UMLS:C0038187 - FACTA Search

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

The effects of the stable expression of E1A and/or middle T oncogenes on the proliferative activity of PC Cl3 normal thyroid cells are reported. The proliferation of PC Cl3 cells is mainly regulated by insulin and TSH in a stimulatory way and by somatostatin in an inhibitory fashion. The transformed cell lines, named PC Py and PC E1A Py, show an autonomous pattern of proliferation. The blockade of phosphotyrosine phosphatase activity with vanadate increased the proliferation rate of PC Cl3 under basal and stimulated conditions and completely prevented the inhibitory activity of somatostatin, suggesting that in PC Cl3 cells, a tonic tyrosine phosphatase activity regulates basal and stimulated proliferation, and that a somatostatin-dependent increase in this activity may represent a cytostatic signal. Conversely, in both PC Py and PC E1A Py, vanadate did not modify basal and stimulated proliferation. We analyzed tyrosine phosphatase activity in the different cell lines basally and under conditions leading to the arrest of cell proliferation: confluence (contact inhibition), growth factor deprivation (starvation), and somatostatin treatment. Under basal conditions, tyrosine phosphatase activity was significantly lower in PC Py and PC E1APy cell lines than that in the normal cells. The inhibition of the proliferation induced by contact inhibition or somatostatin treatment was accompanied by an increase in tyrosine phosphatase activity only in PC Cl3 cells. The reduction in tyrosine phosphatase activity in PC E1APy cells correlated with a significant reduction in the expression of R-PTP eta, a tyrosine phosphatase cloned from PC Cl3 cells. Conversely, the expression of another receptor-like PTP, PTP mu, was unchanged. Thus, PTP eta may be a candidate to mediate inhibitory signals (i.e. activation of somatostatin receptors or cell to cell contact) on the proliferative activity of PC Cl3 cells, and the reduction of its expression in the transformed cell lines may lead to an alteration in the control of cell proliferation.
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PMID:Oncogene transformation of PC Cl3 clonal thyroid cell line induces an autonomous pattern of proliferation that correlates with a loss of basal and stimulated phosphotyrosine phosphatase activity. 927 62

Neuropeptide Y is one of the most powerful neurochemical stimulants of food intake known. The neuronal substrate for this action is believed to be the neuropeptide Y-expressing cell population in the hypothalamic arcuate nucleus. In this study, mice homozygous for the anorexia mutation (anx) were investigated histochemically; anx is a recessive mutation that causes decreased food intake and starvation, leading to death 22 days after birth. We were interested to see whether any hypothalamic neurochemical abnormalities could be detected in this genetic model of starvation. By using immunohistochemistry and in situ hybridization, the hypothalamic distributions of neuropeptide Y, cholecystokinin, galanin, and serotonin, all messenger molecules postulated to be involved in the regulation of food intake and energy metabolism, were investigated. Immunoreactivities for somatostatin, the excitatory amino acid aspartate, and acetylcholinesterase were also studied. Neuropeptide Y-like immunoreactivity was increased markedly in arcuate cell bodies and decreased in terminals in the arcuate nucleus and other hypothalamic regions of anx/anx mice compared with normal litter mates. In situ hybridization for neuropeptide Y mRNA, however, showed no significant difference in gene expression in the arcuate nucleus. In addition, immunoreactivities for aspartate, acetylcholinesterase, and somatostatin in the arcuate nucleus were decreased in anx/anx mice. For cholecystokinin, galanin, and serotonin, no certain differences in hypothalamic immunoreactivity could be seen. These data suggest that a defect in neuropeptide Y-ergic signalling in the arcuate neurons may contribute to the failure to thrive in anx/anx mice.
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PMID:Hypothalamic neurohistochemistry of the murine anorexia (anx/anx) mutation: altered processing of neuropeptide Y in the arcuate nucleus. 933 Nov 76

