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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Experiments were conducted to determine if
Brown
Leghorn chickens (Gallus domesticus) showed a daily differential responsiveness to the phased injections of corticosterone and prolactin. In experiment 1, 28 day old chicks, maintained on continuous lighting and a standard diet, were treated daily for 6 days with corticosterone (300 mug. in 0.2 cc. saline) and with prolactin (150 mug. in 0.2 cc. saline) for 4 days. The prolactin injections began 2 days after the first corticosterone injection. The interval between daily corticosterone injections at 1800 hours followed by prolactin injections 6, 12 or 18 hours later resulted in a significant increase in the liver lipidcontent in the chicks. However, when corticosterone and prolactin were given at the same time (1800 hours), no increase in liver lipid content was observed.
Corticosterone
admininstered at 6oo hours and followed by prolactin injections had no effect on liver lipid content regardless of the time of prolactin prolactin injections. Experiment 2 was designed to test the effect of the administration of corticosterone or prolactin alone at either 600 hours or 1800 hours on liver lipid metabolism. Two groups of
Brown
Leghorn chicks received prolactin alone (for 2 days) at either 600 hours or 1800 hours. None of these treatment groups were significantly different from the uninjected controls. It is concluded that the chick has a diurnal sensitivity to the effects of coritcosterone and that once the liver is affected by corticosterone, a temporal interaction between this steroid and prolactin can affect the liver lipid content of the
Brown
Leghorn chick.
...
PMID:The temporal interaction of corticosterone and prolactin in affecting liver lipid metabolism of the chick. 93 29
The adaptive response of the neuroendocrine system to stress is known to be impaired during ageing, and this impairment may be genetically determined. To elucidate further the effect of genotype, inbred male rats of the Wistar-Kyoto (WKY) strain, characterized by their hyper-reactivity to stressors and shorter life span, were compared with
Brown
-Norway (BN) rats. In young BN rats, resting prolactin concentrations were lower than in WKY animals and were reduced with age, while in WKY rats they remained unchanged with age. In young rats of both strains prolactin concentrations were highest after subjecting them to stressful stimuli for 15 min. After 2 h of restraint stress (during which the animals were confined to a narrow space that restricted movement) prolactin concentrations in young rats returned to pre-stress values, while remaining high in aged rats of both strains. Concentrations of corticotrophin (or adrenocorticotrophic hormone, ACTH) were lower in BN than in WKY rats and did not change with age in either strain. After 2 h of stress, ACTH concentrations were still slightly higher than normal in both young and aged BN rats, but not in WKY rats.
Corticosterone
concentrations were similar in young WKY and BN rats and were reduced in aged rats of both strains. After 2 h of stress, corticosterone concentrations were still high in aged, but not in young rats of both strains. However, this stress-induced increase was larger (3.7 times as much) in the BN strain than in the WKY strain (in which the increase was 1.7 times as much). The concentrations of hypothalamic monoamines were similar in young rats of both strains, although stress resulted in reduced noradrenaline concentrations, as previously documented, and in minor increases in 3,4-dihydroxyphenylacetic acid in both strains. During ageing, basal noradrenaline concentrations were reduced only in WKY rats, while the amount of 5-HT increased selectively in BN rats. Concentrations of 5-hydroxyindoleacetic acid were increased after stress in aged WKY rats only. The results demonstrate that resting plasma concentrations of the stress hormones ACTH and corticosterone and of prolactin are lower in BN than in WKY rats. In ageing, however, the stress-induced increases in the concentrations of these hormones are relatively higher in the BN strain, which is characterized by a longer life span.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Effects of genotype on age-related alterations in the concentrations of stress hormones in plasma and hypothalamic monoamines in rats. 768 29
Brown
adipose tissue (BAT) contains glucocorticoid receptors; glucocorticoids are required for maintaining differentiated BAT in culture. These studies were performed to determine the effects of corticosterone on BAT thermogenic function and lipid storage. Rats were adrenalectomized and given subcutaneous corticosterone pellets in concentrations that maintained plasma corticosterone constant across the range of 0-20 micrograms/dl or were sham adrenalectomized. All variables were examined 5 days after surgery and corticosterone replacement. Measures of BAT function-thermogenic capacity [guanosine 5'-diphosphate (GDP) binding and uncoupling protein (UCP; a BAT-specific thermogenic protein)] and storage (BAT wet wt, protein, and DNA levels) were made. Plasma hormones (corticosterone, adrenocorticotropic hormone, insulin, 3,3',5-triiodothyronine, and thyroxine were measured.
