Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-like growth factor-I (IGF-I) has been purified from chicken serum and sequenced. The peptide has eight amino acid substitutions when compared with human IGF-I: serine26, leucine38, histidine39, histidine40, lysine41, glutamine50, isoleucine64, and proline67. Chicken IGF-I (cIGF-I) has been measured using a radioimmunoassay with a human IGF-I (hIGF-I) standard and an antibody raised against hIGF-I. In this assay the cross-reactivity of cIGF-I was approximately 50% with respect to hIGF-I and the cross-reactivity of chicken IGF-II was 1.7% with respect to chicken IGF-I. To determine whether binding proteins in chicken plasma can artifactually interfere with IGF-I measurements as they do in mammals, chicken plasma was fractionated by molecular sieve chromatography at acid pH. When the fractions corresponding to the binding protein region were included in the IGF-I radioimmunoassay, essentially no apparent IGF-I was detected, indicating that the binding proteins did not interfere. This result, together with the finding that IGF-I in acid-ethanol extracts of chicken plasma produced parallel dose-response curves to pure cIGF-I and hIGF-I, allows the reliable measurement of cIGF-I in such extracts. The concentrations of IGF-I in plasma from male birds increased two- to threefold between 1 and 7 weeks after hatching to achieve 30-45 ng/ml. Smaller increases were found in female chickens from a higher value at 1 week. No diurnal pattern of IGF-I levels could be detected. In 4-week-old birds, the plasma concentration of the peptide fell from nearly 40 to 15 ng/ml after 24 hr of starvation and to 9 ng/ml 20 hr later. These effects are very similar to those described for mammals and strongly suggest that the regulation of IGF-I is conserved during evolution, notwithstanding the lower plasma concentrations of the growth factor in chickens.
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PMID:Chicken insulin-like growth factor-I: amino acid sequence, radioimmunoassay, and plasma levels between strains and during growth. 227 67

We have reported previously that levels of insulin-like growth factor I (IGF-I) and IGF-II in fetal sheep plasma decrease with maternal starvation and increase following an infusion of glucose to the starved fetus, while a fetal infusion of insulin elevates UGF-I alone. We now report the changes in the circulating IGF-II/M6P receptor and plasma IGF binding proteins (IGFBPs), as measured by western blotting and ligand blotting, respectively, in fetus and mother during this study. In fetal plasma, the circulating IGF-II/mannose-6-phosphate (M6P) receptor, IGFBP-3 and IGFBP-4 were reduced during starvation. While circulating IGF-II/M6P receptor and IGFBP-4 levels were increased following the fetal insulin or glucose infusion, IGFBP-3 was unchanged and increased only after 48 h of maternal refeeding. Both IGFBP-1 and IGFBP-2 increased with starvation but while IGFBP-1 levels returned to control values following both insulin and glucose infusion, levels of IGFBP-2 were not reduced significantly by either infusion or by refeeding. In maternal plasma, levels of IGFBP-3 and IGFBP-4 decreased while IGFBP-1 and IGFBP-2 increased after 48 h of starvation. Levels of each IGFBP were unaltered following the fetal infusions but returned to values obtained during the control period after refeeding. These data show that each of the IGF carrier proteins is sensitive of changes in nutrition, either acutely, such as IGFBP-1, or chronically, as for IGFBP-3. This suggests that the circulating IGF-II/M6P receptor and the IGFBP's may modulate IGF activity in the fetus during different nutritional states.
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PMID:Circulating insulin-like growth factor II/mannose-6-phosphate receptor and insulin-like growth factor binding proteins in fetal sheep plasma are regulated by glucose and insulin. 752 43

The IGF regulatory system has been shown to mediate mitogenic effects during normal growth and tumor proliferation. The bioavailability of both IGF-I and IGF-II is regulated by at least six specific IGF binding proteins (IGFBPs). Whereas IGFBP-3 is the main IGFBP postnatally, IGFBP-2 is the predominant IGFBP during fetal life. In addition, IGFBP-2 is expressed in a range of tumor cell lines. In order to investigate the IGF regulatory pathway in malignancies we analyzed by RIA serum samples of 49 children with leukemia, Non-Hodgkins' Lymphoma (NHL) or solid tumors at the time of diagnosis. Serum concentrations of IGF-I (mean/range: -2.4/0.3 to -9.9 SDS), IGF-II (-2.5/0.2 to -5.6 SDS) and IGFBP-3 (-1.3/2.2 to -6.8 SDS) were significantly decreased, but IGFBP-2 (3.2/-0.9 to 8.6 SDS) was elevated. Both absolute as well as SDS values of IGF-I, -II and the sum of IGF-I and IGF-II (r = -0.49, p < 0.01) were inversely correlated with IGFBP-2. Serum levels of the growth factors IGF-I and IGF-II were significantly decreased in different types of malignancies to concentrations usually seen only in patients with growth hormone deficiency or during starvation. However, the elevated levels of IGFBP-2 in 70% of our patients exceeded by far those in growth hormone deficiency. Furthermore, in this study we could demonstrate that serum levels of IGF-I and IGF-II were inversely correlated to IGFBP-2 independent on the type of malignancy, indicating a common regulatory mechanism of the IGF signaling pathway in these diseases.
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PMID:[Serum concentrations of insulin-like growth factors (IGF)-I and IGF-II and IGF binding proteins (IGFBP)-2 and IGFBP-3 in 49 children with ALL, NHL or solid tumors]. 756 58

