Prolactin and acid stress in the teleost Oreochromis (formerly Sarotherodon) mossambicus

Prolactin and acid stress in the teleost Oreochromis (formerly Sarotherodon) mossambicus

Prolactin is probably implicated in the control of physiological adaptation to sublethal acid stress in tilapia. Exposure of fish to water at pH 3 caused death within 72 hr, which was associated with pronounced hemodilution. At pH 4 mortality was low, although a substantial and rapid decrease in pla...

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Veröffentlicht in:General and comparative endocrinology 1984-08, Vol.55 (2), p.323-332
Hauptverfasser: Wendelaar Bonga, S.E., van der Meij, J.C.A., Flik, G.
Format: Artikel
Sprache:eng
Schlagworte:
adaptions
Animals
Apud cells. Peptide and protein hormones. Growth factors
Biological and medical sciences
Calcium - blood
Electrolytes - blood
Environment
Fishes - physiology
Freshwater
Fundamental and applied biological sciences. Psychology
Gills - metabolism
hormones
Hydrogen-Ion Concentration
Lysine - metabolism
Male
Oreochromis mossambicus
Osmolar Concentration
Permeability
Pituitary Gland - anatomy & histology
prolactin
Prolactin - blood
Sodium - blood
stress
Stress, Physiological - blood
Vertebrates: endocrinology
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container_end_page 332
container_issue 2
container_start_page 323
container_title General and comparative endocrinology
container_volume 55
creator Wendelaar Bonga, S.E.
van der Meij, J.C.A.
Flik, G.
description Prolactin is probably implicated in the control of physiological adaptation to sublethal acid stress in tilapia. Exposure of fish to water at pH 3 caused death within 72 hr, which was associated with pronounced hemodilution. At pH 4 mortality was low, although a substantial and rapid decrease in plasma osmolality, plasma Na +, and plasma total Ca was observed. These effects were at least partly due to increased permeability of the gills for water and ions. After a few days at pH 4, restoration of plasma osmolality, Na +, and total Ca was noticeable. Control levels were reached after 5 days for Ca, and after 10 days for osmolality, Na +, and branchial osmotic water permeability. Prolactin secretion increased markedly during acid exposure, as was established by morphometrical and biochemical methods. In tilapia, administration of prolactin is known to raise plasma osmolality, Na +, and plasma total Ca. This hormone further has been shown to reduce branchial osmotic water permeability. It is concluded therefore that the restoration of plasma electrolytes and branchial osmotic water permeability during chronic acid stress are causally connected with the observed stimulation of prolactin secretion.
doi_str_mv 10.1016/0016-6480(84)90118-7
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Exposure of fish to water at pH 3 caused death within 72 hr, which was associated with pronounced hemodilution. At pH 4 mortality was low, although a substantial and rapid decrease in plasma osmolality, plasma Na +, and plasma total Ca was observed. These effects were at least partly due to increased permeability of the gills for water and ions. After a few days at pH 4, restoration of plasma osmolality, Na +, and total Ca was noticeable. Control levels were reached after 5 days for Ca, and after 10 days for osmolality, Na +, and branchial osmotic water permeability. Prolactin secretion increased markedly during acid exposure, as was established by morphometrical and biochemical methods. In tilapia, administration of prolactin is known to raise plasma osmolality, Na +, and plasma total Ca. This hormone further has been shown to reduce branchial osmotic water permeability. 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Exposure of fish to water at pH 3 caused death within 72 hr, which was associated with pronounced hemodilution. At pH 4 mortality was low, although a substantial and rapid decrease in plasma osmolality, plasma Na +, and plasma total Ca was observed. These effects were at least partly due to increased permeability of the gills for water and ions. After a few days at pH 4, restoration of plasma osmolality, Na +, and total Ca was noticeable. Control levels were reached after 5 days for Ca, and after 10 days for osmolality, Na +, and branchial osmotic water permeability. Prolactin secretion increased markedly during acid exposure, as was established by morphometrical and biochemical methods. In tilapia, administration of prolactin is known to raise plasma osmolality, Na +, and plasma total Ca. This hormone further has been shown to reduce branchial osmotic water permeability. 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1095-6840
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source MEDLINE; Elsevier ScienceDirect Journals
subjects adaptions
Animals
Apud cells. Peptide and protein hormones. Growth factors
Biological and medical sciences
Calcium - blood
Electrolytes - blood
Environment
Fishes - physiology
Freshwater
Fundamental and applied biological sciences. Psychology
Gills - metabolism
hormones
Hydrogen-Ion Concentration
Lysine - metabolism
Male
Oreochromis mossambicus
Osmolar Concentration
Permeability
Pituitary Gland - anatomy & histology
prolactin
Prolactin - blood
Sodium - blood
stress
Stress, Physiological - blood
Vertebrates: endocrinology
title Prolactin and acid stress in the teleost Oreochromis (formerly Sarotherodon) mossambicus
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