Skeletal muscle hypertrophy, insulin-like growth factor 1, myostatin and follistatin in healthy and sarcopenic elderly men: The effect of whole-body resistance training

Negaresh, Raoof; Ranjbar, R; Baker, Julien S.; Habibi, Abdolhamid; Mokhtarzade, Motahare; Gharibvand, Mohammad Momen; Fokin, Andrej

doi:10.4103/ijpvm.ijpvm_310_17

Cited by 40 publications

(40 citation statements)

References 37 publications

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“…In the present study, a significantly positive relationship was seen between the expression of myostatin gene and the insulin resistance in diabetic rats, and decreased expression of myostatin gene was associated to improved insulin resistance. These findings were similar to findings from other studies that reported high levels of myostatin in diabetic (35,36), obese (11,37) and elder (23) patients (associated with metabolic-cardiovascular risk factors such as insulin resistance). Hitle et al (2010) reported that both muscle and plasma myostatins decreased by aerobic exercises and this decrease was linked to improvement of insulin resistance in diabetic participants.…”

Section: Discussionsupporting

confidence: 91%

“…For example, Jensky et al (2010) showed that seven sessions of extreme extrinsic resistance training with one leg and introversion one as open chain knee isokinetic movements included no effects on myostatin mRNA levels in young women (22). In contrast, Negaresh et al (2019) investigated effects of whole-body resistance training in healthy elderly people and patients with sarcopenia and showed that resistance training decreased myostatin in both groups (23). Willoughby (2004) demonstrated that heavy resistance training in healthy individuals for 12 weeks was associated to increased expression of mRNA and myostatin protein (24).…”

Section: Introductionmentioning

confidence: 99%

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Effects of Eight Weeks of Resistance Training on Muscle Myostatin Gene Expression and Insulin Resistance in Male Wistar Rats with Type 2 Diabetes

et al. 2019

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Background and Objectives: Muscular atrophy is one of the indicators of uncontrolled diabetes. The aim of the current study was to investigate effects of eight weeks of resistance training (RT) on myostatin gene expression in soleus muscles and insulin resistance in streptozotocin (STZ)-induced diabetic rats. Materials and Methods: In general, 14 Wistar male rats weighing 200-250 g and aging 8-10 weeks were selected for the study. Then, a newly prepared diabetic STZ solution was intraperitoneally injected to the rats. Animals were randomly divided into two groups of controls and resistance training diabetes. The resistance training protocol was carried out at ten repetitions as climbing up the ladder with 100% of the body weight for eight weeks, five days a week. Nearly 48 h after the last training session, soleus muscles of the rats were removed and the myostatin gene expression was assessed. Statistical data analysis was carried out using independent t-test at a significance level of P <0.05. Results: Results of the independent t-test showed that the mean expression rate of myostatin protein genes in rat soleus muscles of the resistance training group was significantly lower than that of the control group (P = 0.013). Furthermore, levels of glucose, insulin and insulin resistance were significantly lower in resistance training group, compared to those in control group (P-values of 0.001, 0.005 and 0.001, respectively). A significantly positive correlation was seen between the mean expression of myostatin protein gene and the blood glucose (P = 0.012, r = 0.539), as well as the expression of myostatin protein gene and the insulin resistance (P = 0.015, r = 0.525). Conclusions: Results of this study indicated that resistance training decreased myostatin expression and could improve insulin resistance in rats with type 2 diabetes. Hence, targeting myostatin might be a new therapeutic approach for the treatment of metabolic diseases such as obesity, diabetes and metabolic syndrome.

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Effects of Eight Weeks of Resistance Training on Muscle Myostatin Gene Expression and Insulin Resistance in Male Wistar Rats with Type 2 Diabetes

et al. 2019

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“…Moreover, TGF-β1 is known as a multifunctional protein that acts as a skeletal muscle regenerator since it contributes to extracellular matrix reconstitution as well as muscle tissue remodelling (33) . Several investigations have evaluated the aforementioned myokines to determine their role in RT-induced muscular adaptations (1,30,34,35) . Accordingly, we showed that 8 weeks of wholebody RT increased circulating FLST and decreased MSTN concentrations in middle-aged men (1) .…”

Section: Discussionmentioning

confidence: 99%

Comparison of whole egg v. egg white ingestion during 12 weeks of resistance training on skeletal muscle regulatory markers in resistance-trained men