Maternal malnutrition adversely affects fetal body and brain growth during late gestation. We utilized a fetal brain cell culture model to examine whether alternations in circulating factors may contribute to reduce brain growth during maternal starvation; we then used specific immunoassay and western blotting techniques, and purified peptides to investigate the potential role that altered levels of insulin-like growth factors (IGFs) and IGF binding proteins (IGFBPs) may play in impaired growth during maternal nutritional restriction. Fetal, body, liver, and brain weight were reduced after 72 hr maternal starvation, and plasma from starved fetuses were less potent than fed fetal plasma in stimulating brain cell growth. Circulating levels of IGF-I were reduced in starved compared to fed fetuses, while levels of IGF-II were similar in both groups. In contrast, [125I]-IGF-I binding assay demonstrated an increase in the availability of plasma IGFBPs following starvation. Western ligand blotting and densitometry indicated that levels of 32 Kd IGFBPs were 2-fold higher in starved compared to fed fetal plasma. Immunoblotting and immunoprecipitation with antiserum against rat IGFBP-1 confirmed that heightened levels of immunoreactive IGFBP-1 accounted for the increase in 32 Kd IGFBPs in starved plasma. Levels of 34 Kd BPs, representing IGFBP-2, were unaffected by starvation. Reconstitution experiments in cell culture showed that IGF-I promoted fetal brain cell growth, and that when they were supplemented with IGF-I, the growth promoting activity of starved fetal plasma was restored to fed levels. These changes were measured using MTT to assess mitochondrial reductase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin-like growth factors and binding proteins in the fetal rat: alterations during maternal starvation and effects in fetal brain cell culture. 851 Jul 96

We investigated the effect of restoration of normoglycaemia or normoinsulinaemia in fetuses of starved ewes on plasma IGF-I and IGF-II concentrations. Paired maternal and fetal blood samples were taken during an initial 2-day control period, after 48 h of maternal starvation, during 24 h fetal infusion of glucose (n = 6) or insulin (n = 4) while maintaining maternal starvation and after 48 h maternal refeeding. After 48 h starvation maternal and fetal plasma IGF-I, insulin and blood glucose fell (maternal IGF-I 38.9 +/- 3.6 to 16.4 +/- 1.8 nM and fetal IGF-I 13.2 +/- 0.8 to 7.1 +/- 0.7 nM, both P < 0.05). Fetal plasma IGF-II also fell (147.8 +/- 9.1 to 112.2 +/- 3.8 nM, P < 0.05), but maternal plasma IGF-II rose (71.8 +/- 6.3 to 88.8 +/- 9.2 nM, P = 0.10). Fetal glucose replacement raised fetal plasma IGF-I (11.4 +/- 1.2 nM), IGF-II (149.7 +/- 6.5 nM), insulin and blood glucose to near control values (all P < 0.05). Fetal insulin replacement raised fetal plasma IGF-I (9.0 +/- 0.6 nM) and insulin (all P < 0.05) while IGF-II (105.2 +/- 8.4 nM) and blood glucose remained depressed. Neither fetal infusion had any significant effect on maternal plasma IGF-I (13.1 +/- 1.6 nM), IGF-II (77.5 +/- 8.7 nM), insulin or blood glucose. After 48 h maternal refeeding fetal IGF-I (12.4 +/- 0.4 nM), fetal IGF-II (158.4 +/- 8.9 nM), maternal IGF-II (67.1 +/- 3.0 nM), maternal and fetal insulin and glucose had returned to near control values in both groups. Maternal IGF-I remained below control values (24.7 +/- 2.5 nM, P < 0.05). The data suggest that fetal IGF-I and IGF-II are independently regulated in the fetal circulation. While glucose plays an important role in the regulation of both IGF-I and IGF-II, the influence of glucose on fetal IGF-I is likely to be mediated by insulin, whereas for IGF-II the effect of glucose is insulin-independent.
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PMID:Fetal insulin-like growth factor (IGF)-I and IGF-II are regulated differently by glucose or insulin in the sheep fetus. 871 37

