1,414 research outputs found
STRANGE PARTICLE PRODUCTION AND CHARMED PARTICLE SEARCH IN GARGAMELLE v-v EXPERIMENT
Gargamelle Collaboratio
Détermination expérimentale des énergies de liaison des hypernoyaux de nombre de masse A < 16
Doctorat en Sciencesinfo:eu-repo/semantics/nonPublishe
Short term growth hormone (GH) treatment of GH-deficient adults increases body sodium and extracellular water, but not blood pressure
Initiation of GH treatment in adults is frequently complicated by the development of symptomatic fluid retention. To investigate the mechanism and extent of fluid retention that occurs with dosages of GH used in the treatment of GH-deficient adults, we conducted a double blind study in which seven GH-deficient patients (aged 24-74 yr) each received in random order daily sc injections of placebo, a physiological dose of GH (0.04 U/kg, low dose), and a supraphysiological dose of GH (0.08 U/kg, high dose) for 7 days, separated by 21-day washout periods. On the seventh day, measurements were made of serum insulin-like growth factor I, body weight, exchangeable sodium, plasma volume, angiotensinogen, PRA, aldosterone, atrial natriuretic peptide (ANP), and mean 24-h ambulatory heart rate and blood pressure. GH significantly increased mean insulin-like growth factor I levels from 105 ± 11 to 304 ± 45 μg/L during low dose treatment (P = 0.006) and 400 ± 76 μg/L during high dose treatment (P = 0.004). High dose GH caused a 1.2 ± 0.3 kg increase in body weight (P = 0.01) and a 193 ± 65 mmol increase in exchangeable sodium (P = 0.008). Low dose GH had a lesser effect, with no significant increase in body weight, but an increase in exchangeable sodium of 113 ± 37 mmol (P = 0.02). Plasma volume was not significantly affected by GH treatment. Mean supine angiotensinogen levels were significantly higher during both GH treatments compared to placebo (low dose, P = 0.017; high dose, P = 0.028) as were mean supine pRA levels (low dose, P = 0.0002; high dose, P = 0.0025). Supine angiotensin II, aldosterone, and ANP levels were not significantly affected by GH treatment. There was no significant change from placebo in any of the sodium-regulating hormones in the erect posture. The mean 24-h heart rate was significantly higher during low dose (82 ± 2 beats/min; P = 0.0001) and high dose (88 ± 3 beats/min; P = 0.0001) GH treatment than during placebo (67 ± 3 beats/min). However, no significant change in mean 24-h systolic or diastolic blood pressure was observed. In summary, acute GH administration using doses currently employed in treating adults causes a dose-related increase in body weight and body sodium, but no associated increase in blood pressure. We conclude that 1) sodium retention is a physiological effect of GH, but does not cause an acute rise in blood pressure; and 2) the mechanism of sodium and fluid retention is not primarily due to enhanced aldosterone secretion or inhibition of ANP release, but more likely to a direct renal tubular effect
Target fragmentation of the nucleon at high energies
We calculate target fragmentation in pp --> nX and gamma p --> nX reactions in the meson cloud picture of the nucleon. The pp --> nX reaction is used to fix the pn pi(+) form factor for two different models. We take into account the possible destruction of the residual neutron by the projectile. Using the form factor from the hadronic reaction we calculate photoproduction and small x(Bj) electroproduction of forward neutrons at HERA. In photoproduction we observe about the same amount of absorption as in the hadronic reaction. For deep inelastic events screening is found to be negligible. The signature of this color transparency on the nucleon is a shift of the dN/dE(n) distribution to higher neutron energies for photofragmentation
Impairment of liver GH receptor signaling by fasting.
