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1.
In mammals, insulin regulates S6K1, a key enzyme involved in the control of protein synthesis, via the well-documented phosphoinositide-3'kinase (PI3K) pathway. Conversely, S6K1 is activated by insulin in avian muscle despite the relative insulin insensitivity of the PI3K pathway in this tissue. Mitogen-activated protein kinase (MAPK) cascade is another insulin sensitive pathway. The aim of this study was to explore the potential involvement of the ERK1/2 MAPK pathway in the control of p70 S6 kinase (S6K1) in avian species. Firstly, we characterized ERK1/2 MAPK in various chicken tissues. ERK2 was the only isoform detected in avian species whatever the tissue studied. We also showed that ERK2 is activated in vivo by insulin in chicken muscle. The regulation and the role of ERK2 in insulin signaling were next investigated in chicken hepatoma cells (LMH) and primary myoblasts. Insulin stimulation led to ERK2 and S6K1 phosphorylation, and concomitantly increased kinase activity. U0126, an inhibitor of the ERK MAPK pathway, completely abolished insulin-induced S6K1 phosphorylation and activity in chicken myoblasts, whereas its effect was only partial in LMH cells. In conclusion, these results show that ERK1/2 MAPK is involved in the control of S6K1 by insulin in chicken cells, particularly myoblasts.  相似文献   

2.
Insulin induces protein accretion by stimulating protein synthesis and inhibiting proteolysis. However, the mechanisms of regulation of protein metabolism by insulin are complex and still not completely understood. The use of approaches combining hyperinsulinemic clamp and isotopic methods, or measurement of the activation of intracellular kinases involved in insulin signaling, in addition to the use of different animal models in a comparative physiology process, provide better understanding of the potential regulation of protein metabolism by insulin. Studies using the clamp technique in lactating goats have shown a clear inhibitory effect of insulin on proteolysis, with an interaction between the effects of insulin and amino acids. Such studies revealed that the insulin-inhibited proteolysis is improved in lactating goats, this adaptative process limiting the mobilization of body protein under the conditions of amino acid deficit which occurs during early lactation. Insulin signaling studies in growing chickens have also provided some interesting features of insulin regulation compared to mammals. Refeeding or insulin injection leads to the activation of the early steps of insulin receptor signaling in the liver but not in the muscle. Muscle p70 S6 kinase, a kinase involved in the insulin activation of protein synthesis, was found to be markedly activated in response to insulin and to refeeding, suggesting that other signaling pathways than those classically described in mammalian muscles may be involved in signal transduction. Finally, although the role of insulin has been doubtful and has long been considered to be minor in ruminants and in avian species, this hormone clearly regulates protein metabolism in both species.  相似文献   

3.
Because of rare glucagon‐like peptide‐2 (GLP‐2) receptor (+) cells within the gut mucosa, the molecular mechanisms transducing the diverse actions of GLP‐2 remain largely obscure. This research identified the naturally occurring intestinal cell lines that endogenously express GLP‐2R and determined the molecular mechanisms of the protective effects of GLP‐2‐mediated tight junctions (TJ) in GLP‐2R (+) cell line. (i) Immunohistochemistry results showed that GLP‐2R is localised to the epithelia, laminae propriae and muscle layers of the small and large bowels of newborn piglets. (ii) GLP‐2R expression was apparent in the cytoplasm of endocrine cells in IPEC‐J2 cell lines. (iii) The protein expressions of ZO‐1, claudin‐1, occludin, p‐PI3K, p‐Akt, p‐mTOR and p‐p70S6K significantly (p < 0.05) increased in GLP‐2‐treated IPEC‐J2 cells, and all of them significantly (p < 0.05) decreased when LY‐294002 or rapamycin was added. GLP‐2 improves intestinal TJ expression of GLP‐2R (+) cells through the PI3k/Akt/mTOR/p70S6K signalling pathway.  相似文献   

4.

