Polymorphism of insulin‐like growth factor 1 gene is associated with breast muscle yields in chickens

Insulin‐like growth factor‐1 (IGF1) plays an important role in muscle development in chickens. In this study, an F2 chicken population of 362 individuals, obtained from an intercross between high breast muscle yield line males and low breast muscle yield (LB) line females, was constructed for investigating the associations between IGF1 gene and breast muscle yields. The IGF1 sequence was investigated in the grandparents. There were no differences in the exon sequences. However, sequence analysis of the IGF1 promoter revealed a known single nucleotide polymorphism (g.570C > A) in LB line grandparents. PCR – restriction fragment length polymorphism was used for screening the F2 population, which was evaluated for body weight (BW), carcass weight (CW), breast muscle weight (BMW), and breast fillet weight (BFW). Significant associations with the polymorphism were detected for BMW, BFW, BMW% and BFW%, although there were no associations between the polymorphism and BW or CW. The allelic effect on BMW, BFW, BMW% and BFW% acted in additive and dominance modes. We confirmed that the g.570C > A polymorphism is significantly associated with breast muscle yields in the F2 population. Therefore, this polymorphism in the IGF1 gene may help improve breast muscle yields by marker‐assisted selection.     

Transcriptomic gene profiling of porcine muscle tissue depending on histological properties

In pig, the histological profile of muscle tissue, especially the proportion of individual fiber types, is one of the main factors affecting meat quality properties. In the present research, RNA sequencing (RNA‐seq) by using next generation sequencing method was applied to estimate the whole gene expression profile of Longissimus lumborum muscle of pigs (Large White breed) differing in the percentage of two fiber types (slow‐twitch (type I) fibers and fast‐twitch glycolytic (type IIB) fibers). The RNA‐seq approach allowed us to identify 355 differentially expressed genes (DEGs) indicated as significant (false discovery rate‐adjusted P < 0.05) using three types of software: DESeq2, edgeR and baySeq. Detected genes and pathways deregulated in muscle depending on tissue microstructure were associated with: metabolic processes – 158 genes; cellular processes – 122; biological regulation – 62; localization – 51; and 35 genes with developmental processes. The DEGs were included in: PI3K‐Akt; FoxO and MAPK signaling pathways, regulation of actin cytoskeleton, lysine degradation and insulin signaling pathway as well as mTOR and Hippo signaling pathways. These results highlight the mainly metabolic pathways related to glucose metabolism and contraction processes of muscle cells. Detection of genes involved in variation of fiber‐type distribution will be useful in understanding of the genetic factors affecting muscle structure, metabolic process and indirectly, meat quality traits.     

Effect of clenbuterol on growth,carcase and skeletal muscle characteristics in broiler chickens

1. Male and female broiler chickens (144 in total) were given diets supplemented with clenbuterol (CB) at 0 (control) and at 1 mg/kg between 28 and 49 d of age to study the effect of CB on growth, carcase and skeletal muscle.

2. CB improved growth in males by increasing daily weight gain and final live weight and by lowering food conversion ratio. In females it changed the carcase composition by reducing abdominal fat pad and by increasing the proportion of protein. Consequently, carcase protein gain was increased in both sexes (11% and 16%, respectively).

3. Skeletal muscle weights were enhanced by between 6% and 22%. Muscle fibre diameters were increased in extensor hallucis longus (EHL) but not in gastrocnemius (GAS) muscle. This increase was more pronounced in females. EHL total muscle fibre number remained unchanged. The proportion of fast‐twitch glycolytic fibres was increased at the expense of fast‐twitch oxidative fibres in males only. Nuclear/cytoplasm and DNA/protein ratios tended to be decreased by CB.

4. From the elevated EHL muscle RNA/DNA, unchanged protein/RNA and translation activity it is suggested that CB stimulated protein synthesis at the pretranslational level. Reduced protein degradation is deduced from decreased neutral calcium‐dependent proteolytic activity.

