UMLS:C0020505 - FACTA Search

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Query: UMLS:C0020505 (hyperphagia)
6,116 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Weanling Sprague-Dawley rats received bilateral anodic electrolytic lesions with platinum-iridium (PtIr) electrodes in the ventromedial (VMN) and dorsomedial (DMN) hypothalamic areas. Sham-operated rats served as controls. The rats were maintained for 48 days (experiment 1) and 33 days (experiment 2) and food intake, body weight (b.w.), nose-tail length and obesity index were recorded. The data of both experiments indicate that all parameters change in the same direction, as they do when lesions are produced with anodic stainless steel electrodes: in the VMN-P-lesioned animals, b.w. gains and overall mean food intake were normal, carcass fat increased and linear growth was reduced. In experiment 2, however, there was a temporary hyperphagia during the 1st 2 weeks of the study. In the DMN-lesioned rats, both ponderal and linear growth and food intake were decreased but body composition was normal. Plasma obtained at sacrifice in experiment 2 showed slight but significant hyperinsulinemia in the VMN rats (p less than 0.02 vs control and p less than 0.05 vs DMN rats). Prolactin (PRL) levels, on the other hand, were higher in the DMN-lesioned rats (p less than 0.05 vs control and p less than 0.02 vs VMN rats). The data indicate that the changes characteristic of the weanling rat VMN and DMN syndrmes are due to 'true' tissue destruction rather than to artifactitious side effects of the lesions. They also suggest, therefore, than an 'irritative focus' hypothesis is not required to account for the observed alterations. They further suggest that the DMN may play role in the control of PRL release.
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PMID:Production of weanling rat ventromedial and dorsomedial hypothalamic syndromes by electrolytic lesions with platinum-iridium electrodes. 102 49

Systemic administration of ovine prolactin (PRL) has been previously reported to stimulate parental feeding behavior toward 7-day-old foster squabs by nonbreeding ring doves with previous breeding experience. The first of the present experiments reexamined this claim in experienced, nonbreeding birds given test squabs of different ages. Each visually isolated male and female dove was given twice-daily subcutaneous injections of ovine PRL or vehicle for 7 days and then tested for parental responses toward a single 1-3, 6-8, or 11- to 13-day-old foster squab. Prolactin significantly increased the incidence or frequency of parental regurgitation-feeding episodes in tests with all three squab age groups and, in addition, increased the incidence of parental feeding invitations (squab-oriented bill openings) in tests with 6- to 8-day-old squabs. A second study explored the degree to which PRL can act directly on the central nervous system to facilitate parental activity in the absence of peripheral cues generated from PRL-induced changes in other target organs, such as those associated with crop sac growth and distension. In this experiment, 6- to 8-day-old test squabs were used to determine if parental behavior is enhanced by twice-daily intracerebroventricular (ICV) injections of PRL in doses below those required to stimulate peripheral target organs. Injection schedules and behavior testing procedures were the same as those used in Experiment 1. However, half of the ICV PRL-treated and ICV vehicle-treated birds were food deprived for 16 hr before and during the test in order to control for PRL-induced hyperphagia and resulting crop sac distension, which could confound the results by generating peripheral stimuli conductive to the display of regurgitation-feeding behavior. Intracranial injections of prolactin significantly increased the incidence of feeding behavior, parental feeding invitations, and crouching or sitting in the nest in food-deprived doves but not in freely fed animals. Empty crop sac weights of freely fed and food-deprived PRL-treated birds were not increased above control values, thus indicating that ICV PRL treatment did not result in significant stimulation of peripheral target organs. These results demonstrate a facilitative action of PRL on regurgitation-feeding responses and associated parental behaviors that is not restricted to squabs of one particular age range. They also indicate that PRL is capable of acting directly on the brain to promote these activities in the absence of PRL-induced changes in the crop sac and other peripheral target organs.
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PMID:Facilitation of parental behavior in ring doves by systemic or intracranial injections of prolactin. 193 30

Lactation in the rat is marked by pronounced hyperphagia and suppression of brown fat (BAT) thermogenic capacity. We previously examined the possibility that elevated prolactin levels mediate these changes. The present study evaluated the effect of varying prolactin levels on food intake, BAT mitochondrial GDP binding, and carcass adiposity. Female rats were injected daily for 10 days with ovine prolactin at one of three doses: high = 3.0, medium = 1.0, or low = 0.3 micrograms/g body wt. Controls were injected with 0.9% NaCl. A group of uninjected rats served as an additional control. Cumulative food intake was significantly elevated in a dose-dependent manner in the prolactin-treated animals relative to the saline-injected and uninjected controls. Compared with the saline controls, the mean cumulative food intake was greatest at the high dose (20% increase), intermediate at the medium dose (17%), and smallest at the low dose (12%). Prolactin-treated rats gained significantly more weight during the experiment than did controls. Despite the hyperphagia in the prolactin-treated rats, no significant differences in BAT mitochondrial GDP binding were observed among the five groups. These data indicate that elevated prolactin levels stimulate food intake in a dose-dependent manner and that this hyperphagia is not accompanied by an increase in BAT mitochondrial GDP binding.
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PMID:Prolactin stimulates food intake in a dose-dependent manner. 291 21