  1. The experiment was conducted to study whether insulin receptor substance 1 (IRS1) / Protein kinase B (Akt)/target of the rapamycin (TOR) signalling pathway activation stimulates crop milk protein synthesis in the domestic pigeon (Columba livia).

  2. Crop milk was collected from ten 1-d-old squabs and analysed for nutrient content. During the non-breeding period and the first day of lactation, blood samples were collected from 5 pairs of breeding pigeons and the levels of prolactin and insulin were determined.

  3. Crop samples were collected from 5 pairs of breeders at d 14 and 16 of the incubation period and d 1, 3 and 7 of the lactation period. Crop samples were evaluated for changes in crop weight and thickness and changes in the expression patterns of IRS1/Akt/TOR signalling pathway–related proteins.

  4. The results demonstrated that prolactin induces a gradual increase in the relative weight and thickness of the crop, with crops reaching a maximum size at the third day of lactation.

  5. Pigeon crop milk contains 64.1% crude protein and 29.7% crude fat based on dry weight.

  6. Serum prolactin and insulin levels in the lactation period were significantly higher than those in the non-breeding period. Compared with non-breeding pigeons, the expression of the phosphorylated IRS1 phosphorylated Akt, phosphorylated TOR, phosphorylated ribosomal protein S6 kinase, phosphorylated S6, phosphorylated eukaryotic initiation factor 4E binding protein 1 and eukaryotic initiation factor 4E were significantly up-regulated in the crop of pigeons in the lactation period.

  7. In conclusion, prolactin might induce changes in crop tissue and form the physiological structure for crop milk synthesis. Furthermore, the synthesis of crop milk protein is regulated by activation of the IRS1/Akt/TOR signalling pathway.

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5.
The purpose of the present study was to investigate potential changes in expression and activation of Ser/Thr protein kinases as well as in the level of insulin-like growth factor-binding proteins (IGFBPs) in skeletal muscle of streptozotocin (STZ)-diabetic mice. We have examined the basal and insulin-mediated phosphorylation of protein kinase B (PKB), protein kinase Czeta (PKCzeta), p70(S6k), mitogen-activated protein kinase (MAPK)/p90(rsk) pathway and the expression of IGFBP-3, -4, and -5 in mice selected for body weight gain (line C) and reduction (line L). Apart from IGFBP-3 level, which was higher in C line, the diabetes-associated changes in signaling components examined in present work were similar in both lines of mice. The expression of PKB in skeletal muscle was similar in control and diabetic mice. Insulin increased the Ser473 phosphorylation of PKB in both experimental groups however, in diabetic mice the insulin-dependent PKB phosphorylation was more evident in comparison to control group. Neither protein level nor insulin-stimulated p70(S6k) activation were modified by STZ-diabetes. Basal PKC phosphorylation was augmented in muscle of diabetic mice and it was not increased following insulin injection. No apparent differences in levels of p42(MAPK), p44(MAPK) and p90(rsk) protein in gastrocnemius muscles between control and STZ-treated mice were observed. Basal phosphorylation of p90(rsk) in diabetic mice was markedly elevated in comparison to the control. In muscle of C-line mice, insulin stimulated the p90(rsk) activity to the same extent in both experimental groups (+22% over appropriate basal value). Insulin-mediated stimulation of p90(rsk) in muscle of L-line mice amounted to +26% and +14%, for control and diabetic mice, respectively. Protein level of IGFBP-3 in muscle of diabetic C-line mice was augmented by approx. 28% when compared to the control, whereas the expression of IGFBP-4 and -5 was not modified by STZ-diabetes. In conclusion: diabetes-associated changes in the insulin signaling in skeletal muscle involve: 1) enhanced insulin-dependent phosphorylation of PKB; 2) increased basal phosphorylation of PKC and its resistance to stimulatory action of insulin; 3) increased basal phopshorylation of p90(rsk), and 4) augmented IGFBP-3 protein level, which can potentially contribute to disruption of anabolic signals in this tissue.  相似文献   