5. It is concluded that broiler chickens respond to long‐term CB treatment as has been shown in various mammals. However, the sex‐specific response in growth, carcase composition and skeletal muscle cellularity is more clearly apparent in broiler chickens.     

Immunocytochemical localisation of carbonic anhydrase isozyme III in equine skeletal muscle

The location of carbonic anhydrase III (CA-III) in frozen sections of biopsies of Thoroughbred horse skeletal muscle was studied. Fibre types were determined by ATP-ase and succinate dehydrogenase staining. CA-III isozyme was detected using a peroxidase conjugated anti-CA-III antibody. CA-III was found to be localised in slow twitch oxidative fibres (ST), but was also present in fast twitch oxidative (FTH) fibres in small amounts. Fast twitch glycolytic (FT) fibres were stained lightly compared with control sections. The concentrations of CA-III in muscle and liver were 70 micrograms/mg protein and 4 micrograms/mg protein, respectively. CA-I and CA-II were not found in muscle extracts by the double immunodiffusion method.     

In ovo leptin administration accelerates post‐hatch muscle growth and changes myofibre characteristics,gene expression and enzymes activity in broiler chickens

To evaluate the effect of maternal leptin on muscle growth, we injected 0 μg (control, CON), 0.5 μg (low leptin dose, LL) or 5.0 μg (high leptin dose, HL) of recombinant murine leptin dissolved in 100 μl of PBS into the albumen of broiler eggs prior to incubation. The newly hatched chicks were all raised under the same conditions until 21 days of age (D21), when body weight was measured and samples of gastrocnemius muscle were collected and weighed. Myosin ATPase staining was applied to identify myofibre types and measure the cross‐sectional area (CSA) of myofibres. Real‐time PCR was performed to quantify leptin receptor (LEPR), insulin‐like growth factor 1 (IGF‐1), IGF‐1 receptor (IGF‐1R), growth hormone receptor (GHR) and myostatin (MSTN) mRNA expression in the gastrocnemius muscle. The activity of calpains (CAPNs) in the gastrocnemius muscle was measured using a quantitative fluorescence detection kit. Male chickens treated with both high and low doses of leptin had significantly higher (p < 0.05) body weight on D21. The high leptin significantly increased the CSA (p < 0.05) of gastrocnemius muscle in male chickens, which coincided with a 93% increase (p < 0.05) in IGF‐1 mRNA expression. Likewise, the LL dose increased the weight of gastrocnemius muscle in male chickens (p < 0.05), which was accompanied by a 41% down‐regulation (p < 0.05) of MSTN mRNA expression and a decreased activity of CAPNs. However, all these changes were not observed in female chickens. The proportion of myofibre types did not altered. No significant change was detected for LEPR and GHR mRNA expression. These results indicate that in ovo leptin treatment affects skeletal muscle growth in chickens in a dose‐dependent and sex‐specific manner. The altered expression of IGF‐1, MSTN mRNA and activity of CAPNs in skeletal muscle may be responsible for such effects.     

Proteome analysis of whole and water‐soluble proteins in masseter and semitendinosus muscles of Holstein cows

To assess both quantitative and qualitative differences between the slow‐ and fast‐type muscles, masseter (slow) and semitendinosus (fast) from four Holstein cows were analyzed by two‐dimensional difference gel electrophoresis (2D DIGE) and mass spectrometry. The proteome analysis identified 27 spots as 20 proteins in the whole protein fraction extracted with 8 mol/L urea solution, and 16 spots were identified as 11 proteins in the water‐soluble protein fraction. Two slow‐type myofibrillar proteins (myosin light chain‐1 slow‐b and myosin light chain‐2 slow), and aconitase‐2 mitochondria were present at higher levels in the masseter muscle (P < 0.05). Four fast‐type myofibrillar proteins (myosin light chain‐1 fast, myosin light chain‐2 fast, myosin light chain‐3 fast and tropomyosin‐1), and three enzymes of glycolytic pathway (enolase‐3, aldolase‐A and triosephosphate isomerase), were present at higher levels in the semitendinosus muscle (P < 0.05). Our proteome analysis showed that the composition of sarcoplasmic proteins as well as myofibrillar proteins was clearly different between slow‐ and fast‐type muscles.     