Fasting causes a state of GH resistance responsible for low circulating IGF-I levels. To investigate whether this resistance may result from alterations in the GH signaling pathway, we determined the effects of fasting on the GH transduction pathway in rat liver. Forty-eight-hour fasted or fed male rats were injected with recombinant rat GH via the portal vein. Liver was removed 0 and 15 min after injection. Although GH stimulated Janus kinase 2 (JAK2) phosphorylation in all animals, this was severely blunted in fasted animals. Similarly, the phosphorylation of the GH receptor, although observed in both fasted and fed rats after GH injection, was markedly reduced in fasted rats. A rapid signal transducer and activator of transcription 5 (STAT5) tyrosine phosphorylation was also induced in the liver of fed animals in response to GH. In contrast, in fasted rats only a slight phosphorylated STAT5 signal was observed. The inhibitory effect of fasting on these GH signaling molecules occurred without changes in their protein content. Furthermore, the impairment of the JAK-STAT pathway in fasted animals was associated with increased liver suppressor of cytokine signaling 3 mRNA levels. Although glucocorticoids, which are increased by fasting, may cause GH resistance, adrenalectomy failed to prevent alterations in the JAK-STAT pathway caused by fasting. In conclusion, the GH resistance induced by fasting is associated with impairment of the JAK-STAT signaling pathway. This might contribute to the decrease in liver IGF-I production observed in fasting
RNAseq analysis of fast skeletal muscle in restriction-fed transgenic coho salmon (Oncorhynchus kisutch) : an experimental model uncoupling the growth hormone and nutritional signals regulating growth
Background Coho salmon (Oncorhynchus kisutch) transgenic for growth hormone (Gh) express Gh in multiple tissues which results in increased appetite and continuous high growth with satiation feeding. Restricting Gh-transgenics to the same lower ration (TR) as wild-type fish (WT) results in similar growth, but with the recruitment of fewer, larger diameter, muscle skeletal fibres to reach a given body size. In order to better understand the genetic mechanisms behind these different patterns of muscle growth and to investigate how the decoupling of Gh and nutritional signals affects gene regulation we used RNA-seq to compare the fast skeletal muscle transcriptome in TR and WT coho salmon. Results Illumina sequencing of individually barcoded libraries from 6 WT and 6 TR coho salmon yielded 704,550,985 paired end reads which were used to construct 323,115 contigs containing 19,093 unique genes of which >10,000 contained >90 % of the coding sequence. Transcripts coding for 31 genes required for myoblast fusion were identified with 22 significantly downregulated in TR relative to WT fish, including 10 (vaspa, cdh15, graf1, crk, crkl, dock1, trio, plekho1a, cdc42a and dock5) associated with signaling through the cell surface protein cadherin. Nineteen out of 44 (43 %) translation initiation factors and 14 of 47 (30 %) protein chaperones were upregulated in TR relative to WT fish. Conclusions TR coho salmon showed increased growth hormone transcripts and gene expression associated with protein synthesis and folding than WT fish even though net rates of protein accretion were similar. The uncoupling of Gh and amino acid signals likely results in additional costs of transcription associated with protein turnover in TR fish. The predicted reduction in the ionic costs of homeostasis in TR fish associated with increased fibre size were shown to involve multiple pathways regulating myotube fusion, particularly cadherin signaling.Peer reviewe
GH and the cardiovascular system: an update on a topic at heart
In this review, the importance of growth hormone (GH) for the maintenance of normal cardiac function in adult life is discussed. Physiological effects of GH and underlying mechanisms for interactions between GH and insulin-like growth factor I (IGF-I) and the cardiovascular system are covered as well as the cardiac dysfunction caused both by GH excess (acromegaly) and by GH deficiency in adult hypopituitary patients. In both acromegaly and adult GH deficiency, there is also increased cardiovascular morbidity and mortality possibly linked to aberrations in GH status. Finally, the status of the GH/IGF-I system in relation to heart failure and the potential of GH as a therapeutic tool in the treatment of heart failure are reviewed in this article. © 2014 The Author(s)
Book Review: Comrades Betrayed: Jewish World War I Veterans Under Hitler