6.
促分裂原活化的蛋白激酶(MAPK)通路主要包括胞外信号调控激酶(ERK)、p38MAPK和氨基末端蛋白激酶(JNK)三条途径,参与调节细胞增殖、分化、凋亡及细胞间的功能同步等过程,是细胞信号转导方面最为活跃的研究领域之一。研究显示MAPK也参与脂肪细胞的分化调节并发挥重要作用。ERK和p38MAPK信号通路对脂肪细胞分化的调节在不同的实验模型中表现为正调控和负调控两种不同形式;而另一成员JNK能使胰岛素受体底物1的丝氨酸发生磷酸化,进而干扰胰岛素信号,从而抑制骨髓间充质干细胞(BMSCs)的成脂分化,即对脂肪细胞分化发挥负调控作用。论文就MAPK信号通路在脂肪细胞分化中的功能进行综述,为脂类代谢性疾病的诊断和治疗提供参考。  相似文献   

7.
Tumor necrosis factor (TNF)-alpha is a proinflammatory cytokine considered to play an important role in muscle catabolism, but little is known about the mechanisms of its action. The aim of the present study was therefore to examine the effect of TNF-alpha pretreatment on glucose uptake and protein synthesis as well as the cellular content and phosphorylation of protein kinase B (PKB), p70S6k, Mitogen Activated Protein (MAP) kinase and p90rsk in mouse C2C12 myotubes stimulated with insulin. To determine whether interleukin (IL)-1beta might be involved in the catabolic action of TNF-alpha, the effects of IL-1beta were also tested. Experiments were performed on mouse C2C12 myoblasts subjected to differentiation in the presence of increasing concentrations of TNF-alpha (0.1-100 ng/ml) or IL-1 (5-50 ng/ml) for 5 or 6 days. Insulin (100 nmol/l) markedly stimulated glucose uptake in C2C12 myotubes (202.6% of control). This effect was profoundly attenuated by pretreatment with TNF-alpha at a concentration of 1 ng/ml (122.2% of control) and completely abolished by higher cytokine concentrations. Pretreatment of cells with TNF-alpha at a concentration of 1 ng/ml was also effective in diminishing the effect of insulin on protein synthesis, whereas higher cytokine concentrations prevented hormonal stimulation of protein synthesis in C2C12 myotubes. Pretreatment with TNF-alpha caused a significant decrease in PKB protein content. Insulin-mediated activation of protein kinase B was significantly diminished in cells differentiated in the presence of TNF-alpha. Treatment of C2C12 cells with insulin led to the gel mobility retardation of p70S6k indicating its phosphorylation and activation. In cells differentiated in the presence of TNF-alpha an approximately 2-fold decrease of insulin-mediated p70S6k phosphorylation was noted. Six-day differentiation of myogenic cells in the presence of TNF-alpha did not affect the protein content of p42MAPK, p44MAPK, p90rsk and phosphorylation of p42MAPK. Neither glucose uptake nor protein synthesis stimulated by insulin were affected significantly by pretreatment with IL-beta. Preincubation of myogenic cells with IL-1beta did not modify either the protein content of PKB and p70S6k or the insulin-stimulated phosphorylation of these kinases. In conclusion: i) high concentrations of TNF-alpha, but not IL-beta, present in the extracellular environment during myoblast differentiation prevent the stimulatory action of insulin on glucose uptake and protein synthesis; ii) insulin resistance induced by TNF-alpha in C2C12 myogenic cells could be associated with the decreased insulin-mediated phosphorylation of PKB and p70s6k, but not with the basal phosphorylation of p42MAPK.  相似文献   