Bagheri

Moghadam

et al. 2020

Br J Nutr

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Eggs are considered a high-quality protein source for its complete amino acid profile and digestibility. Therefore, this study aimed to compare the effects of the whole egg (WE) vs. egg white (EW) ingestion during 12 weeks of resistance training (RT) on skeletal muscle regulatory markers and body composition in resistance-trained men. Thirty resistance-trained men (24.6 ± 2.7 years) were randomly assigned into a WE + RT (WER; n=15) or EW + RT (EWR; n=15) groups. The WER group ingested three WE while the EWR group ingested an isonitrogenous quantity of six EW per day immediately after the RT session. Serum concentrations of regulatory markers and body composition were measured at baseline and after 12 weeks. Significant main effects of time were observed for bodyweight [WER = 1.7 kg and EWR= 1.8 kg], skeletal muscle mass [WER = 2.9 kg and EWR= 2.7 kg], Fibroblast growth factor 2 [WER = 116.1 pg.ml and EWR= 83.2 pg.ml], and follistatin [WER = 0.05 ng.ml and EWR= 0.04 ng.ml], which significantly increased (p ˂ 0.05); and for fat mass [WER = -1.9 kg and EWR= -1.1 kg], Transforming growth factor-β1 [WER = -0.5 ng.ml and EWR= -0.1 ng.ml], Activin A [WER = -6.2 pg.ml and EWR= -4.5 pg.ml], and myostatin [WER = -0.1 ng.ml and EWR= -0.06 ng.ml], which significantly decreased (p ˂ 0.05) in both the WER and EWR groups. Consumption of eggs absent of yolk during chronic RT results in similar body composition and functional outcomes as WE of equal protein value. EW or WE may be used interchangeably for the dietary support of RT-induced muscular hypertrophy when protein intake is maintained.

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“…Although a number of novel research studies have been focused on the relationship between serum myostatin and muscle mass and function, and thus, its potential as a biomarker, the results seem unclear. Most studies indicate that a higher circulating myostatin concentration can be found in patients with higher muscle mass [ 79 , 80 , 81 , 82 , 83 , 84 , 85 ], but a few research studies resulted in finding such an association only in men [ 86 , 87 ], and some did not show any correlation with muscle mass parameters at all [ 88 , 89 , 90 , 91 ]. A study on healthy, obese and metabolically unhealthy participants found a contradictory, significantly negative correlation between muscle mass and serum myostatin, suggesting a major influence of metabolic syndrome on circulating myostatin level [ 92 ].…”

Section: Myostatin and Muscle Wastingmentioning

confidence: 99%

Myostatin as a Biomarker of Muscle Wasting and other Pathologies-State of the Art and Knowledge Gaps

2020

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Sarcopenia is a geriatric syndrome with a significant impact on older patients’ quality of life, morbidity and mortality. Despite the new available criteria, its early diagnosis remains difficult, highlighting the necessity of looking for a valid muscle wasting biomarker. Myostatin, a muscle mass negative regulator, is one of the potential candidates. The aim of this work is to point out various factors affecting the potential of myostatin as a biomarker of muscle wasting. Based on the literature review, we can say that recent studies produced conflicting results and revealed a number of potential confounding factors influencing their use in sarcopenia diagnosing. These factors include physiological variables (such as age, sex and physical activity) as well as a variety of disorders (including heart failure, metabolic syndrome, kidney failure and inflammatory diseases) and differences in laboratory measurement methodology. Our conclusion is that although myostatin alone might not prove to be a feasible biomarker, it could become an important part of a recently proposed panel of muscle wasting biomarkers. However, a thorough understanding of the interrelationship of these markers, as well as establishing a valid measurement methodology for myostatin and revising current research data in the light of new criteria of sarcopenia, is needed.

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Skeletal muscle hypertrophy, insulin-like growth factor 1, myostatin and follistatin in healthy and sarcopenic elderly men: The effect of whole-body resistance training

Cited by 40 publications

References 37 publications

Effects of Eight Weeks of Resistance Training on Muscle Myostatin Gene Expression and Insulin Resistance in Male Wistar Rats with Type 2 Diabetes

Effects of Eight Weeks of Resistance Training on Muscle Myostatin Gene Expression and Insulin Resistance in Male Wistar Rats with Type 2 Diabetes

Comparison of whole egg v. egg white ingestion during 12 weeks of resistance training on skeletal muscle regulatory markers in resistance-trained men

Myostatin as a Biomarker of Muscle Wasting and other Pathologies-State of the Art and Knowledge Gaps

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