Modulation of muscle protein synthesis by insulin is maintained during neonatal endotoxemia

Orellana, Renán A.; O'Connor, Pamela M. J.; Bush, Jill A.; Suryawan, Agus; Thivierge, M. Carole; Nguyen, Hanh V.; Fiorotto, Marta L.; Davis, Teresa A.

doi:10.1152/ajpendo.00595.2005

Cited by 22 publications

(35 citation statements)

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“…1). Following previously described techniques, the average basal concentrations of whole blood glucose and plasma branched-chain amino acids (BCAA) were obtained (47). Real-time plasma BCAA concentrations were determined by rapid enzymatic kinetic assay (2) to establish the average basal concentration of BCAA to be used in the subsequent clamp procedure (Fig.…”

Section: Animalsmentioning

confidence: 99%

“…Whole blood glucose, plasma insulin, and total BCAA concentrations were determined as previously described (2,14,47). Whole body net glucose disposal rates (mg glucose ⅐ kg Ϫ1 ⅐ min Ϫ1 ) and whole body net amino acid disposal rates (mmol ⅐ kg Ϫ1 ⅐ h Ϫ1 ) were determined from the infusion rates of dextrose and amino acid solution needed to maintain baseline fasting levels of blood glucose and plasma amino acids, respectively.…”

Section: Animalsmentioning

confidence: 99%

“…In LPSinfused neonatal pigs, the response of muscle protein synthesis to insulin stimulation is maintained largely independently of amino acid stimulation and despite persistent suppression of translation initiation (45)(46)(47), suggesting that insulin accelerates protein synthesis in muscle through an mTOR-independent process (46,47). Our previous studies in LPS-infused neonatal pigs suggest that the response of muscle protein synthesis to insulin may be mediated by the elongation step in peptide formation (46).…”

mentioning

confidence: 96%

“…Our previous studies in LPS-infused neonatal pigs suggest that the response of muscle protein synthesis to insulin may be mediated by the elongation step in peptide formation (46). Conversely, LPS stimulates protein synthesis by enhancing translation initiation in the liver, and insulin does not affect this response (46,47).…”

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confidence: 98%

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Amino acids augment muscle protein synthesis in neonatal pigs during acute endotoxemia by stimulating mTOR-dependent translation initiation

Orellana¹,

Jeyapalan²,

Escobar³

et al. 2007

American Journal of Physiology-Endocrinology and Metabolism

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In skeletal muscle of adults, sepsis reduces protein synthesis by depressing translation initiation and induces resistance to branched-chain amino acid stimulation. Normal neonates maintain a high basal muscle protein synthesis rate that is sensitive to amino acid stimulation. In the present study, we determined the effect of amino acids on protein synthesis in skeletal muscle and other tissues in septic neonates. Overnight-fasted neonatal pigs were infused with endotoxin (LPS, 0 and 10 g ⅐ kg Ϫ1 ⅐ h Ϫ1 ), whereas glucose and insulin were maintained at fasting levels; amino acids were clamped at fasting or fed levels. In the presence of fasting insulin and amino acids, LPS reduced protein synthesis in longissimus dorsi (LD) and gastrocnemius muscles and increased protein synthesis in the diaphragm, but had no effect in masseter and heart muscles. Increasing amino acids to fed levels accelerated muscle protein synthesis in LD, gastrocnemius, masseter, and diaphragm. LPS stimulated protein synthesis in liver, lung, spleen, pancreas, and kidney in fasted animals. Raising amino acids to fed levels increased protein synthesis in liver of controls, but not LPS-treated animals. The increase in muscle protein synthesis in response to amino acids was associated with increased mTOR, 4E-BP1, and S6K1 phosphorylation and eIF4G-eIF4E association in control and LPS-infused animals. These findings suggest that amino acids stimulate skeletal muscle protein synthesis during acute endotoxemia via mTOR-dependent ribosomal assembly despite reduced basal protein synthesis rates in neonatal pigs. However, provision of amino acids does not further enhance the LPS-induced increase in liver protein synthesis. growth; sepsis; mammalian target of rapamycin; eukaryotic initiation factor 4G; ribosomal protein S6 kinase THE SYSTEMIC INFLAMMATORY RESPONSE and sepsis syndromes elicited in the host in response to a bacterial pathogen or its products (35) are associated with hypermetabolism, increased oxygen consumption and energy expenditure, activation of peripheral protein catabolism, and alteration in the flux of metabolic substrates between skeletal muscle and liver (4, 39). Derangements in skeletal muscle glucose and amino acid metabolism evoked by sepsis result from the body's attempt to maintain the balance between peripheral substrate stores and the increased metabolic demands required to activate the immune system and the stress response (4, 37). These adaptative responses are different from those in the normal fasting person in that the immune response is the drive for the metabolic enhancement (11,59). In an attempt to establish homeostasis, amino acids are released from peripheral tissues and shifted to the liver for promotion of hepatic protein synthesis, gluconeogenesis, and urea synthesis (24, 25). Plasma amino acid concentrations in patients with sepsis or disease are lower than in persons without sepsis (17,30,49), and attempts have been made to use the extent of this difference as a marker of the severity and prognosis of the ...