8.
The aim of the present study was to examine the effect of high glucose alone and in combination with high insulin on IGF-I-stimulated protein synthesis and the activation of IGF-I signaling pathways in mouse C2C12 myogenic cells. Experiments were performed on mouse C2C12 myoblasts subjected to differentiation under normal glucose (5 mmol/I), high glucose alone (15 mmol/l), or in combination with high insulin (50 nmol/l). Six-day differentiation under high glucose alone or in combination with high insulin resulted in IGF-I resistance, which was manifested by the abolition of the stimulatory effect on protein synthesis. IGF-I caused the activation of protein kinase B (PKB) in control C2C12 myogenic cells. Pretreatment with high glucose did not affect PKB phosphorylation whereas in cells differentiated under high glucose and high insulin PKB activation by IGF-I was markedly decreased as compared with control (differentiation under normal glucose). Neither the p70(S6k) protein content nor the pattern of IGF-I-mediated kinase activation was affected by pretreatment with high glucose, however high glucose and high insulin in combination caused an impairment of the p70(S6k) phosphorylation, in relation to the control. An increase in p42(MAPK) phosphorylation occurred under normal glucose conditions after the stimulation with IGF-I. The MAP kinase was not phosphorylated in response to IGF-I in cells preincubated with high glucose alone or in combination with high insulin. The pattern of p90(rsk) activation by IGF-I was not modified by pretreatment with high glucose, however no activation of p90(rsk) was found in cells pretreated with high glucose and high insulin in combination. In conclusions: 1) high glucose abolishes the stimulatory action of IGF-I on protein synthesis and it does not affect the activation of PKB, p70(S6k), and p90(rsk) in mouse C2C12 myogenic cells, 2) high glucose with high insulin in combination also abolish the stimulatory effect of IGF-I, but this phenomenon is accompanied by attenuated PKB and p70(S6k) activation and the lack of activation of p90(rsk), 3) apart from PKB, p70(S6k) and p90(rsk), other kinases are probably involved in the regulation of IGF-I-mediated protein synthesis in myogenic cells.  相似文献   

9.
试验旨在研究酵母表达鸡IFN-α抗传染性法氏囊病病毒(IBDV)的效果及对其淋巴细胞信号分子PI3K和NF-κB p65的影响。将40只10日龄非免疫雏鸡随机分为IFN-α组和空白对照组,持续注射给药3 d后,于第3次给药后第1天开始每天心脏采血,持续3 d,并于最后一次采血后对雏鸡进行攻毒,在攻毒后开始每天心脏采血,连续3 d。通过MTT法检测淋巴增殖活性情况,ELISA测定不同时间段淋巴细胞中PI3K的水平、细胞中总NF-κB p65、细胞核中NF-κB p65蛋白表达含量及IBDV抗原量。结果显示,与对照组相比,攻毒前,IFN-α对淋巴增殖活性、细胞中PI3K和NF-κB p65的表达具有极显著地促进作用(P<0.01);与攻毒前相比,攻毒后第1和2天IFN-α组淋巴增殖活性、细胞中PI3K和NF-κB p65的表达极显著增加(P<0.01),IFN-α对IBDV-Ag具有极显著地抑制效果(P<0.01)。这些结果表明,IFN-α可通过增加PI3K激活NF-κB信号通路以增强机体免疫反应,并对IBDV-Ag有显著的抑制作用,本试验为IFN-α免疫增强和抗病毒作用的研究提供科学依据。  相似文献   

10.
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11.
It has been reported that phosphatidylinositol 3-kinase (PI3K)-protein kinase B (PKB) pathway plays a crucial role in the meiotic resumption and progression to the metaphase II (MII) stage of oocytes. However, the role of this pathway in meiotic arrest at the MII stage (cytostatic activity) is not well understood. In this study the effect of a PI3K inhibitor, LY294002, on the MAPK and p34cdc2 kinase activities of matured porcine oocytes was examined. After maturation culture, both the MAPK and p34cdc2 kinase activities in the oocytes were gradually decreased in a time-dependent manner. Although 25 µmol/L LY294002 did not affect either the MAPK or p34cdc2 kinase activities, 50 µmol/L LY294002 suppressed the PKB phosphorylation and slightly decreased MAPK activity, but not the p34cdc2 kinase activity. Therefore the effect of 10 µmol/L Ca2+ ionophore which was reported as inducing a transient decrease of p34cdc2 kinase but not MAPK activities, was also examined in LY294002-treated oocytes. By additional treatment with LY294002 after Ca2+ ionophore, both the MAPK and p34cdc2 kinase activities were decreased in a time-dependent manner, concomitantly with improvement of pronuclear formation. Therefore, we concluded that PI3K is involved in the maintenance of MAPK activity in matured porcine oocytes.  相似文献   