Effects of different rearing systems on meat production traits and meat fiber microstructure of Beijing‐you chicken

Beijing‐you is a Chinese local chicken which is raised for both meat and eggs. In the present study, we detected the effects of different rearing systems on growth, slaughtering performances and meat quality of Beijing‐you chickens at 26–40 weeks of age. Six hundred Beijing‐you hens were randomly allocated into two groups at 16 weeks of age and raised in free range or battery cage systems. The body weight, slaughtering performance and meat quality were measured for each group at the ages of 26, 30, 35 and 40 weeks. Some of the traits were dramatically influenced by the two systems, although most of them did not show significant changes. For the meat fiber microstructure, we found that the diameter of thigh and breast muscle fiber in the free range group were significantly increased than in the cage group (P < 0.05) at 26 weeks of age. The ratio of fast muscle fiber in thigh muscle samples of the free range group was significantly reduced compared to that of cage group at both 35 (P < 0.01) and 40 (P < 0.01) weeks of age, indicating that the free range system could promote the transforming of fast muscle fiber to slow muscle fiber.     

倒毛鸡生物学特性、屠宰性能及肉质性状研究

为保护贵州地区倒毛鸡的种质资源和遗传多样性,研究其生长性能和肉用价值,试验对倒毛鸡的生物学特性、屠宰性能及肉品质进行了测定。结果表明:倒毛鸡的蛋重为(42.75±2.18)g,孵化率约为75%。倒毛鸡在0日龄时,公、母鸡之间的体重差异不显著(P0.05),30日龄后差异达显著水平(P0.05),180日龄平均体重公鸡为1 776.12 g、母鸡为1 455.68 g,差异显著(P0.05)。180日龄腹脂率母鸡高于公鸡,而活重、屠体重、半净膛重、全净膛重、胸肌重、腿肌重、屠宰率、全净膛率、腿肌率等性状指标公鸡优于母鸡,差异均显著(P0.05);其他性状指标在性别间差异不显著。公、母鸡腿肌p H值和剪切力均高于胸肌,失水率低于胸肌,公、母鸡之间差异均不显著(P0.05)。品尝实验显示,倒毛鸡肉质细嫩、味道鲜美,比普通土鸡更受欢迎。结论:倒毛鸡具有较好的肉用性能,有较大开发价值和发展前景。     

两种矮小型鸡屠宰性能与肌肉品质比较

对12周龄兴义矮脚鸡和矮脚黄鸡的屠宰性能、常规肌肉品质及肌肉脂肪酸、氨基酸含量进行比较。结果表明:12周龄时,兴义矮脚鸡活重极显著高于矮脚黄鸡(P<0.01),而腿肌率和屠宰率显著低于矮脚黄鸡(P<0.05);肌肉失水率和胸肌纤维直径极显著低于矮脚黄鸡(P<0.01);兴义矮脚鸡除色氨酸外,其余7种必需氨基酸均高于矮脚黄鸡;胸肌亚油酸含量兴义矮脚鸡为17.66%,矮脚黄鸡为15.29%。     

Leucine regulates slow‐twitch muscle fibers expression and mitochondrial function by Sirt1/AMPK signaling in porcine skeletal muscle satellite cells

A previous study demonstrated that leucine upregulates the slow myosin heavy chain mRNA expression in C2C12 cells. However, the role of leucine in slow‐twitch muscle fibers expression and mitochondrial function of porcine skeletal muscle satellite cells as well as its mechanism remain unclear. In this study, porcine skeletal muscle satellite cells cultured in differentiation medium were treated with 2 mM leucine for 3 days. Sirt1 inhibitor EX527, AMPK inhibitor compound C, and AMPKα1 siRNA were used to examine its underlying mechanism. Here we showed that leucine increased slow‐twitch muscle fibers and mitochondrial function‐related gene expression, as well as increased succinic dehydrogenase (SDH) and malate dehydrogenase (MDH) activities. Moreover, leucine increased the protein levels of Sirt1 and phospho‐AMPK. We also found that AMPKα1 siRNA, AMPK inhibitor compound C, or Sirt1 inhibitor EX527 attenuated the positive effect of leucine on slow‐twitch muscle fibers and mitochondrial function‐related gene expression. Finally, we showed that Sirt1 was required for leucine‐induced AMPK activation. Our results provide, for the first time, evidence that leucine induces slow‐twitch muscle fibers expression and improves mitochondrial function through Sirt1/AMPK signaling pathway in porcine skeletal muscle satellite cells.     

