Your search keyword '"Franzoni M"' showing total 3 results

1. Involvement of retinohypothalamic input, suprachiasmatic nucleus, magnocellular nucleus and locus coeruleus in control of melanotrope cells of Xenopus laevis: a retrograde and anterograde tracing study.

Author

Tuinhof R, Artero C, Fasolo A, Franzoni MF, Ten Donkelaar HJ, Wismans PG, and Roubos EW

Subjects

Adaptation, Physiological physiology, Afferent Pathways physiology, Afferent Pathways ultrastructure, Animals, Axonal Transport, Brain Mapping, Carbocyanines, Corticotropin-Releasing Hormone physiology, Horseradish Peroxidase, Locus Coeruleus cytology, Melanophores physiology, Neurotransmitter Agents metabolism, Optic Nerve physiology, Pituitary Gland, Anterior cytology, Preoptic Area cytology, Skin Pigmentation radiation effects, Suprachiasmatic Nucleus cytology, Thyrotropin-Releasing Hormone physiology, Hypothalamo-Hypophyseal System physiology, Locus Coeruleus physiology, Pituitary Gland, Anterior metabolism, Preoptic Area physiology, Retina physiology, Skin Pigmentation physiology, Suprachiasmatic Nucleus physiology, Xenopus laevis physiology, alpha-MSH metabolism

Abstract

The amphibian Xenopus laevis is able to adapt the colour of its skin to the light intensity of the background, by releasing alpha-melanophore-stimulating hormone from the pars intermedia of the hypophysis. In this control various inhibitory (dopamine, gamma-aminobutyric acid, neuropeptide Y, noradrenaline) and stimulatory (thyrotropin-releasing hormone and corticotropin-releasing hormone) neural factors are involved. Dopamine, gamma-aminobutyric acid and neuropeptide Y are present in suprachiasmatic neurons and co-exist in synaptic contacts on the melanotrope cells in the pars intermedia, whereas noradrenaline occurs in the locus coeruleus and noradrenaline-containing fibres innervate the pars intermedia. Thyrotropin-releasing hormone and corticotropin-releasing hormone occur in axon terminals in the pars nervosa. In the present study, the neuronal origins of these factors have been identified using axonal tract tracing. Application of the tracers 1,1'dioctadecyl-3,3,3',3' tetramethyl indocarbocyanine and horseradish peroxidase into the pars intermedia resulted in labelled neurons in two brain areas, which were immunocytochemically identified as the suprachiasmatic nucleus and the locus coeruleus, indicating that these areas are involved in neural inhibition of the melanotrope cells. Thyrotropin-releasing hormone and corticotropin-releasing hormone were demonstrated immunocytochemically in the magnocellular nucleus. This area appeared to be labelled upon tracer application into the pars nervosa. This finding is in line with the idea that corticotropin-releasing hormone and thyrotropin-releasing hormone stimulate melanotrope cell activity after diffusion from the neural lobe to the pars intermedia. After anterograde filling of the optic nerve with horseradish peroxidase, labelled axons were traced up to the suprachiasmatic area where they showed to be in contact with suprachiasmatic neurons. These neurons showed a positive reaction with anti-neuropeptide Y and the same held for staining with anti-tyrosine hydroxylase. It is suggested that a retino-suprachiasmatic pathway is involved in the control of the melanotrope cells during the process of background adaptation.

Published

1994

2. The hypothalamus of Lacerta sicula R. II. A Golgi study of the preoptic area.

Author

Fasolo A and Franzoni MF

Subjects

Animals, Female, Histocytochemistry, Lizards, Male, Methods, Neurons cytology, Hypothalamus cytology, Preoptic Area cytology

Abstract

An analysis of the preoptic area of the lizard, Lacerta sicula R., with the use of the Golgi method revealed that: 1) in principle, the dendritic pattern of its neurons is relatively simple; 2) the supraoptic nucleus contains large- to medium-sized bipolar or multipolar neurons together with small, usually multipolar nerve cells; 3) the preoptic periventricular gray and the paraventricular nucleus exhibit a varied neuronal typology, including large multipolar or bipolar elements, abundant CSF-contacting neurons and some tufted elements; and 4) the lateral regions display some conspicuous multipolar neurons.

Published

1983

3. A Golgi study of the hypothalamus of actinopterygii.

Author

Mazzi V, Franzoni MF, and Fasolo A

Subjects

Animals, Axons, Dendrites, Female, Male, Neurons, Staining and Labeling, Anguilla anatomy & histology, Fishes anatomy & histology, Hypothalamus cytology, Preoptic Area cytology

Abstract

The preoptic area of a primitive actinopterygian, the polypteriform, Calamoichthys calabaricus Smithi, and of the teleost, Anguilla anguilla L., have been studied by Golgi and other neurohistological and histochemical methods. In the preoptic area two regions can be recognized: a cell rich median region and a lateral one, composed mostly of fiber systems. After Golgi staining a varied population of neurons is seen, including: (1) magnocellular neurons, endowed with a number of dendrites and an axon emerging from the main dendritic shaft; (2) lophodendritic tufted or pyriform neurons of variable morphology (often of the midget type); (3) cerebrospinal fluid contacting neurons; (4) bipolar and horizontal neurons. Of relevant interest is also the observation of commissural neurons, of a distinct precommissural necleus, and of bipolar neurons, the axons of which course toward the ventral hypopallium.

Published

1978