Increases in serum estrogen inhibit food intake. Conversely, progesterone stimulates food intake, probably via its antiestrogenic action. We have reported that elevated serum prolactin also stimulates food intake in female rats. It is unclear whether this effect is mediated through elevated levels of progesterone. The present study investigated the effects of prolactin on food intake and brown fat activity in the absence of progesterone. Female Osborne-Mendel rats were assigned to one of six groups: sham operated (Sham, n = 10), ovariectomized (OVX, n = 10), OVX + low estrogen (EL, n = 11), OVX + EL + prolactin (PIT, n = 9), OVX + high estrogen (EH, n = 10), and OVX + EH + PIT (n = 8). Estrogen levels were elevated by Silastic implants. Prolactin levels were elevated through pituitary transplants placed under the kidney capsule. Nine days postsurgery, food intake was significantly higher in OVX vs. Sham rats. Estrogen-treated rats (OVX + EL and OVX + EH) had significantly suppressed food intake values compared with both Sham and OVX animals. Finally, hyperprolactinemic rats (OVX + EL + PIT and OVX + EH + PIT) ate significantly more food than did estrogen-treated rats without pituitary explants. Despite the hyperphagia, no significant differences in brown fat GDP binding were observed. These data indicate that prolactin stimulates food intake in the absence of ovarian progesterone.
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PMID:Prolactin stimulates food intake in the absence of ovarian progesterone. 292 59

It has been suggested that prolactin may contribute to the hyperphagia of lactation. Studies examining the effects of the systemic administration of prolactin on food intake, however, have produced varying results. In species other than the rat, central prolactin administration has been found to increase food intake, but it is not known if central prolactin administration increases food intake in rats. In the current study the effects of peripheral and central prolactin administration on food intake, weight gain, and estrous cyclicity in female rats were compared. Prolactin was administered twice daily at 0800 and at 1900 h either subcutaneously at 3 mg/kg or 1 mg/kg b.wt. or by intracerebroventricular (ICV) infusion (2 micrograms/0.5 microliter) for 10 days to female rats. Control animals received similar injections of vehicle. Food intake, body weight, and vaginal smears were taken daily. Results showed that peripheral administration of prolactin increased food intake and weight gain and disrupted vaginal cyclicity. In contrast, ICV administration increased food intake to the same extent as did systemic prolactin administration but had no effect on weight gain or cyclicity. These data suggest that prolactin acts both peripherally and centrally to regulate energy balance in the female rat.
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PMID:Effects of systemic and central prolactin injections on food intake, weight gain, and estrous cyclicity in female rats. 832 94

Prolactin stimulates the growth and development of specialized epithelial cells lining the cropsac of pigeons and doves (family Columbidae), leading to formation of "cropmilk," which is fed to the newly hatched squab. This system of milk feeding is unique among birds. To support the feeding of cropmilk, a complex array of behavioral adaptations are also supported by high levels of prolactin secretion in columbids during parenting. These specializations include elevated food intake (hyperphagia), nest attendance, and regurgitation feeding of the squab. Although prolactin is clearly important for these behavioral adaptations, the precise physiological and mechanistic bases for these behavioral effects remain controversial. The molecular mechanisms of prolactin action in the cropsac epithelium have been studied by cloning prolactin-induced genes, by cloning and expressing the pigeon prolactin receptor, and by analyzing the transcription factors that are activated after prolactin treatment. The avian (pigeon) prolactin receptor is a member of the cytokine receptor superfamily and uniquely contains a complete duplication of the extracellular ligand-binding domain. One of the early signal-transducing actions of prolactin in cropsac epithelium is the activation of signal transducer and activator of transcription (STAT) proteins via tyrosine phosphorylation. This fundamental signaling pathway is shared with mammalian prolactin target tissues. The convergent evolution of milk feeding and the behaviors that support parenting in columbids and mammals has depended on adaptation of both conserved mechanisms and divergent physiological processes.
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PMID:Regulation of pigeon cropmilk secretion and parental behaviors by prolactin. 852 18