Inhibition of PI3K‐Akt‐mTOR signal pathway dismissed the stimulation of glucose on goose liver cell growth

In the formation of goose fatty liver induced by a high‐carbohydrate diet, it is characterized by the quick cell growth of liver. The carbohydrate is mostly digested and absorbed in the small intestine by the form of glucose. Recent studies have suggested a crucial role for PI3K‐Akt‐mTOR pathway in regulating cell proliferation, and then we speculate that PI3K‐Akt‐mTOR pathway may mediate glucose‐induced liver cell proliferation. Goose primary hepatocytes were isolated and incubated in either no addition as a control or glucose or PI3K‐Akt‐mTOR pathway inhibitors or cotreatment with glucose and PI3K‐Akt‐mTOR pathway inhibitors. The results firstly showed that 35 mmol/l glucose stimulated the mRNA level and protein content of factors involved in PI3K‐Akt‐mTOR signal pathway in goose primary hepatocytes. Secondly, 35 mmol/l glucose evidently changed the cell cycle PI index and protein expression of cyclin D1. Meanwhile, the upregulation of 35 mmol/l glucose on the DNA synthesis rate, cell cycle PI index, the mRNA expression, protein content and protein expression of factors involved in the cell proliferation was decreased significantly by the inhibitors of PI3K‐Akt‐mTOR pathway, LY294002, rapamycin or NVP‐BEZ235. In summary, glucose could stimulate the cell proliferation, and the PI3K‐Akt‐mTOR pathway inhibitors could dismiss glucose‐induced the upregulation of cell proliferation in goose primary hepatocyte.     

肉鸡品种对胴体性状和肉质的影响

本研究将清远麻鸡的两个纯系（A和B）与快速生长型AA肉鸡（C）杂交,在3个月的生长时间中测定了杂交品对肉鸡胴体性状、肌肉成分及氨基酸组成的影响。结果：杂交品系肉鸡的体重、屠体重、半净膛重、全净膛重、胸肌和腹脂重量均显著高于纯种品系（P＜0.05）。杂交品系肉鸡的肌纤维密度和剪切力较纯种品系显著提高了6.94%和7.98%（P＜0.05）。肉鸡品系对胸肌粗脂肪、肌苷酸、干物质、水分和粗蛋白质含量的影响均无统计学意义（P＞0.05）。结论：杂交后代的大多数胴体性状高于纯种,各品系的剪切力、肌纤维密度和肉质性状均相似。     

Decorin activates Akt downstream of IGF‐IR and promotes myoblast differentiation

Decorin, a small leucine‐rich proteoglycan, plays an important role in cellular activities through modification of growth factors. It also acts as a signaling molecule to non‐muscle cells through epidermal growth factor receptor or insulin‐like growth factor I receptor (IGF‐IR). However, it is unclear if decorin acts as a signaling molecule to myogenic cells. In this study, we investigated the effect of decorin on the differentiation of myoblasts and the signaling via IGF‐IR to myogenic cells. C2C12 myoblasts cultured in media containing decorin for 72 h showed more extensive formation of multinucleated myotubes than control cells cultured in the same media without decorin. The protein expressions of myogenin and myosin heavy chian were higher in decorn‐treated cells than in control cells. These results suggest that decorin enhances the differentiation of myoblasts. Western blot analysis and immunocytochemistry showed that IGF‐IR was expressed in myoblasts and myotubes. Furthermore, Akt, which is downstream of IGF‐IR, was more phosphorylated in myoblasts cultured in media containing decorin than those in media without decorin. These results suggest that decorin activates Akt downstream of IGF‐IR and enhances the differentiation of myogenic cells.     

