Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy

The acute effect of superior cervical ganglionectomy (SCGx) on the pituitary-thyroid axis was examined in rats subjected to surgery 3–24 h earlier. SCGx caused an abrupt decline in thyroid norepinephrine content (an index of degeneration of sympathetic nerve terminals) to 5–10% of controls between 8...

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Detalles Bibliográficos
Publicado: 1982
Materias:
Pineal gland
Superior cervical ganglion
T<inf>3</inf>
T<inf>4</inf>
Thyroid gland
TSH
liothyronine
radioisotope
thyroxine
animal experiment
autonomic nervous system
endocrine system
etiology
nervous system
neuroendocrinology
pineal body
radioimmunoassay
rat
superior cervical ganglion
theoretical study
thyroid gland
Animals
Ganglia, Sympathetic
Hypothalamus
Male
Norepinephrine
Pineal Gland
Pituitary Gland
Rats
Rats, Inbred Strains
Rubidium
Thyroid Gland
Thyrotropin
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00283835_v35_n4_p248_Cardinali
http://hdl.handle.net/20.500.12110/paper_00283835_v35_n4_p248_Cardinali
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_00283835_v35_n4_p248_Cardinali
record_format dspace
spelling paper:paper_00283835_v35_n4_p248_Cardinali2023-06-08T14:54:58Z Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy Pineal gland Superior cervical ganglion T<inf>3</inf> T<inf>4</inf> Thyroid gland TSH liothyronine radioisotope thyroxine animal experiment autonomic nervous system endocrine system etiology nervous system neuroendocrinology pineal body radioimmunoassay rat superior cervical ganglion theoretical study thyroid gland Animals Ganglia, Sympathetic Hypothalamus Male Norepinephrine Pineal Gland Pituitary Gland Rats Rats, Inbred Strains Rubidium Thyroid Gland Thyrotropin The acute effect of superior cervical ganglionectomy (SCGx) on the pituitary-thyroid axis was examined in rats subjected to surgery 3–24 h earlier. SCGx caused an abrupt decline in thyroid norepinephrine content (an index of degeneration of sympathetic nerve terminals) to 5–10% of controls between 8 and 16 h. Rats subjected to SCGx 14 h earlier exhibited a significant depression of thyroid 131I uptake, total and free serum T<inf>4</inf> levels and serum TSH levels. The injection of 250 mU of bovine TSH, while resulting in similar increases of radioimmunoassayable serum TSH in both SCGx and sham-operated rats, brought about a significant increase of total and free serum T<inf>4</inf> only in sham-operated controls, TSH treatment augmented serum T<inf>3</inf> levels in both groups. In order to assess the involvement of the pineal gland in the changes of activity of the pituitary-thyroid axis after SCGx, rats were pinealectomized (Px) or sham-Px and 3 days later they were subjected to SCGx or sham-SCGx, all animals were killed at the time of expected degeneration of nerve terminals (i.e. 14 h after SCGx). The depressive effects of SCGx on 131I uptake and free serum T<inf>4</inf> levels were observed regardless of whether the pineal was present, in contrast, Px impaired significantly or blocked the effect of SCGx on TSH and total serum T<inf>4</inf> levels. Pineal removal resulted in a significant increase of serum T<inf>3</inf> levels of SCGx rats. Blood flow estimated from the uptake of a tracer dose of 86Rb diminished significantly in the thyroid and pineal glands of SCGx rats while remaining unchanged in the adenohypophysis or medial basal hypothalamus. These results indicate that at the time of nerve terminal degeneration in the SCG territory a functional depression of the pituitary-thyroid axis takes place, as revealed by the occurrence of low serum TSH and Tt levels and impaired thyroid 131I uptake. The effect of acute SCGx is best explained by both central and peripheral mechanisms rather than by an exclusive central depressive effect on TSH secretion because: (a) exogenous TSH injection did not increase serum T<inf>3</inf> levels in SCGx rats, (b) depressed thyroid 131I uptake and serum-free T<inf>4</inf> levels, and normal serum TSH concentration were found in SCGx previously subjected to Px. © 1982 S. Karger AG, Basel. 1982 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00283835_v35_n4_p248_Cardinali http://hdl.handle.net/20.500.12110/paper_00283835_v35_n4_p248_Cardinali
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Pineal gland
Superior cervical ganglion
T<inf>3</inf>
T<inf>4</inf>
Thyroid gland
TSH
liothyronine
radioisotope
thyroxine
animal experiment
autonomic nervous system