12.
High-yield dairy cows are usually subject to high-intensive cell metabolism and produce excessive reactive oxygen species (ROS). Once ROS is beyond the threshold of scavenging ability, it can induce oxidative stress, imperilling the reproductive performance of cows. The study was to investigate the effects of vitamin E (VE) on H2O2-induced proliferation and apoptosis of bovine granulosa cells and the underlying molecular mechanism. Granulosa cells were pretreated with VE for 24 hr and then treated with H2O2 for 6 hr. The results showed that VE treatment decreased the intracellular ROS levels, increased the MDA content, and improved the antioxidant enzyme activity in a dose-dependent manner. Furthermore, VE treatment promoted the proliferation and inhibited apoptosis in granulosa cells by up-regulation of CCND1 and BCL2 levels and down-regulation of P21, BAX, and CASP3 levels. The cytoprotective effects of VE were attributed to the activation of the NRF2 signalling pathway. Knockdown of the NRF2 impaired the cytoprotective effects of VE on granulosa cells. Besides, the PI3K/AKT and ERK1/2, but not the p38 signalling pathway is involved in the regulation of VE-mediated cell proliferation and apoptosis. The PI3K/AKT inhibitor LY294002 and ERK1/2 inhibitor SCH772984 inhibited the VE-induced granulosa cell proliferation and promoted apoptosis, whereas the p38 inhibitor SB203580 had the opposite effects. These results were confirmed by proliferation and apoptosis-related gene expression at mRNA and protein levels. The results also showed that the PI3K/AKT inhibitor LY294002 and ERK1/2 inhibitor SCH772984 inhibited VE-induced NRF2, GCLC, GCLM, and HO-1 expression, whereas the p38 inhibitor SB203580 not. Overall, the results demonstrated that VE-regulated granulosa cell proliferation and apoptosis via NRF2-mediated defence system by activating the PI3K/AKT and ERK1/2 signalling pathway.  相似文献   

13.
The female sex hormone estrogen exerts anti‐inflammatory effects. The G‐protein‐coupled estrogen receptor (GPER) has been recently identified as a novel membrane‐type estrogen receptor that can mediate non‐genomic estrogenic effects on many cell types. We previously demonstrated that GPER inhibits tumor necrosis factor alpha‐induced expression of interleukin 6 (IL‐6) through repression of nuclear factor‐kappa B (NF‐κB) promoter activity using human breast cancer cells. Although several reports have indicated that GPER suppresses Toll‐like receptor‐induced inflammatory cytokine expression in macrophages, the molecular mechanisms of the inhibition of cytokine production via GPER remain poorly understood. In the present study, we examined GPER‐mediated inhibition of IL‐6 expression induced by lipopolysaccharide (LPS) stimulation in a mouse macrophage cell line. We found that the GPER agonist G‐1 inhibited LPS‐induced IL‐6 expression in macrophage cells, and this inhibition was due to the repression of NF‐κB promoter activity by GPER. G‐1 treatment also decreased the phosphorylation of inhibitor of κB kinases. Among the mitogen‐activated protein kinases, the phosphorylation of c‐jun N‐terminal kinase (JNK) was increased by G‐1. These findings delineate the novel mechanism of the inhibition of LPS‐induced IL‐6 through GPER‐activated JNK‐mediated negative regulation of the NF‐κB pathway in murine macrophage cells, which links anti‐inflammatory effects to estrogen.  相似文献   

