Prolactin does not enhance glucose-stimulated insulin release in red deer stags

Red deer stags have a seasonal pattern of insulin secretion that is characterized by both elevated basal and glucose-stimulated insulin release in summer compared with winter. Since the seasonal timing of this pattern is similar to that of prolactin and growth rate, the objectives of this study were...

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Bibliographic Details
Published in:Domestic animal endocrinology 1997, Vol.14 (1), p.47-61
Main Authors: McMahon, C.D., Corson, I.D., Littlejohn, R.P., Stuart, S.K., Veenvliet, B.A., Webster, J.R., Suttie, J.M.
Format: Article
Language:English
Subjects:
adipose tissues
alcaloide
alcaloides
alkaloids
Animals
Area Under Curve
azucar en sangre
blood plasma
blood sugar
Body Composition - drug effects
Body Composition - physiology
Body Weight - physiology
Bromocriptine - pharmacology
cervus elaphus
Deer - growth & development
Deer - metabolism
Deer - physiology
Dopamine Agonists - pharmacology
Dose-Response Relationship, Drug
Drug Interactions
ensayo
estimulo
glucosa
glucose
Glucose - metabolism
Glucose - pharmacokinetics
Glucose - pharmacology
Glucose Tolerance Test - veterinary
hormonas
hormone
hormones
insulin
Insulin - metabolism
Insulin - pharmacokinetics
insulina
insuline
macho
Male
males
plasma sanguin
plasma sanguineo
prolactin
Prolactin - blood
Prolactin - pharmacology
prolactina
prolactine
seasonal variation
Seasons
secrecion
secretion
Sheep
stimuli
stimulus
sucre du sang
tejido adiposo
testage
testing
Time Factors
tissu adipeux
variacion estacional
variation saisonniere
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Summary:Red deer stags have a seasonal pattern of insulin secretion that is characterized by both elevated basal and glucose-stimulated insulin release in summer compared with winter. Since the seasonal timing of this pattern is similar to that of prolactin and growth rate, the objectives of this study were: first, to determine whether prolactin is associated with the enhanced secretion of insulin during the summer growth period, and second, to determine whether a chronic reduction in plasma prolactin levels would alter body composition. Prolactin was suppressed in plasma using a long-acting form of the dopamine agonist bromocriptine (parlodel LA), which was administered at one of four doses (0–0.3 mg/kg) to each of four groups of castrate stags. Bromocriptine was administered during two 6-wk periods; the first in winter and the second in summer. During the sixth wk of each period, each animal was given three IVGTT at the following glucose doses (10 mg/kg, 70 mg/kg, and 200 mg/kg). Two d later, ovine prolactin was administered to each animal (0.08 mg/kg) and a single IVGTT (70 mg/kg) was given 2 hr later. Body composition was determined by the tritriated water dilution method at the beginning and end of each 6-wk treatment. Chronic suppression of prolactin during winter or summer did not significantly alter the amount of insulin released after each IVGTT, nor did it significantly alter body composition. Furthermore, acute administration of prolactin did not significantly enhance the release of insulin following an IVGTT, during winter or summer treatment periods. It is concluded that elevated levels of prolactin in summer do not enhance the release of insulin to glucose in red deer. Furthermore, a reduction in growth rate following a reduction in plasma prolactin is not associated with a change in body composition.
ISSN:0739-7240
1879-0054
DOI:10.1016/S0739-7240(96)00097-5