IGF-1 stimulates protein synthesis by enhanced signaling through mTORC1 in bovine mammary epithelial cells

Using the MAC-T cell line as a model, the effects of insulin-like growth factor (IGF)-1 on the regulation of protein synthesis through the mammalian target of rapamycin complex 1 (mTORC1) signaling in bovine mammary epithelial cells were evaluated. Global rates of protein synthesis increased by 47% within 30 min of IGF-1 treatment. The effect of IGF-1 on protein synthesis was associated with enhanced association of the eukaryotic initiation factor (eIF) 4E with eIF4G and a concomitant reduction of eIF4E association with eIF4E-binding protein-1 (4E-BP1). There was a progressive increase in the phosphorylation state of ribosomal protein S6 kinase-1, a downstream target of mTORC1 in response to IGF-1. In addition, IGF-1 stimulated mTORC1 kinase activity toward 4E-BP1 in vitro. Phosphorylation on Ser473 of Akt was induced by IGF-1 within 5 min and remained elevated throughout a 30-min time course. The effect of IGF-1 on Akt phosphorylation was also concentration dependent. Activation of Akt by IGF-1 led to increased phosphorylation of tuberous sclerosis complex 2 on Thr1426, without any change in its association with tuberous sclerosis complex 1. Phosphorylation of proline-rich Akt substrate of 40-kDa (PRAS40) at Thr246 was stimulated by IGF-1. The amount of PRAS40 associated with mTORC1 decreased in response to IGF-1, and PRAS40 binding to mTORC1 was inversely related to its phosphorylation level. Overall, these results suggest that activation of the PI3K-Akt pathway by IGF-1 stimulated global protein synthesis in bovine mammary epithelial cells through changes in the phosphorylation and association state of components of the mTORC1 signaling pathway.     

Effects of methionine on muscle protein synthesis and degradation pathways in broilers

This study investigated the hypothesis that supplementation of methionine (Met) to broiler diets increases muscle growth due to regulation of molecular pathways related to protein synthesis and degradation depending on the Met source. Day‐old male Cobb‐500 broilers (n = 240) were phase‐fed three different wheat–soya bean meal‐based basal diets during days 1–10, 11–21 and 22–35. Basal diets (Met‐ group, Met + Cys concentration 15% below NRC recommendations) were supplemented with 0.10% or 0.40% Met either as DL‐Met (DLM) or DL‐2‐hydroxy‐4‐(methylthio) butanoic acid (DL‐HMTBA) (equimolar comparison). Breast muscle weights were lower in the Met‐ group compared to all Met‐supplemented groups and were lower in broilers supplemented with 0.10% of DL‐HMTBA compared to the other groups fed Met‐supplemented diets. However, the expression of genes or relative phosphorylation and thus activation state of proteins involved in the somatotropic axis, the mammalian target of rapamycin (mTOR) pathway of protein synthesis, the ubiquitin–proteasome pathway (UPP) and autophagy–lysosomal pathway of protein degradation, the GCN2/eIF2a pathway involved in the inhibition of protein synthesis and in the myostatin–Smad2/3 pathway involved in myogenesis were not affected by Met source. Feeding diets with suboptimum Met + Cys concentrations, however, decreased expression of GHR and IGF1 in liver and muscle and increased that of MURF1 involved in the UPP in the broiler's muscle at day 10 and 21, while that of FOXO and atrogin‐1 and FOXO phosphorylation remained unaffected. Additionally, suboptimum dietary Met concentrations increased expression of the autophagy‐related genes ATG5 and BECN1 at day 35. Met supplementation neither affected gene expression nor phosphorylation of proteins involved in the GNC2/eIF2a and mTOR pathways. These data indicate that protein synthesis was not affected on the molecular level, while protein degradation was marginally affected by dietary Met dosage.     