endocrine system
etiology
nervous system
neuroendocrinology
pineal body
radioimmunoassay
rat
superior cervical ganglion
theoretical study
thyroid gland
Animals
Ganglia, Sympathetic
Hypothalamus
Male
Norepinephrine
Pineal Gland
Pituitary Gland
Rats
Rats, Inbred Strains
Rubidium
Thyroid Gland
Thyrotropin
spellingShingle Pineal gland
Superior cervical ganglion
T<inf>3</inf>
T<inf>4</inf>
Thyroid gland
TSH
liothyronine
radioisotope
thyroxine
animal experiment
autonomic nervous system
endocrine system
etiology
nervous system
neuroendocrinology
pineal body
radioimmunoassay
rat
superior cervical ganglion
theoretical study
thyroid gland
Animals
Ganglia, Sympathetic
Hypothalamus
Male
Norepinephrine
Pineal Gland
Pituitary Gland
Rats
Rats, Inbred Strains
Rubidium
Thyroid Gland
Thyrotropin
Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy
topic_facet Pineal gland
Superior cervical ganglion
T<inf>3</inf>
T<inf>4</inf>
Thyroid gland
TSH
liothyronine
radioisotope
thyroxine
animal experiment
autonomic nervous system
endocrine system
etiology
nervous system
neuroendocrinology
pineal body
radioimmunoassay
rat
superior cervical ganglion
theoretical study
thyroid gland
Animals
Ganglia, Sympathetic
Hypothalamus
Male
Norepinephrine
Pineal Gland
Pituitary Gland
Rats
Rats, Inbred Strains
Rubidium
Thyroid Gland
Thyrotropin
description The acute effect of superior cervical ganglionectomy (SCGx) on the pituitary-thyroid axis was examined in rats subjected to surgery 3–24 h earlier. SCGx caused an abrupt decline in thyroid norepinephrine content (an index of degeneration of sympathetic nerve terminals) to 5–10% of controls between 8 and 16 h. Rats subjected to SCGx 14 h earlier exhibited a significant depression of thyroid 131I uptake, total and free serum T<inf>4</inf> levels and serum TSH levels. The injection of 250 mU of bovine TSH, while resulting in similar increases of radioimmunoassayable serum TSH in both SCGx and sham-operated rats, brought about a significant increase of total and free serum T<inf>4</inf> only in sham-operated controls, TSH treatment augmented serum T<inf>3</inf> levels in both groups. In order to assess the involvement of the pineal gland in the changes of activity of the pituitary-thyroid axis after SCGx, rats were pinealectomized (Px) or sham-Px and 3 days later they were subjected to SCGx or sham-SCGx, all animals were killed at the time of expected degeneration of nerve terminals (i.e. 14 h after SCGx). The depressive effects of SCGx on 131I uptake and free serum T<inf>4</inf> levels were observed regardless of whether the pineal was present, in contrast, Px impaired significantly or blocked the effect of SCGx on TSH and total serum T<inf>4</inf> levels. Pineal removal resulted in a significant increase of serum T<inf>3</inf> levels of SCGx rats. Blood flow estimated from the uptake of a tracer dose of 86Rb diminished significantly in the thyroid and pineal glands of SCGx rats while remaining unchanged in the adenohypophysis or medial basal hypothalamus. These results indicate that at the time of nerve terminal degeneration in the SCG territory a functional depression of the pituitary-thyroid axis takes place, as revealed by the occurrence of low serum TSH and Tt levels and impaired thyroid 131I uptake. The effect of acute SCGx is best explained by both central and peripheral mechanisms rather than by an exclusive central depressive effect on TSH secretion because: (a) exogenous TSH injection did not increase serum T<inf>3</inf> levels in SCGx rats, (b) depressed thyroid 131I uptake and serum-free T<inf>4</inf> levels, and normal serum TSH concentration were found in SCGx previously subjected to Px. © 1982 S. Karger AG, Basel.
title Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy
title_short Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy
title_full Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy
title_fullStr Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy
title_full_unstemmed Efferent neuroendocrine pathways of sympathetic superior cervical ganglia: Early depression of the pituitary-thyroid axis after ganglionectomy
title_sort efferent neuroendocrine pathways of sympathetic superior cervical ganglia: early depression of the pituitary-thyroid axis after ganglionectomy
publishDate 1982
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_00283835_v35_n4_p248_Cardinali
http://hdl.handle.net/20.500.12110/paper_00283835_v35_n4_p248_Cardinali
_version_ 1768544214857023488

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