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Query: UMLS:C0020505 (
hyperphagia
)
6,116
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of streptozotocin-induced diabetes on weight gain, bone growth and GH secretion have been studied in conscious chronically cannulated male rats. In addition to the classic diabetic symptoms (
hyperphagia
, polydipsia, polyuria, glycosuria and hyperglycaemia), the slow body weight gain (0.95 +/- 0.5 compared with 2.63 +/- 0.5 g/day in non-diabetic controls) was associated with a reduction in bone growth (from 162 +/- 9 to 48 +/- 4 microns/day) and a reduced pituitary GH content (from 1.5 +/- 0.2 to 0.6 +/- 0.06 mg/gland). Serial blood sampling during the day or overnight showed that the normal male episodic GH secretory pattern was obliterated in the diabetic animals. The constant osmotic stimulation of hyperglycaemia and high fluid turnover was reflected in a significant reduction in pituitary oxytocin and arginine vasopressin (AVP) stores. Intravenous insulin infusions (67-1340 pmol/h for 4 or 7 days) caused a large initial weight gain (greater than 20 g in 2 days) followed by a slower increase, and stimulated tibial bone growth (to 100 +/- 16 and 126 +/- 8 microns/day after 4 or 7 days respectively). Insulin infusion for 7 days also increased pituitary GH content (to 1 +/- 0.15 mg/gland), and the normal episodic GH secretory pattern returned. Intravenous infusions of insulin which reduced, but did not completely normalize, blood glucose levels, allowed the resumption of growth and pulsatile GH secretion. Continuous infusion of recombinant human
insulin-like growth factor-I
(hIGF-I) at 1110 pmol/h for 54 h also caused a large initial rise in body weight in diabetic rats (17.1 +/- 1.6 compared with 7.5 +/- 2.8 g in saline-infused controls) due primarily to increased fluid retention. This effect of hIGF-I occurred without any significant changes in pituitary GH, AVP, oxytocin, blood glucose or bone growth over this short-term infusion, nor was there any obvious effect on spontaneous GH secretion, monitored over the entire infusion period. We conclude that the diabetic rat is not a good model to study growth stimulation by short-term insulin or IGF-I treatments because the insulin-like effects of these peptides obscure their specific growth-promoting activities in this model.
...
PMID:Growth hormone and growth in diabetic rats: effects of insulin and insulin-like growth factor-I infusions. 268
In Laron-type dwarfism, a basal growth rate independent of GH and
insulin-like growth factor-I
(
IGF-I
) is maintained. This represents a unique model to further assess the relationship between growth and nutritional status. In a child aged 3 yr, 7 months with severe anorexia, growth was followed in relation to his caloric intake. While receiving 496 Cal/day with 11.6 g/day protein, he grew at a rate of 2 cm/yr (period I). The mean plasma
IGF-I
level was below 0.07 U/mL, insulin was 3.8 +/- 0.2 microU/mL, and blood glucose was 2.9 +/- 0.3 mM/L. During moderate
hyperalimentation
with 1280 Cal/day and 38.3 g/day protein (period II) for 7 months, growth rate increased to 9 cm/yr with no significant change in plasma
IGF-I
and persistence of relative hypoinsulinemia (low response to oral glucose tolerance test). IGF-binding proteins, analyzed by Western ligand blotting, showed that 41.5- and 38.5-kilodalton forms, which were initially low, increased to form a pattern similar to that observed in hypopituitarism. These results suggest that catch-up growth did not require normal circulating GH and/or
IGF-I
activity. Therefore, nutrition contributes to catch-up growth and achievement of potential statural growth by a distinct cellular effect.
...