This is a pre-copyedited, author-produced version of an article accepted for publication in [German History] following peer review. The version of record [Grady, T. (2021). [Review of the book Comrades Betrayed: Jewish World War I Veterans Under Hitler by M. Geheran]. German History, 39(3), 478–479] is available online at: https://academic.oup.com/gh/article/39/3/478/6308748Book review of Comrades Betrayed: Jewish World War I Veterans Under HitlerUnfundedAAM out of embargo 24/06/2023, output uploaded to CR 30/01/202
Espressione genica indotta dall'ormone somatotropo nei monociti di bambini sani e con deficit di GH
2018 - 2019Somatotropic hormone (GH) has transcriptional effects on the cells of many organs, directly by activating its receptor (GHR) or indirectly through induction of IGF-1 or other mediators. The presence of GHR in almost all cellular tissues makes GH action systemic even if, to date, still not well characterized. The immune system is among the districts where the effect of the somatotropic hormone is documented by mechanisms that are still poorly understood.The primary objective of this study is to determine the transcriptional effect of GH on peripheral blood monocytes. These cells were chosen for the significant expression of GHR on their surface and because they are easily accessible. Although the transcriptional response to somatotropic hormone is specific tissue, the study of the effects of GH on monocytes can serve as a model for other cell types and highlight differences between healthy subjects and those with GH deficiency (GHD).The diagnosis of GHD, during the developmental age, is classically based on the clinical evaluation associated with radiological and laboratory investigations (GH-IGF-1 axis stimulus test). Although provocation tests represent diagnostic gold standard, they have poor reproducibility and accuracy and are characterized by a considerable number of false positives and sometimes negatives.The secondary objective of this study is to identify differential transcriptional profiles between healthy subjects and with GHD.For this purpose, the gene expression of monocytes from healthy children and with GHD was compared in culture, under basal conditions and after stimulation with recombinant GH (rh-GH).Two groups of 12 subjects were selected, group S: healthy male children with normal height and growth rate and group D: children of the same sex and age and suffering from GHD, not yet in replacement therapy. Peripheral blood monocytes were purified by subtraction with monoclonal antibodies and the purity level was determined by laminar flow cytofluorimetry with monoclonal antibodies. Monocytes were grown for 24 hours with and without rh-GH. Total RNA was extracted and frozen until the analysis was performed simultaneously for all the experimental points using the Next Generation Sequencing methodology on Illumina platform. Differential expression of mRNA was analyzed by comparing the monocytes of healthy children and with GHD, stimulated in culture with rh-GH or not stimulated: GHD not stimulated (D-CNTR) vs healthy not stimulated (S-CNTR); healthy non-stimulated (S-CNTR) vs healthy stimulated (S-GH); non-stimulated GHD (D-CNTR) vs stimulated GHD (D-GH); GHD stimulated (D-GH) vs healthy stimulated (S-GH).The analysis between D-CNTR vs S-CNTR groups identified 58 genes with differential expression. Furthermore, 23 genes were modulated by GH in healthy children and 4 genes in children with GHD. Differential analysis between D-GH vs S-GH groups, on the other hand, identified 150 genes with differential expression.Finally, analysis performed by Ingenuity Pathway Analysis software showed a significant increase in NFAT immune pathways and dendritic cell maturation and a consistent increase in the expression of dendritic markers (HLA-A, HLA-C, CCR7) in monocytes of children with GHD compared to healthy children, after stimulation in culture with recombinant GH.In conclusion, the results of this study have demonstrated a clear transcriptional effect of GH on monocytes, direct and indirect through intermediate mediators, suggesting to evaluate the pro-inflammatory status of children with growth hormone deficiency more in depth.Furthermore, this study identified a gene expression profile of monocytes in children with GHD which, once verified in a larger number of patients, could represent an alternative to stimulus tests and guide the diagnosis of GH deficiency.Finally, our study opens future perspectives in order to identify a transcriptional profile or specific genes specific to GHD condition. [edited by Author]XXXII cicl
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