Corticosterone
significantly affected BAT thermogenic measures: UCP content and binding of GDP to BAT mitochondria decreased with increasing corticosterone; GDP binding characteristics in BAT from similarly prepared rats examined by Scatchard analysis showed that maximum binding (Bmax) and dissociation constant (Kd) decreased with increasing corticosterone dose. BAT DNA was increased by adrenalectomy and maintained at intact levels with all doses of corticosterone; BAT lipid storage increased dramatically at corticosterone values higher than the daily mean level in intact rats. Histologically, the number and size of lipid droplets within BAT adipocytes increased markedly with increased corticosterone. White adipose depots were more sensitive to circulating corticosterone concentrations than were BAT depots and increased in weight at levels of corticosterone that were at or below the daily mean level of intact rats. We conclude that, within its diurnal range of concentration corticosterone acts to inhibit nonshivering thermogenesis and increase lipid storage.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Corticosterone decreases nonshivering thermogenesis and increases lipid storage in brown adipose tissue. 784 Mar 19
Measurements of the heterophil:lymphocyte (H/L) ratio (invasive technique) and corticosterone in yolk and albumen (noninvasive techniques) were used to measure stress in 3 commercial laying strains, Lohmann White (LW), H&N White (HN), Lohmann
Brown
(LB), and a noncommercial cross (CR) between Rhode Island Red (male) and Barred Plymouth Rock (female), kept in conventional cages or floor pens. All chicks were reared in their respective environments, and 450 and 432 pullets were placed at 18 and 7 wk of age in cages and floor pens, respectively. Blood from 12 hens per strain was taken at 19, 35, and 45 wk of age in each housing system. A total of 100 heterophils and lymphocytes were counted and their ratio (H/L ratio) was calculated.
Corticosterone
was measured in yolk and albumen from 12 hens per strain in each housing system at 22 and 45 wk of age. The H/L ratio was within the normal range. The interaction between environment and strain for the H/L ratio showed that in both environments, LB and CR hens had a higher H/L ratio than LW and HN layers. In cages, there were significant differences in H/L ratios between LW and HN hens that were likely due to genetic differences. The LW hens had significantly lower corticosterone concentrations in yolk than LB hens. In cages but not floor pens, yolk corticosterone concentrations at wk 22 were significantly higher than at wk 45. In floor pens but not cages, albumen corticosterone at wk 22 was higher than at wk 45. The H/L ratios suggest that none of the hens were unduly stressed, and corticosterone levels in yolk and albumen support the suggestion that hens adapted to their environments with age. Although measurement of yolk corticosterone and the H/L ratio may be comparable, the measurement of corticosterone level in the albumen may differ because it is secreted over a short time.
...
PMID:Invasive and noninvasive measurement of stress in laying hens kept in conventional cages and in floor pens. 1953 2
Maternal stress in birds can have permanent transgenerational effects through the transmission of stress hormones to offspring via the egg yolk. Previous studies have shown that White Leghorn hens show a heightened response to stress compared with Hy-Line
Brown
hens, producing significantly more corticosterone and displaying longer bouts of tonic immobility after handling, whereas baseline levels of corticosterone are similar between the strains. We tested the hypothesis that higher stress responsiveness would correspond to chronic accumulation and thus higher concentrations of corticosterone in egg yolks after exposure to stressors associated with routine maintenance. Eggs were collected from white and brown hens that were undisturbed except for daily feeding and routine egg collections.
Corticosterone
was quantified in plasma, egg yolks, and albumen and compared between strains. We predicted that corticosterone concentrations in yolk would be higher in eggs from white versus brown hens but that albumen corticosterone would not differ between strains due to the short term of albumen deposition. As predicted, yolk corticosterone concentrations were significantly higher in eggs produced by white hens, approximately twice those found in eggs laid by brown hens. Plasma and albumen concentrations of corticosterone were similar between groups. These results suggest that offspring hatching from eggs laid by White Leghorn hens are exposed to significantly more corticosterone through concentration in the egg yolk, which could permanently imprint offspring physiology and behavior.
...
PMID:Yolk and albumen corticosterone concentrations in eggs laid by white versus brown caged laying hens. 2054 80