PMID:Effects of nutrient intake on growth, insulin-like growth factors, and their binding proteins in a Laron-type dwarf. 767 25
Although GH is known to regulate somatic growth during development, its role in regulating adult body composition is less well defined. The effects of GH on individual body compartments--water, fat, protein and mineral--are achieved both by the action of GH and by a GH-induced hormone,
insulin-like growth factor-I
(
IGF-I
). We used a genetic model of GH deficiency, the 'little' (gene symbol lit) mouse, to determine the GH regulation of
IGF-I
and its insulin-like growth factor-binding proteins (IGFBPs) and to define the interaction between these hormones and each body compartment in adults. Our results showed that GH-deficient lit/lit mice had reduced levels of serum
IGF-I
(range 38-130 micrograms/l) compared with normal lit/+ littermates (range 432-567 micrograms/l) between 2 and 52 weeks of age. The lit/lit mice did not experience the fivefold increase in
IGF-I
between 2 and 4 weeks of age that was seen in lit/+ mice. In lit/lit serum, overall binding of 125I-labelled
IGF-I
to the four IGFBPs was reduced, solely in response to a reduced amount of IGFBP-3. No overall differences were found between lit/lit and lit/+ mice in the binding of 125I-labelled
IGF-I
to IGFBP-2, -1 or -4. Age-related declines in
IGF-I
and IGFBPs were seen in lit/lit mice. However, adult levels of
IGF-I
were maintained in lit/+ mice to at least 52 weeks of age, as were levels of IGFBP-1 and -4, while IGFBP-3 and -2 declined with age. With respect to body composition, comparison of lit/lit with lit/+ mice showed that the lit/lit mice were characterized by abnormally large adipose tissue stores and reduced body water, protein and mineral from 2 weeks onward. These changes occurred despite normal energy intake in lit/lit mice up to 52 weeks of age, indicating that neither undernutrition nor
hyperphagia
is characteristic of this GH-induced model of obesity. Furthermore, lit/lit males accrued more body fat beginning at an earlier age than lit/lit females. With advancing age, the per cent body fat increased in both lit/lit and lit/+ mice, while the per cent body water and mineral declined. In lit/lit but not lit/+ mice, per cent protein also declined with age. The changes in body water and fat are attributable to lack of adequate GH in the genetically GH-deficient lit/lit mouse. On the other hand, the changes in body protein are more likely to be effects of
IGF-I
.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Growth hormone deficiency in 'little' mice results in aberrant body composition, reduced insulin-like growth factor-I and insulin-like growth factor-binding protein-3 (IGFBP-3), but does not affect IGFBP-2, -1 or -4. 767 39
Prader-Willi syndrome (PWS) is a genetic disorder characterized by mild mental retardation, short stature, abnormal body composition, muscular hypotonia and distinctive behavioural features.
Excessive eating
causes progressive obesity with increased cardiovascular morbidity and mortality. In the PWS genotype loss of one or more normally active paternal genes in region q11-13 on chromosome 15 is seen. It is supposed that the genetic alteration leads to dysfunction of several hypothalamic centres and growth hormone (GH) deficiency (GHD) is common. PWS is well described in children, in whom GH treatment improves body composition, linear growth, physical strength and agility. Few studies have focused on adults. We examined a cohort of 19 young adults with clinical PWS (13 with positive genotype) and mean BMI of 35 kg/m2. At baseline the activity of the GH-
insulin-like growth factor-I
(
IGF-I
) system was impaired with low GH values, low total
IGF-I
and in relation to the obesity low levels of free
IGF-I
and non-suppressed IGF-binding-protein-1 (IGFBP-1). 2/3 were hypogonadal. Bone mineral density (BMD) was low. Four patients had impaired glucose tolerance and nine patients high homeostasis model assessment (HOMA) index, indicating insulin resistance. Seven patients had a moderate dyslipidemia. The 13 patients with the PWS genotype were shorter and had significantly lower
IGF-I
. Seventeen (9 men and 8 women), subsequently completed a 12 months GH treatment trial, and GH had beneficial effects on body composition without significant adverse effects. The effects were more pronounced in the patients with the PWS genotype. Analysis of peptides involved in appetite regulation showed that leptin levels were high reflecting obesity and as a consequence NPY levels were low. In relation to the patients obesity circulating oxytocin levels were abnormally low and ghrelin levels abnormally high. Thus, oxytocin and ghrelin might be involved in the
hyperphagia
. NPY, leptin and ghrelin did not change during GH treatment. In conclusion this pilot study showed that adults with PWS have a partial GH deficiency, and GH treatment has beneficial effects on body composition in adult PWS without significant side-effects. Larger and longer term studies on the effect of GH replacement in adult PWS are encouraged.
...
