اثر یک جلسه فعالیت مقاومتی شدید همراه بامکمل گلوتامین بر بیان نسبی ژن های مایوژنین و کراتین کیناز در تار عضلانی تند انقباض موش های نر بالغ نژاد ویستار
الموضوعات :
مجله پلاسما و نشانگرهای زیستی
منصور متحدی
1
,
طاهره باقرپور
2
,
اردشیر ظفری
3
,
نعمت اله نعمتی
4
1 - دانشجوی دکتری گروه فیزیولوژی ورزشی و علوم ورزشی، دانشگاه آزاد اسلامی، واحد دامغان، دامغان، ایران
2 - گروه تربیت بدنی و علوم ورزشی دانشگاه آزاد اسلامی واحد دامغان
3 - استادیار گروه تربیت بدنی و علوم ورزشی، دانشکده علوم انسانی و هنر، واحد زنجان، دانشگاه آزد اسلامی ، زنجان ، ایران.
4 - دانشگاه آزاد اسلامی دامغان
تاريخ الإرسال : 08 الجمعة , شوال, 1444
تاريخ التأكيد : 19 الخميس , ذو القعدة, 1444
تاريخ الإصدار : 05 الأحد , محرم, 1445
الکلمات المفتاحية:
ژن میوژنین,
کراتین کیناز میوزین,
گلوتامین,
تمرین مقاومتی شدید,
ملخص المقالة :
زمینه و هدف: باوجود اهمیت پروتکل تمرین مقاومتی و مکمل گلوتامین بر هایپرتروفی، همچنان اثرگذاری آنها در روند بیان ژن های میوژنیک نامعلوم است. ازینرو هدف پژوهش حاضر بررسی اثر یک جلسه تمرین مقاومتی شدید بهمراه مکمل گلوتامین بر بیان ژن میوژنین و کراتین کیناز میوزین رت های نر ویستار بود. مواد و روش ها: تعداد 30 سر موش نر 8 هفته ای با وزن تقریبی 20±220 تهیه و به سه گروه کنترل، تمرین شدید مقاومتی و تمرین شدید مقاومتی بهمراه مکمل گلوتامین، بصورت تصادفی ساده تقسیم شدند. گروه های تمرین در یک جلسه فعالیت مقاومتی صعود از سطح شیبدار با 4 ست، 5 تکرار، 30 ثانیه استراحت بین تکرار ها و2 دقیقه استراحت بین ست ها شرکت کردند. مکمل گلوتامین یک بار در روز پودر حل شده در 100 سی سی آب مقطر با دوز 5/.گرم به ازای هر کیلو گرم وزن بدن در هر روز و به مدت 5 روز بود. بافت عضله باز کننده دراز انگشتان جهت مطالعات بیان ژن های میوژنین و کراتین کیناز میوزین به آزمایشگاه مربوطه فرستاده شدند. از روش فولدچنچ جهت بررسی بیان ژن درسطح معنی داری 5 درصد استفاده شد. نتایج: بیان ژن نشان داد مقادیر بیان ژن میوژنین و کراتین کیناز میوزین در نتیجه یک جلسه تمرین مقاومتی پرشدت و بهمراه مکمل گلوتامین نسبت به گروه کنترل، افزایش معنی دار داشت و این مقدار در گروه تمرین مقاومتی بارزتر بود (0.05>p). نتیجه گیری: بنظر میرسد یک جلسه تمرین شدید مقاومتی نسبت به مکمل گلوتامین بر افزایش ژن های میوژنیک، موثرتر باشد.
المصادر:
Joanisse S, Lim C, McKendry J, Mcleod JC, Stokes T, Phillips SM. Recent advances in understanding resistance exercise training-induced skeletal muscle hypertrophy in humans. F1000Research. 2020;9.
Hou Y-C, Wu J-M, Chen K-Y, Wu M-H, Yang P-J, Lee P-C, et al. Glutamine and leucine administration attenuates muscle atrophy in sepsis. Life Sciences. 2023;314:121327.
Cruzat V, Macedo Rogero M, Noel Keane K, Curi R, Newsholme P. Glutamine: metabolism and immune function, supplementation and clinical translation. Nutrients. 2018;10(11):1564.
Zhao Y, Albrecht E, Stange K, Li Z, Schregel J, Sciascia QL, et al. Glutamine supplementation stimulates cell proliferation in skeletal muscle and cultivated myogenic cells of low birth weight piglets. Scientific 2021;11(1):13432.
Li Z, Sciascia QL, Görs S, Nguyen N, Baghal FR, Schregel J, et al. Glutamine supplementation moderately affects growth, plasma metabolite and free amino acid patterns in neonatal low birth weight piglets. British Journal of Nutrition. 2022;128(12):2330-40.
Shamim B, Hawley JA, Camera DM. Protein availability and satellite cell dynamics in skeletal muscle. Sports Medicine. 2018;48:1329-43.
Hunter DJ, James LS, Hussey B, Ferguson RA, Lindley MR, Mastana SS. Impacts of Eccentric Resistance Exercise on DNA Methylation of Candidate Genes for Inflammatory Cytokines in Skeletal Muscle and Leukocytes of Healthy Males. Genes. 2023;14(2):478.
Gjevestad GO, Hamarsland H, Raastad T, Ottestad I, Christensen JJ, Eckardt K, et al. Gene expression is differentially regulated in skeletal muscle and circulating immune cells in response to an acute bout of high-load strength exercise. Genes & nutrition. 2017;12(1):1-11.