The aim of this study was to quantify the effect of oral refeeding on the synthesis of soluble and contractile proteins in skeletal muscles, and to evaluate to what extent diet components (carbohydrate, fat, amino acids), hormones (insulin, IGF-I, GIP), Ca2+ flux, polyamine synthesis, cyclooxygenase activity, and muscle innervation are related to activation of protein synthesis at the translational level following oral refeeding. Adult, weight-stable, non-growing mice (C57B1) were used in starvation/refeeding experiments with oral chow. Growing rats (150 g) were used in parenteral refeeding experiments. Protein synthesis was measured in vivo in mixed muscles (phenylalanine flooding), in phasic EDL muscles (in vitro), and in cultured L-6 muscle cells. Overnight starvation reduced synthesis of soluble proteins by 37 +/- 8% (from 0.242 +/- 0.025 to 0.151 +/- 0.009 microgram-1.mg-1) and contractile proteins by 55 +/- 6% (from 0.148 +/- 0.018 to 0.068 microgram-1.mg-1) (P < 0.01). Soluble proteins with a basic net charge were more sensitive to nutrition compared to neutral and acidic proteins. Somatostatin treatment before refeeding attenuated muscle protein synthesis by 15% (P < 0.02). Mechanical stimulation of the gastrointestinal tract (bulk feeding) did not activate protein synthesis in muscles, while i.v. or i.p. provision of nutrients did. Oral refeeding normalized rates of protein synthesis within 3 h (P < 0.01), independently of intact muscle innervation, Ca2+ flux, polyamine synthesis, and cyclooxygenase activity in the skeletal muscles, while it was dependent on a complete substrate composition of the oral diet. Our results support the hypothesis that amino acids, probably in concerted action with locally produced tissue IGF-I, stimulate protein synthesis in skeletal muscles during refeeding.
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PMID:The role of diet components, gastrointestinal factors, and muscle innervation on activation of protein synthesis in skeletal muscles following oral refeeding. 1031 56

The turnover of the epithelium of the gastrointestinal tract is regulated by a balance between cell multiplication and cell loss. We examined the effects of starvation on apoptosis in endocrine and other epithelial cells of rat antropyloric mucosa. Apoptosis was determined by the TUNEL reaction combined with immunocytochemical staining for gastrin and somatostatin. Apoptotic cell morphology was determined by bisbenzimide staining for DNA. Both gastrin and somatostatin cells showed a significantly lower apoptotic index than the general epithelium. This agrees with the longer turnover kinetics of gastric endocrine cells. On starvation, the apoptotic index of the general epithelium and of the gastrin but not of the somatostatin, cells increased significantly. This was prevented by the nitric oxide synthase (NOS) inhibitor L-NAME but not by its inactive stereoisomer D-NAME. Immunoreactive neuronal NOS was present in somatostatin cells, in nonendocrine cells predominating in the surface and pit epithelium, and in rare nerve fibers. Endothelial cell NOS was present in vessels, whereas the inducible isoform was barely detectable. Thus, endogenous NOS isoforms participate in regulating antropyloric epithelial apoptosis during starvation. The close paracrine relation between somatostatin cells and gastrin cells suggests that the former regulates apoptosis of the latter through release of NO.
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PMID:Apoptosis in rat gastric antrum: evidence that regulation by food intake depends on nitric oxide synthase. 1065 93