Multiple myeloma cell lines express functional receptors for insulin-like growth factors (IGFs) and several cell types that make up the bone marrow microenvironment produce these cytokines. This suggests that IGFs may play a role in survival and/or expansion of the malignant clone within the marrow in patients with multiple myeloma. We tested the effects of these growth factors on myeloma cells challenged with dexamethasone. Dye exclusion and MTT assays demonstrated that both IGF-I and IGF-II protected the 8226 and dox-40 myeloma cell lines and three primary myeloma cultures from dexamethasone-induced cytotoxicity in a dose-dependent fashion. Morphologic studies of target cells and their nuclei as well as DNA electrophoresis confirmed the IGFs afforded protection against dexamethasone-induced apoptosis. Insulin also protected but was less impressive and required much higher concentrations. IGFs also protected against cycloheximide-induced apoptosis but were ineffective against serum starvation, topoisomerase II inhibitors, or anti-fas antibodies. IGF-induced protection against dexamethasone was not associated with any alteration in quantitative or qualitative expression of BCL-2, BAX or BCL-X proteins. These data indicate that insulin-like growth factors may play a role in maintenance of the malignant clone in patients with myeloma by protecting tumour cells from apoptotic death.
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PMID:Multiple myeloma cells are protected against dexamethasone-induced apoptosis by insulin-like growth factors. 916 10

High-density lipoprotein-binding protein (HBP) plays a pivotal role in the endocrine regulation of both lipids and cholesterol. This first study of the zebrafish (Danio rerio) HBP gene in a piscine provides information on the complex molecular events that regulates lipid and cholesterol functions in fish, and allows a comparison with starvation and hormonal regulation. One identical zebrafish HBP cDNA clone was obtained from a 24-h-old zebrafish cDNA library. Zebrafish HBP is composed of 1273 amino acids as residues. The 1273-aa of HBP has 87.8% and 87.0% similarities to human and chicken HBP, respectively. Real-time reverse transcription polymerase chain reaction (RT-PCR) analysis showed that HBP is highly expressed in the 36 h of the developmental stage after fertilization as compared to other stages. As to tissue-specific expression, the HBP is highly expressed in the fin, liver and ovary. In the starvation experiment, results show significant differences between the control group and the group after 3-week starvation. After injecting GH, IGF-I, IGF-II or insulin, no significant differences were shown between the control and the experimental groups. These results suggest that in vivo HBP expression is not regulated by the insulin family or by growth hormone, but other factors present during the starvation may down- or up-regulate the HBP. Although the exact function of the HBP is unknown, its high expression in the liver and ovary suggests a role for this molecule in the cumulative efficiency of fish intake of food or lipid transfer; these results can possibly be applied to aquaculture in the near future.
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PMID:Molecular cloning and functional analysis of zebrafish high-density lipoprotein-binding protein. 1294 45

The effects of aquaculture related stressors on circulating levels of GH, IGF-I and for the first time, IGF-II in Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss) were investigated. Specifically, circulating growth factor levels were measured in four different experiments. Two 24 h confinement stressor procedures, (one with Atlantic salmon, the other with rainbow trout); following a hypo-osmotic stressor (freshwater bath) in salt water acclimated, adult, Atlantic salmon; and during a 22 day starvation and re-feeding protocol with juvenile Atlantic salmon. Handling and confinement resulted in significant decreases in circulating levels of all three growth factors in Atlantic salmon, and IGF-I and IGF-II (but not GH) in rainbow trout. A 2-3 h freshwater bath to remove gill parasites on a commercial Atlantic salmon aquaculture operation caused a significant decrease in circulating GH and IGF-I concentrations, but no significant change in IGF-II concentration, 2 days post bathing. Starvation for a period of 15 days in Atlantic salmon resulted in a significant increase in circulating GH levels and a significant decrease in circulating IGF-I and IGF-II. Re-feeding of starved fish for 7 days resulted in a significant decrease in GH to the concentration measured in continually fed fish, however re-feeding did not change plasma levels of IGF-I and IGF-II relative to continually starved fish. The results presented here confirm previously observed handling and confinement stressor induced effects on GH and IGF-I and, for the first time, on IGF-II in salmonids. Furthermore this study confirms the nutritional regulation of GH, IGF-I and IGF-II in juvenile Atlantic salmon.
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PMID:Effects of aquaculture related stressors and nutritional restriction on circulating growth factors (GH, IGF-I and IGF-II) in Atlantic salmon and rainbow trout. 1686 Oct 22