Prolactin (PRL) strongly stimulates feeding activity and body weight gain in ring doves, and of the brain loci tested to date, the ventromedial hypothalamus (VMH) is the most effective site of PRL action in promoting these changes. To determine if the VMH is essential for this response, we examined the effects of VMN destruction on spontaneous feeding and on changes in food intake induced by intracerebroventricular (i.c.v.) injections of PRL. Male birds were selectively destroyed by radiofrequency lesions (n = 6). A group of sham-lesioned males (n = 6) served as controls. Lesioned birds exhibited a transient increase in food intake that peaked around the seventh postoperative day and declined to baseline levels by day 12. In contrast to this pattern, body weights of lesioned birds increased in parallel with food intake, but remained elevated throughout the 3-week postoperative period. During the peak period of hyperphagia in the lesioned group, food intake and body weight increases were two to three times greater in lesioned birds than in controls. After postoperative feed intake had stabilized, each bird received 5 daily i.c.v. injections of ovine PRL. Food intake and body weight increased dramatically in both groups in response to PRL treatment, and no group differences were observed in response to magnitude. We conclude that VMH destruction strongly perturbs feeding and body weight regulation in doves. However, VMH integrity is not essential for the expression of PRL-induced hyperphagia.
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PMID:Role of the ventromedial hypothalamus in prolactin-induced hyperphagia in ring doves. 1033 51

Prolactin (Prl) increases food consumption in ring doves (Streptopelia risoria) and may promote the hyperphagia exhibited by parent doves when provisioning young. These experiments tested whether Prl also enhances appetitive aspects of feeding behavior. Prl elevated pecking rates in food-restricted doves on a variable-interval (VI) reinforcement schedule and supported continued responding when doves were returned to ad-lib feeding. Prl-treated doves learned the key-pecking response when food intake was clamped at ad-lib levels exhibited before Prl treatment but not when given free access to food. Median break points on a progressive ratio schedule were 2-3 times greater in food-restricted doves than Prl-treated, food-clamped doves even though response rates were similar on VI schedules. These results indicate that Prl enhances appetitive aspects of feeding, although food restriction at the level imposed in this study was more effective in this regard.
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PMID:Motivational influences underlying prolactin-induced feeding in doves (Streptopelia risoria). 1108 11

Ring doves (Streptopelia risoria) exhibit marked increases in food consumption and decreases in body weight when they are provisioning their young. This study examined changes in hypothalamic immunostaining for agouti-related peptide (AGRP), an endogenous melanocortin receptor antagonist and appetite stimulant, during the ring dove breeding cycle. Because prolactin is orexigenic in doves, and is elevated in blood at the onset of parental hyperphagia, we also explored the possibility that prolactin-induced hyperphagia is associated with AGRP changes. The numbers of AGRP-immunoreactive (ir) cells within the tuberal hypothalamus were maximal during the prelaying period of the breeding cycle but decreased dramatically during early incubation. AGRP-ir cell numbers began to increase again during late incubation and reached a peak during the early and late posthatching stages. Because posthatching elevations in AGRP-ir were temporally associated with marked elevations in parental food intake, and because AGRP is orexigenic in doves, these findings suggest that increased AGRP activity in the dove tuberal hypothalamus may contribute to parental hyperphagia. Rising prolactin secretion during late incubation and early posthatching may initiate this increase in AGRP-ir, since intracerebroventricular administration of prolactin significantly elevated food intake and AGRP-ir cell numbers in the tuberal hypothalamus of nonbreeding doves. Prolactin-induced elevations in AGRP-ir cell numbers persisted when the confounding effects of weight gain that accompany prolactin-induced hyperphagia in nonbreeding doves were eliminated by a food restriction procedure, thereby suggesting that prolactin can directly influence AGRP activity under neutral energy state conditions.
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PMID:Changes in agouti-related peptide during the ring dove breeding cycle in relation to prolactin and parental hyperphagia. 1462 34

Prolactin (PRL)-releasing peptide (PrRP) is a new peptide present in the hypothalamus and in the circulation that may be involved in the regulation of feeding behavior. In the present experiment, we measured it in a well-known model of obesity, the Zucker rat. We also measured the reactivity of this animal in terms of food intake after the intraperitoneal (I.P.) or central injection of PrRP-13, a potent PrRP agonist. Plasma PrRP levels were 35% lower in obese fa/fa than in the lean rats (p<0.005). I.P. injections of PrRP-13 (10 mg/kg) stimulated food intake in lean and had no effect in obese rats (p<0.001). Intracerebral injections of PrRP-13 had no effects in both genotypes. Altogether, these results do not support a role for PrRP in the hyperphagia and obesity syndrome of the Zucker rat.
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PMID:Feeding response to a potent prolactin-releasing peptide agonist in lean and obese Zucker rats. 1523 62

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