Evidence suggests the involvement of growth hormone (GH), insulin-like growth factor I (IGF-I) and somatostatin in the pathology associated with diabetic retinopathy. We examined the effect of IGF-I on human retinal endothelial cell (HREC) survival following high glucose exposure and serum starvation, examined the signalling pathways mediating the protective effect of IGF-I on HREC, and characterized somatostatin receptor-induced retinal endothelial cell death. IGF-I (10 ng/ml) protected HREC from apoptosis induced by high glucose and serum starvation. Wortmannin, a specific inhibitor of phosphotidylinositol-3-kinase, blocks the ability of IGF-I to protect HREC from apoptosis. Incubation of HREC in serum-free medium caused a time-dependent increase in c-Jun N-terminal kinase (JNK) activity, and continuous culture of HREC in the presence of IGF-I or vascular endothelial growth factor (VEGF) prevented JNK activation and arrested apoptosis. Activation of tyrosine kinase receptors results in extracellular signal-related kinase (ERK) activation and activation of ERK is required for proliferation. Both IGF-I and VEGF produced a time- and concentration-dependent increase in the activation of ERK. Type 2 and type 3 somatostatin receptors have been implicated in cell-cycle arrest and apoptosis. Activation of the type 3 receptor in HREC resulted in cell death. These studies suggest that IGF-I is critical for HREC survival, and that somatostatin analogues acting through the type 3 receptor have direct effects on retinal endothelial cells. Furthermore, it appears that the therapeutic efficacy of somatostatin analogues lies not only in systemic inhibition of GH, but also in modulating local growth factor effects.
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PMID:Modulation of retinal endothelial cell behaviour by insulin-like growth factor I and somatostatin analogues: implications for diabetic retinopathy. 1152 89

Somatostatin, a peptide distributed widely throughout the gut, inhibits a variety of gastrointestinal functions. We previously reported that fasting for 48 h increased gastric somatostatin peptide and mRNA content. Thus, somatostatin could contribute to the inhibition of gastric G cells during fasting. To investigate the effect of fasting on intestinal somatostatin, we determined tissue somatostatin concentration by radioimmunoassay, somatostatin mRNA expression by Northern analysis and reverse transcription polymerase chain reaction (RT-PCR), and mRNA expression for somatostatin receptor subtypes (sst) 1-5 by RT-PCR in ileum and colon of rats either freely fed or food-deprived for 48 h. In the colon, fasting increased somatostatin concentration, somatostatin mRNA expression, and mRNA expression for two receptor subtypes (sst2 and sst3). In the ileum, no change of somatostatin peptide concentration and receptor subtype mRNA expression was demonstrated; only somatostatin mRNA expression was augmented by fasting. These results suggest that in rat colon, fasting for 48 h increases somatostatin synthesis and receptor subtype expression. These changes may be important in maintaining homeostasis during starvation.
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PMID:Food deprivation enhances somatostatin and somatostatin receptor subtype expression in rat colon. 1283 6

The peptide hormone ghrelin binds to the GH secretagogue receptor (GHS-R), stimulates GH secretion, and promotes adipogenesis. However, continuous GHS infusion does not stimulate skeletal growth and is associated with desensitization to further GH secretagogue treatment. In this study, 7-d intermittent (i.e. every 3 h) infusion of ghrelin, or the GH secretagogue, GH-releasing peptide-6, in the moderately GH- deficient transgenic growth-retarded rat, augmented GH secretion, leading to a sustained acceleration in skeletal growth. In contrast, continuous infusion of ghrelin, or GH-releasing peptide-6, suppressed the amplitude of spontaneous GH secretory episodes and produced only a transient increase in body weight gain. The reduction in GH secretion seen with continuous GHS-R activation was not associated with a desensitization of the pituitary to GH-releasing factor or to down-regulation of hypothalamic GHS-R mRNA expression. Continuous ghrelin treatment elicited an increase in somatostatin mRNA expression in the periventricular nuclei. Thus, exposure to continuously elevated circulating ghrelin may be responsible for the suppression of GH secretion reported in rats after prolonged starvation.
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PMID:Pattern-dependent suppression of growth hormone (GH) pulsatility by ghrelin and GH-releasing peptide-6 in moderately GH-deficient rats. 1296 77