14.
This review presents a brief overview on the mechanism of insulin action on glucose metabolism at the molecular basis in ruminants. For ruminants, an exact mechanism of insulin on glucose metabolism is still rudimentary, but it is clear that originally, if not all, the mechanism of insulin action in ruminants was the same as in other species. Like non‐ruminants, the insulin‐sensitive glucose transporter GLUT 4 is thought to be a key‐protein in the control of glucose uptake and metabolism in ruminants, and insulin regulates glucose transport by stimulating the translocation of GLUT 4 from an intracellular membrane pool to the plasma membrane in adipocytes and muscles. Moreover, insulin‐induced GLUT 4 translocation is activated through the common intracellular signaling pathway of insulin phosphatidylinositol 3‐kinase (PI3‐kinase) signaling pathway rather than the mitogen activated protein kinase (MAP kinase)‐dependent signaling pathway. However, GLUT 4 mRNA and protein, and insulin‐induced GLUT 4 translocation on adipocytes and muscles in ruminants are lower than those in rodents and human subjects. Furthermore, insulin‐induced PI3‐kinase activation is reduced concomitantly with the lower content of insulin receptor substrate‐1 (IRS‐1) in ruminants. In spite of normal status, a resistance to the stimulatory action of insulin on glucose metabolism in ruminants as compared to non‐ruminants may be due to, at least in part, the lower content of GLUT 4 and the lower capacity of insulin signal transduction, resulting to the lower glucose transport activity.  相似文献   

15.
为筛选出检测牛瑟氏泰勒虫更为特异、敏感的PCR方法,本试验以牛瑟氏泰勒虫p23和p33基因、HSP70基因及18S rRNA基因为靶基因进行PCR检测,并从其敏感性、特异性和临床样本检出率等方面进行了比较。结果显示,4种靶基因引物对牛瑟氏泰勒虫的检测均有较高的特异性,当牛瑟氏泰勒虫基因组DNA浓度为127 ng/μL时,p23、p33、HSP70及18S rRNA4种基因的最小检测量分别为1×105、1×105、1×104和1×106copies/μL;检测临床样本阳性检出率分别为30.19%(16/53)、39.62%(21/53)、47.17%(25/53)和54.72%(29/53)。表明以18SrRNA基因为靶基因的PCR方法从敏感性和临床检出率上明显优于其他3种基因。  相似文献   

16.
Neonatal growth is characterized by a high protein synthesis rate that is largely due to an enhanced sensitivity to the postprandial rise in insulin and amino acids, especially leucine. The mechanism of leucine’s action in vivo is not well understood. In this study, we investigated the effect of leucine infusion on protein synthesis in skeletal muscle and liver of neonatal pigs. To evaluate the mode of action of leucine, we used rapamycin, an inhibitor of mammalian target of rapamycin (mTOR) complex-1 (mTORC1). Overnight-fasted 7-day-old piglets were treated with rapamycin for 1 hour and then infused with leucine (400 μmol·kg -1 ·h -1 ) for 1 hour. Leucine infusion increased the rate of protein synthesis, and ribosomal protein S6 kinase 1 (S6K1) and eukaryotic initiation factor (eIF) 4E-binding protein-1 (4E-BP1) phosphorylation in gastrocnemius and masseter muscles (P < 0.05), but not in the liver. The leucine-induced stimulation of protein synthesis and S6K1 and 4E-BP1 phosphorylation were completely blocked by rapamycin, suggesting that leucine action is by an mTORC1-dependent mechanism. Neither leucine nor rapamycin had any effect on the activation of the upstream mTORC1 regulators, AMP-activated protein kinase and protein kinase B, in skeletal muscle or liver. The activation of eIF2a and elongation factor 2 was not affected by leucine or rapamycin, indicating that these two pathways are not limiting steps of leucine-induced protein synthesis. These results suggest that leucine stimulates muscle protein synthesis in neonatal pigs by inducing the activation of mTORC1 and its downstream pathway leading to mRNA translation.  相似文献   