PMID:Endocrine and metabolic aspects of adult Prader-Willi syndrome with special emphasis on the effect of growth hormone treatment. 1470 May 52
Compensatory growth (CG) is a period of growth that exceeds normal rates after animals are alleviated of certain growth-stunting conditions. Little is known, however, about the endocrine control of CG in teleosts. So, our aim was to induce CG in juvenile hybrid striped bass (HSB, Morone chrysopsxMorone saxatilis) through manipulations in feeding regimen, and then determine whether changes in circulating
insulin-like growth factor-I
(
IGF-I
) and hepatic
IGF-I
gene expression accompany the CG response. A considerable catabolic state was induced in HSB fed a total of two times over 4 weeks (once each in the 2nd and 3rd week). Negative energy balance was evidenced through weight loss (-3.4% BW) and a significant drop in hepatosomatic index (HSI) from a value of 3.71 to 1.46. Upon realimentation, in which HSB were fed ad libitum 2x/day, a significant CG response was observed over a 4-week period. The CG response was characterized by an elevated specific growth rate,
hyperphagia
, restoration of the HSI and an improvement in feed conversion, all relative to controls that were fed ad libitum 2x/day throughout the experiment. Moreover, the CG response and catabolic state preceding it were marked by a discordant regulation in the expression of hepatic
IGF-I
mRNA and plasma
IGF-I
levels, the latter parameter paralleling changes in growth (r(2)=0.56, P<001). The catabolic state was accompanied by an 82% increase in hepatic
IGF-I
mRNA while levels of plasma
IGF-I
were significantly depressed relative to controls. During the subsequent CG response, however, hepatic
IGF-I
mRNA decreased by 61% while plasma
IGF-I
increased by 86%. The underlying mechanisms for this inverse regulation of hepatic
IGF-I
mRNA and circulating
IGF-I
are uncertain, but may reflect alterations in hepatic
IGF-I
mRNA production, stability, and translation such that hepatic
IGF-I
mRNA is accumulated during periods of catabolism and then rapidly translated and released into circulation when conditions improve. These results suggest that CG can be induced in HSB following a sufficient catabolic state and that systemic
IGF-I
may be an important mediator of the accelerated growth rate characteristic of CG.
...
PMID:Discordant regulation of hepatic IGF-I mRNA and circulating IGF-I during compensatory growth in a teleost, the hybrid striped bass (Morone chrysopsxMorone saxatilis). 1650 Jun 51
Insulin-like growth factor-I
(
IGF-I
) mediates at least some of the anabolic actions of growth hormone (GH). Most
IGF-I
in the circulation is held in a 150 kD complex with IGF binding protein-3 (IGFBP-3). In critical illness there is GH resistance which results in low serum levels of
IGF-I
, although its bioavailability may initially be maintained by serum proteases which modify the IGFBP-3 and reduce its affinity for
IGF-I
. Attempts to treat the protein catabolism associated with critical illness by
hyperalimentation
have had only limited success. The use of recombinant human GH combined with nutritional support increases protein synthesis, but the GH resistance necessitates high doses and GH has adverse direct metabolic effects including insulin resistance and impaired glucose tolerance. Treatment with recombinant human
IGF-I
inhibits proteolysis but may cause hypoglycaemia if administered intravenously. Its effects are often transient and show tachyphylaxis. A combination of GH and
IGF-I
with nutritional support may be the most effective treatment to counter the catabolism associated with critical illness. The costs of such therapy could be offset by shorter hospital stays. Further controlled studies are necessary to establish the clinical effectiveness of growth factor treatment.
...
PMID:The insulin-like growth factor system in critical illness: pathophysiology and therapeutic potential. 1684 52
Prader-Willi syndrome (PWS) is a complex multisystem disorder due to the absent expression of the paternally active genes in the PWS critical region on chromosome 15 (15q11.2-q13). The syndrome is considered the most common genetic cause of obesity, occurring in 1:10,000-1:30,000 live births. Its main characteristics include neonatal hypotonia, poor feeding, and lack of appetite in infancy, followed by weight gain, lack of satiety, and uncontrolled appetite, frequently after the age of 2-3 years. The clinical picture includes short stature, multiple endocrine abnormalities (hypogonadism, growth hormone/
insulin-like growth factor-I
axis dysfunction, hypothyroidism, central adrenal insufficiency), dysmorphic features, scoliosis, osteoporosis, mental retardation, and behavioral and psychiatric problems. Subjects with PWS will become severely obese unless their food intake is strictly controlled. Constant and obsessive food seeking behavior can make life very difficult for both the family and caretakers. Prevention of obesity is mandatory in these patients from the first years of life, because once obesity develops it is difficult to maintain the control of food intake. In fact, PWS subjects die prematurely from complications conventionally related to obesity, including diabetes mellitus, metabolic syndrome, sleep apnea, respiratory insufficiency, and cardiovascular disease. The mechanisms underlying
hyperphagia
in PWS are not completely known, and to date no drugs have proven their efficacy in controlling appetite. Consequently, dietary restriction, physical activity, and behavior management are fundamental in the prevention and management of obesity in PWS. In spite of all available therapeutic tools, however, successful weight loss and maintenance are hardly accomplished. In this context, clinical trials with new drugs have been initiated in order to find new possibilities of a therapy for obesity in these patients. The preliminary results of these studies seem to be encouraging. On the other hand, until well-proven medical treatments are available, bariatric surgery can be taken into consideration, especially in PWS patients with life-threatening comorbidities.
...
PMID:Obesity management in Prader-Willi syndrome: current perspectives. 3032 38