Age-related changes in metabolic properties of equine skeletal muscle associated with muscle plasticity

The purpose of the present study was to determine the age-related changes in myosin heavy chain (MHC) composition and muscle oxidative and glycolytic capacity in 18 horses ranging in age from two to 30 years. Muscle samples were collected by excisional biopsy of the semimebranosus muscle. MHC expression and the key enzymatic activities were measured. There was no significant correlation between horse age and the proportions of type-IIA and type-IIX MHC isoforms. The percentage of type-I MHC isoforms decreased with advancing age. Muscle citrate synthase activity decreased, whereas lactate dehydrogenase activity increased with increasing age. Muscle 3-OH acyl CoA dehydrogenase activity did not change with ageing. The results suggest that, similar to humans, the oxidative capacity of equine skeletal muscle decreases with age. The age-related changes in muscle metabolic properties appear to be consistent with an age-related transition in MHC isoforms of equine skeletal muscle that shifts toward more glycolytic isoforms with age.     

Elevated cyclin D1 expression is governed by plasma IGF‐1 through Ras/Raf/MEK/ERK pathway in rumen epithelium of goats supplying a high metabolizable energy diet

The objective of this study was to explore the underlying mechanism of insulin‐like growth factor 1 (IGF‐1)–caused cell proliferation of rumen epithelium in goats fed a high metabolizable energy (ME) diet. In this study, young goats were fed either a low ME [LL, n = 9, ME: 0.57 MJ/kg^0.75/day] or high ME [HL, n = 9, ME: 1.00 MJ/(kg^0.75/day)] diet for 42 day. The time duration of G₁‐phase was shortened as a result of enhanced expression of cyclin D1 mRNA in the HL group (p < 0.05). It was suggested that a high ME diet promoted cell transition from G₀/G₁ to S‐phase via cyclin D1. The level of phosphorylation of ERK was higher in HL than LL group (p < 0.05). In cell culture, the ERK was phosphorylated by IGF‐1 treatment. The proliferative effects of insulin‐like growth factor 1 (IGF‐1, 25 ng/ml) on [³H] thymidine (TdR) incorporation into DNA and on cyclin D1 protein expression of rumen epithelial cells were inhibited by PPP (the inhibitor of type 1 IGF receptor) (p < 0.05) and ERK inhibitor (p < 0.05) in vitro. Thus, IGF‐1 up‐regulated cyclin D1 expression and accelerated G₁‐phase progression in the cell cycle through Ras/Raf/MEK/ERK pathway in rumen epithelium of goats.     

IGF-I receptors in embryonic skeletal muscle of three strains of chickens selected for differences in growth capacity.

IGF-I receptors in embryonic skeletal muscle from three strains of chickens have been characterized. Specific receptors for IGF-I were present in breast and thigh skeletal muscle of 13 d chicken embryos. Dissociation rate constants (Kd) for breast muscle of a slow growing layer strain (Leghorn), an intermediate growth strain (Synthetic Whiterock), and a fast growing broiler strain (Cornish) were 3.24, 3.04, and 2.68 nM, respectively. Kd for the thigh muscle of the slow, intermediate and fast growing strains were 3.30, 2.90 and 3.29 nM, respectively. Kd values were not significantly different between strains or between tissues (p greater than .05). Receptor concentration (Bmax) in breast muscle of slow, intermediate and fast growing strains were 1.22, 1.08 and 0.92 pM/mg protein, respectively. Receptor concentration in thigh muscle of the slow, intermediate and fast growing strains were 0.95, 0.76, and 0.79 pM/mg protein, respectively. Bmax values were significantly different (p less than .05) between breast muscle (1.08 +/- .05 pM/mg protein) and thigh muscle (.84 +/- .05 pM/mg protein). IGF-I receptor number for breast muscle although not statistically significant (p greater than .05), indicated a trend towards differences between the slow growing Leghorn strain and the faster growing Cornish strain. The results suggest that strains of birds with different growth capacity may have different densities of IGF-I receptors in breast skeletal muscle plasma membranes.     

Different responses of protein synthesis to refeeding in various muscles of fasted chicks

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.