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Section: Animalsmentioning

confidence: 99%

Section: Animalsmentioning

confidence: 99%

mentioning

confidence: 96%

mentioning

confidence: 98%

See 2 more Smart Citations

Amino acids augment muscle protein synthesis in neonatal pigs during acute endotoxemia by stimulating mTOR-dependent translation initiation

Orellana¹,

Jeyapalan²,

Escobar³

et al. 2007

American Journal of Physiology-Endocrinology and Metabolism

Self Cite

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“…The LPS-induced immune response during sepsis profoundly reduces the synthesis of muscle protein in adult animals (32). Septicemia or acute bacterial intoxication may downregulate gene expression involved in protein synthesis (33). A decreased level of total protein in the obese children may underlie the increased risk of infection, and infection may result in an even greater decrease in muscle.…”

Section: Discussionmentioning

confidence: 99%

Lipopolysaccharide-induced cytokine expression pattern in peripheral blood mononuclear cells in childhood obesity

Yue

Liu

2016

Molecular Medicine Reports

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Abstract. Obesity is characterized by the abnormal or excessive fat accumulation that may impair health and extensive increase in body mass index (BMI). Childhood obesity may occur due to disturbances in metabolic regulation, which lead to metabolic syndrome and other diseases. Peripheral blood suspended immune cells are responsible for immune surveillance. The aim of the present study was to map the inflammatory cytokine expression pattern of isolated peripheral blood mononuclear cells (PBMCs) following lipopolysaccharide (LPS) stress in vitro and clinical chemistry parameters in the plasma of subjects. PBMCs were isolated through density gradient ultracentrifugation of the blood from obese infants that would reflect the cytokine response. Isolated PBMCs were cultured in vitro in RPMI-1640 medium and stressed with 1 µg LPS in order to investigate the expression pattern of cytokines, such as interleukin (IL)-2, interferon (IFN)-γ, IFN-α, tumor necrosis factor-α and IL-6 using enzyme-linked immunosorbent assays and reverse transcription-quantitative polymerase chain reaction. Levels of NO, lipid levels, total protein, albumin, marker enzymes aspartate transaminase and alanine transaminase, malondialdehyde (MDA), and reduced glutathione in the plasma were detected. Reduction in the expression of the inflammatory cytokines in PBMCs, reduced protein and globulins, and altered MDA and GSH levels in the plasma were observed. Altered or compromised pro-inflammatory signals from PBMCs in vitro and the clinical chemistry parameters of the plasma suggested that there were compromised immunological responses in obese children compared with matched controls.

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High‐precision mass spectrometric analysis using stable isotopes in studies of children

Schierbeek

Akker

Fay

et al. 2011

Mass Spectrometry Reviews

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The use of stable isotopes combined with mass spectrometry (MS) provides insight into metabolic processes within the body. Herein, an overview on the relevance of stable isotope methodology in pediatric research is presented. Applications for the use of stable isotopes with MS cover carbohydrate, fat, and amino acid metabolism as well as body composition, energy expenditure, and the synthesis of specific peptides and proteins, such as glutathione and albumin. The main focus of these studies is on the interactions between nutrients and the endogenous metabolism within the body and how these factors affect the health of a growing infant. Considering that the early imprinting of metabolic processes hugely impacts metabolism (and thus functional outcome) later in life, research in this area is important and is advancing rapidly. The major fluxes on a metabolic level are the synthesis and breakdown rates. They can be quantified using kinetic tracer analysis and mathematical modeling. Organic MS and isotope ratio mass spectrometry (IRMS) are the two most mature techniques for the isotopic analysis of compounds. Introduction of the samples is usually done by coupling gas chromatography (GC) to either IRMS or MS because it is the most robust technique for specific isotopic analysis of volatile compounds. In addition, liquid chromatography (LC) is now being used more often as a tool for sample introduction of both volatile and non-volatile compounds into IRMS or MS for (13)C isotopic analyses at natural abundances and for (13)C-labeled enriched compounds. The availability of samples is often limited in pediatric patients. Therefore, sample size restriction is important when developing new methods. Also, the availability of stable isotope-labeled substrates is necessary for measurements of the kinetics and concentrations in metabolic studies, which can be a limiting factor. During the last decade, the availability of these substrates has increased. Furthermore, improvements in the accuracy, precision, and sensitivity of existing techniques (such as GC/IRMS) and the development of new techniques (such as LC/IRMS) have opened up new avenues for tackling these limitations.

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Modulation of muscle protein synthesis by insulin is maintained during neonatal endotoxemia

Cited by 22 publications

References 50 publications

Amino acids augment muscle protein synthesis in neonatal pigs during acute endotoxemia by stimulating mTOR-dependent translation initiation

Amino acids augment muscle protein synthesis in neonatal pigs during acute endotoxemia by stimulating mTOR-dependent translation initiation

Lipopolysaccharide-induced cytokine expression pattern in peripheral blood mononuclear cells in childhood obesity

High‐precision mass spectrometric analysis using stable isotopes in studies of children

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