In this study we investigated comparative morphology of the endocrine pancreas of several species belonging to the family Gekkonidae and apoptotic processes of the pancreas which may be correlated to the seasonal cycle. The following species of the family Gekkonidae were studied: Phelsuma lineata, P. madagascariensis, P. dubia, P. abotti, Gekko gecko, G. vittatus, and Geckonia chazaliae. In all these species the pancreas consisted of large and medium islets as well as endocrine cells which were scattered throughout the acinar cells. Exocrine parenchyma consisted of tubuli-acini. Four mayor cell types were identified in the endocrine pancreas, using immunocytochemistry: glucagon-immunoreactive (A) cells, insulin-immunoreactive (B) cells, somatostatin-immunoreactive (D) cells, and pancreatic polypeptide immunoreactive (PP) cells. In the endocrine pancreas the amount of A cells and B cells was either equal or a prevalence of A cells was observed. In the wet season the pancreatic morphology presented normal features with very rare apoptotic cells. The animals belonging to the genus Phelsuma taken in the dry season (July) showed numerous vacuolated, Caspase 3, 9 and 11-immunoreactive acinar and some endocrine cells containing picnotic nuclei which were positive to tunel reaction. The animals belonging to the genus Gekko taken at the end of the dry season (October) exhibited strongly vacuolated, Caspase 3, 9 and 11-immunoreactive endocrine and some acinar cells containing nuclei which were positive to tunel reaction. These apoptosis events could be a reaction in response to stress mechanisms, such as a starvation period during the dry season.
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PMID:Morphology of the pancreas of some species belonging to the genera Phelsuma and Gecko (family Gekkonidae): evidence of apoptotic process during the seasonal cycle. 1676 10

In the myocardium and skeletal muscles of rats deprived of food for 2 days, basal activity of adenylate cyclase decreased, while the sensitivity of adenylate cyclase signaling system to the stimulating effects of non-hormonal agents (guanine nucleotides and NaF) and beta-agonist isoproterinol modulating adenylate cyclase through stimulating G proteins increased. In starving organism, the regulatory effects of hormones realizing their effects through inhibitory G proteins (somatostatin in the myocardium and bromocryptin in the brain) weakened. Their inhibitory effects on forskolin-stimulated adenylate cyclase activity and stimulating effects on binding of guanosine triphosphate decreased. In the brain of starving rats, the differences in the sensitivity of the adenylate cyclase signaling system to hormones and nonhormonal agents were less pronounced than in the muscle tissues, which attested to tissue-specific changes in the functional state of this system under conditions of 2-day starvation.
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PMID:Changed sensitivity of adenylate cyclase signaling system to biogenic amines and peptide hormones in tissues of starving rats. 1825 40

Full-length complementary deoxyribonucleic acid sequences encoding pituitary adenylate cyclase activating polypeptide (PACAP)/PACAP-related peptide (PRP) and preprosomatostatin 1 (PPSS 1) were cloned from Atlantic cod (Gadus morhua) hypothalamus using reverse transcription and rapid amplification of complementary deoxyribonucleic acid ends. Semi-quantitative reverse transcriptase polymerase chain reaction shows that PRP/PACAP mRNA and PPSS 1 mRNA are widely distributed throughout cod brain. During development, PRP/PACAP and PPSS 1 were detected at the 30-somite stage and pre-hatching stage, respectively, and expression levels gradually increased up to the hatched larvae. PPSS 1, but not PRP/PACAP, appeared to be affected by food availability during early development. In juvenile cod, PPSS 1 expression levels increased and remained significantly higher than that of control fed fish throughout 30 days of starvation and during a subsequent 10 days refeeding period. In contrast, PRP/PACAP expression levels were not affected by 30 days of food deprivation, but a significant increase in expression levels was observed during the 10 days refeeding period in the experimental food-deprived group as compared to the control fed group. Our results suggest that PRP/PACAP and PPSS 1 may be involved in the complex regulation of growth, feeding and metabolism during food deprivation and refeeding in Atlantic cod.
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PMID:Cloning, tissue distribution and effects of food deprivation on pituitary adenylate cyclase activating polypeptide (PACAP)/PACAP-related peptide (PRP) and preprosomatostatin 1 (PPSS 1) in Atlantic cod (Gadus morhua). 1913 91

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