemistry

A combination of electron microscopic autoradiography and immunocytochemistry was used to examine the connections between serotoninergic axons and dopaminergic neurons of the arcuate nucleus of the rat hypothalamus. The serotoninergic elements were identified after selective uptake of tritiated serotonin and the dopaminergic neurons with tyrosine hydroxylase cytochemistry. Synaptic junctions between labeled serotoninergic nerve endings and tyrosine hydroxylase-immunoreactive neurons were observed, providing a structural basis for a direct influence of serotoninergic elements on tuberoinfundibular dopaminergic neurons.

Cell differentiation of the fetal rat anterior pituitary in vitro

SummaryAdenohypophysial primordia of rat embryos at 13 to 15 days gestation were cultured in Parker 199 synthetic medium for 2 to 11 days. At the end of the culture period their fine structure and the presence of immunoreactive trophic hormones using the peroxidase-labeled antibody technique were investigated. The degree of differentiation in the glands depends largely on the age of the embryos furnishing the explants. Cultured pituitaries explanted on the 13th day of gestation contain only ACTH-positive cells and about 15% of the cells are granular. The granules are 50–100 nm in diameter in some cells, while in other cells they range from 50 to 200 nm. In cultivated adenohypophysial primordia of embryos on the 15th day of intrauterine life ACTH, prolactin, LH and TSH cells are evident, but only the same two kinds of granular cells can be observed with the electron microscope. The extent of cytodifferentiation in the glands explanted on the 14th day of gestation is intermediate between the two other groups. The data suggest that the fetal rat pituitary has the capacity of self-differentiation but to a lesser extent than that of the in situ hypophysis.

Localization of putative glutamatergic/aspartatergic neurons projecting to the supraoptic nucleus area of the rat hypothalamus.

Oxytocin and vasopressin neurosecretory neurons of the supraoptic nucleus receive a rich glutamatergic innervation. The nerve cells of this prominent structure express various ionotropic and metabotropic glutamate receptor subtypes and there is converging evidence that glutamate acts as an excitatory transmitter in the control of release of oxytocin and vasopressin synthesized in this cell group. The location of the glutamatergic neurons projecting to this hypothalamic region is unknown. The aim of the present investigation was to study this question. [3H]d‐aspartate, which is selectively taken up by high‐affinity uptake sites at presynaptic endings that use glutamate as a transmitter, and is transported back to the cell body, was injected into the supraoptic nucleus area. The neurons retrogradely labelled with [3H]d‐aspartate were detected autoradiographically. Labelled nerve cells were found in several diencephalic and telencephalic structures, but not in the brainstem. Diencephalic cell groups included the supraoptic nucleus itself, its perinuclear area, hypothalamic paraventricular, suprachiasmatic, ventromedial, dorsomedial, ventral premammillary, supramammillary and thalamic paraventricular nuclei. Within the telencephalon, labelled neurons were detected in the septum, amygdala, bed nucleus of the stria terminalis and preoptic area. The findings provide neuromorphological data on the location of putative glutamatergic neurons projecting to the supraoptic nucleus and its perinuclear area. Furthermore, they indicate that local putative glutamatergic neurons as well as several diencephalic and telencephalic structures contribute to the glutamatergic innervation of the cell group and thus are involved in the control of oxytocin and vasopressin release by neurosecretory neurons of the nucleus.

Analysis of pituitary prolactin and adrenocortical response to ether, formalin or restraint in lactating rats: Rise in corticosterone, but no increase in plasma prolactin levels after exposure to stress

It is well established that stress causes a rise in plasma prolactin (PRL) levels of male or cycling female rats. In lactating animals, the pituitary PRL response to stress is not well understood. Therefore, the purpose of the present study was to analyze this question in lactating rats having low or elevated prestress plasma PRL levels. The animals were exposed to ether, formalin or restraint, and plasma PRL and corticosterone levels were determined. In mothers continually together with their pups, plasma PRL levels decreased significantly after exposure to ether vapor or injection of formalin under the skin. At the same time, both agents caused a significant rise in blood corticosterone concentrations. Lactating rats isolated for 4 h had very low levels of PRL before application of stress. However, neither formalin nor restraint caused any elevation in their plasma PRL levels although both interventions increased blood corticosterone concentrations. Lactating mothers receiving formalin after a 30-min suckling stimulus preceded by 4 h isolation did not show appreciable changes in pituitary PRL secretion following the administration of formalin. For information on the mechanism of the effect of stress on PRL, lactating rats were pretreated with the dopamine receptor antagonist domperidone (injecting 80 micrograms/kg body weight) or were adrenalectomized 7 days prior to exposure to stress. The very high levels of PRL caused by domperidone decreased markedly in animals subjected to restraint stress. Administration of formalin to adrenalectomized lactating rats continually together with their litter caused a slight immediate decrease, followed by a transitory elevation and a subsequent small second decrease in blood PRL concentration.(ABSTRACT TRUNCATED AT 250 WORDS)

Participation of a Pure Neuronal Mechanism in the Control of Gonadal Functions

The present review summarizes the data on the existence of a neural connection between the gonads and the central nervous system. As an experimental model the development of compensatory ovarian hypertrophy following unilateral ovariectomy was studied. Unilateral ovariectomy or orchidectomy resulted in a higher cellular activity in the hypothalamic arcuate neurons contralateral to hemigonadectomy and an increased luteinizing hormone‐releasing hormone content in the medio‐basal hypothalamus ipsilateral to the removed gonad. Local treatment of the remaining ovary with 6‐hydroxy‐dopamine prevented the development of compensatory ovarian hypertrophy after unilateral ovariectomy. Hemitransection of the spinal cord contralateral to hemigonadectomy, different unilateral hypothalamic deafferentations of the medio‐basal hypothalamus as well as unilateral lesion of the medial preoptic area or of the arcuate nucleus blocked the compensatory ovarian growth when the brain surgery was on the same side as ovariectomy. Furthermore, in hypophysectomized + unilaterally ovariectomized rats a less severe ovarian atrophy occurred than in animals solely with hypophysectomy. All these data favour the view that – besides the hormonal control – a pure neuronal mechanism is also involved in the regulation of gonadal functions.

Evidence for a diurnal fluctuation in plasma corticosterone levels after fornix transection in the rat.

The effect of fornix transection on the diurnal fluctua-tion in plasma corticosterone levels was investigated in adult male rhythm rats. Using the stereotaxic approach, the fornix was cut by means of

Hemigonadectomy-Induced Unilateral Changes in the Protein-Synthesizing Activity of the Rat Hypothalamic Arcuate Nucleus

The effect of unilateral ovariectomy on the protein-synthesizing activity of the hypothalamic arcuate and dorsomedial nucleus on both sides was studied in vivo as well as in vitro. Four weeks after the removal of 1 ovary, there was a significant increase in labelled amino acid incorporated into the arcuate neurons contralateral to the removed ovary as compared to those incorporated into the nerve cells of the nucleus on the ipsilateral side. In the dorsomedial nucleus, there was no difference between the 2 sides. On the basis of the present findings, the existence of a neural pathway between the ovary and the hypothalamic arcuate nucleus is assumed.