17.
1. The change in the rate of protein synthesis of different muscles, concentrations of plasma insulin, plasma insulin-like growth factor-I (IGF-I) and other plasma components were investigated after refeeding in fasted chicks. 5.2 g of the complete diet was refed. This was the maximum that could be force-fed with water. 2. The fractional synthesis rates (FSR) of breast (M. pectoralis major) and leg (M. gastrocnemius) muscles were measured after injection of L-[2, 6-(3)H]phenylalanine. Plasma insulin and IGF-I concentration were determined by radioimmunoassay. 3. In the breast muscle, FSR was significantly reduced by 2-d fasting. The FSR had recovered completely after 1 h of refeeding and was maintained until 6 h. The change in FSR after refeeding was associated with the change in ribosomal efficiency (K(RNA); absolute synthesis rate per unit RNA), while no change in ribosomal capacity (C(S); RNA: protein ratio) was observed. 4. In the leg muscle, FSR was decreased by 2-d fasting and increased gradually toward 6 h after refeeding but did not reach the level of the fed control. In contrast to the breast muscle, no significant changes in Cs and K(RNA) in the leg muscle were observed. 5. Plasma glucose concentration increased significantly at 1 h after refeeding but returned to the fasted level after 24 h. Plasma insulin concentration in chicks refed for 1 h was higher than in the fasted group. There was no significant change in plasma IGF-I concentration. 6. These results suggest that the FSR of breast muscle was more sensitive to refeeding than that of leg muscle which may be explained, in part, by differences in sensitivity to the change in circulating plasma insulin concentration after refeeding.  相似文献   

18.
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19.
Objective-To determine whether feeding-induced activation of translation initiation factors, specifically protein kinase B, ribosomal protein S6 kinase (S6K1), ribosomal protein S6 (rpS6), and eukaryotic initiation factor 4E binding protein 1, in horses is affected by age. Animals-6 yearlings, six 2-year-old horses, and 6 mature horses. Procedures-After an 18-hour period of feed withholding, horses consumed a high-protein meal (2 g/kg) at time 0 and 30 minutes (postprandial state) or continued to have feed withheld (postabsorptive state). Blood samples were collected for the duration of the experimental procedures and used to determine plasma concentrations of glucose, insulin, and amino acids. At 90 minutes, biopsy specimens were collected from a gluteal muscle and used to measure phosphorylation of translation initiation factors. Results-Plasma glucose, insulin, and amino acid concentrations were elevated for the postprandial state, compared with results for the postabsorptive state, regardless of age. Phosphorylation of protein kinase B, S6K1, rpS6, and eukaryotic initation factor 4E binding protein 1 was increased for the postprandial state. There was an effect of age with increased phosphorylation of S6K1 at Thr(389) and rpS6 at Ser(235/236) in the yearlings and mature horses, compared with results for the 2-year-old horses. Conclusions and Clinical Relevance-Food consumption resulted in an increase in the activation of translation initiation factors, with the highest degree of responsiveness in the yearlings. This indicated that increased muscle accretion seen during growth could be a result of increased rates of muscle protein synthesis in response to a meal stimulus.  相似文献   

20.
为了阐明ERK(extracellular signal-regulated protein kinases)1/2通路在传染性支气管炎病毒(Infectious bronchitis virus,IBV)复制过程中的作用以及双特异性磷酸酶6(dual specificity phosphatase 6,DUSP6)对ERK的反馈性负向调控在IBV复制过程中的作用。本研究通过Western blot、Northern blot检测发现:IBV感染Vero和H1299细胞可导致ERK1/2的磷酸化水平和DUSP6表达均上调;利用MEK1/2特异性抑制剂U0126处理病毒感染的细胞后,可明显下调ERK1/2的磷酸化,同时抑制病毒的增殖;利用DUSP6的特异性抑制剂BCI抑制DUSP6的活性或者用siRNA阻断DUSP6的表达后,再感染IBV,发现ERK1/2的磷酸化水平增高,病毒蛋白的表达上调。综上,推测IBV感染细胞激活ERK1/2信号通路,有助于病毒的复制,同时,细胞通过诱导表达DUSP6,负向调控ERK1/2的磷酸化水平,抑制病毒增殖。  相似文献   

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