Feeding time is a major synchronizer of many physiological rhythms in many organisms. Alteration in the nutritional status, specifically fasting, also affects the secretion rhythms of growth hormone (GH) and insulin-like growth factor-I (IGF-I). In this study, we investigated whether the expression patterns for the mRNAs of GH, prolactin (PRL) and somatolactin (SL) in the pituitary gland, and insulin-like growth factor I and II (IGF-I and IGF-II) in the liver of juvenile rabbitfish (Siganus guttatus) follow a rhythm according to feeding time and whether these hormone rhythms changes with starvation. Hormone mRNA levels were determined by real time PCR. The daily expression pattern for the mRNAs of GH, PRL and SL was not altered whether food was given in the morning (10:00 h) or in the afternoon (15:00 h). The daily GH mRNA expression pattern, however, was affected when food was not available for 3 days. In contrast, the daily expression pattern for IGF-I mRNA reaches its peak at roughly 5-6h after feeding. This pattern, however, was not observed with IGF-II mRNA. During 15-day starvation, GH mRNA levels in starved fish were significantly higher than the control fish starting on the 9th day of starvation until day 15. The levels returned to normal after re-feeding. In contrast to GH, PRL mRNA levels in starved fish were significantly lower than the control group starting on the 6th day of starvation until 3 days after re-feeding. SL mRNA levels were not significantly different between the control and starved group at anytime during the experiment. Both IGF-I and IGF-II mRNA levels in starved group were significantly higher than the control fish on the 3rd and 6th day of starvation. mRNA levels of both IGF-I and II in the starved fish decreased starting on the 9th day of starvation. While IGF-I mRNA levels in the starved group continued to decrease as starvation progressed, IGF-II mRNA levels were not significantly different from the control during the rest of the starvation period. The results indicate that aside from GH and IGF-I, PRL and IGF-II are likewise involved in starvation in rabbitfish.
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PMID:mRNA expression patterns for GH, PRL, SL, IGF-I and IGF-II during altered feeding status in rabbitfish, Siganus guttatus. 1697 26

The GH/IGF system is a complex regulation network strongly dependent on nutrient availability. While the effect of starvation on the GH/IGF system has been extensively studied, the time course of events leading to the restoration of GH/IGF system activity after starvation is largely unknown. We, therefore, measured the plasma levels of GH, IGF-I and IGF-II and the expression of the GH/IGF system in liver and muscle. Starvation increased the plasma GH level and 1 day of refeeding completely restored it (1.10 +/- 0.27 vs 1.12 +/- 0.28 ng/ml). Thereafter, plasma GH continued to decrease until day 7 and returned to control values from day 15. Starvation decreased plasma IGF-I and IGF-II and refeeding raised plasma IGF-I only from day 4. In contrast, the plasma IGF-II level doubled after 1 day's refeeding (26.5 +/- 1.9 vs 44.0 +/- 3.4 ng/ml; P < 0.01). Starved fish exhibited higher GH receptor (GHR)1 mRNA abundance in liver and muscle than in controls, whereas GHR2 mRNA abundance was increased only in muscle. In liver, 1 day of refeeding, decreased GHR1 (twofold), but increased GHR2 mRNA abundance (twofold). Thereafter, a progressive return to normal values was observed. Liver IGFBP-4 mRNA abundance was lowered in starved fish followed by a progressive restoration during refeeding. Starvation had no effect on liver IGFBP-2 and IGFBP-6 mRNA abundance, whereas refeeding provoked a peak of IGFBP-2 and IGFBP-6 expression at day 7. In muscle, starvation led to a decrease of the IGFBP-2 mRNA level, which was restored only from day 7. IGFBP-4 mRNA abundance in starved fish was lower than in the controls and refeeding led to a transient upregulation (sevenfold) of IGFBP-4 gene at day 1. IGF-I, IGFBP-5, and IGFBP-related protein 1 (rP1) expression profiles were similar, showing a decrease of expression after starvation, a first peak of expression at day 2, a second peak at day 7, and a return to normal value from day 15. Moreover, IGF-I, IGFBP-5, and IGFBP-rP1 mRNA abundance were positively correlated (r = 0.6-0.8; P < 0.0001). In conclusion, plasma IGF-I was restored later than plasma GH level, which suggests that plasma IGF-I levels cannot account for plasma GH changes. The coordinated regulation of IGF-I, IGFBP-5, and IGFBP-rP1 expression would be a signature for the resumption of myogenic activity.
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PMID:Coordinated regulation of the GH/IGF system genes during refeeding in rainbow trout (Oncorhynchus mykiss). 1706 85


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