Chen Z, Zhao T-J, Li J, Gao Y-S, Meng F-G, Yan Y-B, et al. Slow skeletal muscle myosin-binding protein-C (MyBPC1) mediates recruitment of muscle-type creatine kinase (CK) to myosin. Biochemical Journal. 2011;436(2):437-45.
Coqueiro AY, Raizel R, Bonvini A, Rogero MM, Tirapegui J. Effects of glutamine and alanine supplementation on muscle fatigue parameters of rats submitted to resistance training. Nutrition. 2019;65:131-7.
Baird MF, Graham SM, Baker JS, Bickerstaff GF. Creatine-kinase-and exercise-related muscle damage implications for muscle performance and Journal of nutrition and metabolism. 2012;2012.
Damghan I. The Eeffect of a Resistance Training Course with Spirulina Supplementation and Glutamine Supplementation on Gene Expression (MyoD) in the Long Extensor Muscle of Male Mice. J Med Sci. 2021;28(12):309-18.
Caldow MK, Thomas EE, Dale MJ, Tomkinson GR, Buckley JD, Cameron‐Smith D. Early myogenic responses to acute exercise before and after resistance training in young men. Physiological reports. 2015;3(9):e12511.
Wilborn CD, Taylor LW, Greenwood M, Kreider RB, Willoughby DS. Effects of different intensities of resistance exercise on regulators of myogenesis. The Journal of Strength & Conditioning Research. 2009;23(8):2179-87.
Britto FA, Gnimassou O, De Groote E, Balan E, Warnier G, Everard A, et al. Acute environmental hypoxia potentiates satellite cell‐dependent myogenesis in response to resistance exercise through the inflammation pathway in human. The FASEB Journal. 2020;34(1):1885-900.
Yang Y, Creer A, Jemiolo B, Trappe S. Time course of myogenic and metabolic gene expression in response to acute exercise in human skeletal muscle. Journal of applied physiology. 2005;98(5):1745-52.
Watson EL, Viana JL, Wimbury D, Martin N, Greening NJ, Barratt J, et al. The effect of resistance exercise on inflammatory and myogenic markers in patients with chronic kidney disease. Frontiers in physiology. 2017;8:541.
Ziyaiyan A, Kordi M, Hofmeister M, Chamari K, Moalla W, Gaeini AA. High-intensity circuit training change serum myostatin but not myogenin in adolescents’ soccer players: a quasi-experimental study. BMC Sports Science, Medicine and Rehabilitation. 2023;15(1):15.
Afsharnezhad Roudsari T, Amani A. The effects of resistance training on muscle strength, hypertrophy and myogenin protein level of gastrocnemius in elderly rats. Journal of Practical Studies of Biosciences in Sport. 2019;7(14):31-44.
Zumbaugh MD, Johnson SE, Shi TH, Gerrard DE. Molecular and biochemical regulation of skeletal muscle metabolism. Journal of Animal Science. 2022;100(8):skac035.
Bickel CS, Slade J, Mahoney E, Haddad F, Dudley GA, Adams GR. Time course of molecular responses of human skeletal muscle to acute bouts of resistance exercise. Journal of applied physiology. 2005;98(2):482-8.
Mackey AL, Holm L, Reitelseder S, Pedersen T, Doessing S, Kadi F, et al. Myogenic response of human skeletal muscle to 12 weeks of resistance training at light loading intensity. Scandinavian journal of medicine & science in sports. 2011;21(6):773-8
Joanisse S, Gillen JB, Bellamy LM, McKay BR, Tarnopolsky MA, Gibala MJ, et al. Evidence for the contribution of muscle stem cells to nonhypertrophic skeletal muscle remodeling in humans. The FASEB Journal. 2013;27(11):4596.
Girven M, Dugdale HF, Owens DJ, Hughes DC, Stewart CE, Sharples AP. l‐glutamine Improves Skeletal Muscle Cell Differentiation and Prevents Myotube Atrophy After Cytokine (TNF‐α) Stress Via Reduced p38 MAPK Signal Transduction. Journal of cellular physiology. 2016;231(12):2720-32.
Koike TE, Dell Aquila RA, Silva KS, Aoki MS, Miyabara EH. Glutamine supplementation improves contractile function of regenerating soleus muscles from rats. Journal of Muscle Research and Cell Motility. 2022;43(2):87-97.
Khajehlandi M, Janbozorgi M. Effect of one session of resistance training with and without blood flow restriction on serum levels of creatine kinase and lactate dehydrogenase in female athletes. Journal of Clinical and Basic Research. 2018;2(2):5-10.
de Castro A, Vianna JM, Damasceno V, de Matos Filho D. Muscle recovery after a session of resistance training monitored through serum creatine kinase. Journal of Exercise Physiology Online. 2011;14(5):38-45.
Koch A, Pereira R, Machado M. The creatine kinase response to resistance exercise. J Musculoskelet Neuronal Interact. 2014;14(1):68-77.
Fridén J, Lieber RL. Serum creatine kinase level is a poor predictor of muscle function after injury. Scandinavian Journal of Medicine & Science in Sports: Short communication. 2001 Apr;11(2):126-7.
Córdova-Martínez A, Caballero-García A, Bello HJ, Pérez-Valdecantos D, Roche E. Effect of glutamine supplementation on muscular damage biomarkers in professional basketball players. Nutrients. 2021;13(6):2073.
_||_
Joanisse S, Lim C, McKendry J, Mcleod JC, Stokes T, Phillips SM. Recent advances in understanding resistance exercise training-induced skeletal muscle hypertrophy in humans. F1000Research. 2020;9.
Hou Y-C, Wu J-M, Chen K-Y, Wu M-H, Yang P-J, Lee P-C, et al. Glutamine and leucine administration attenuates muscle atrophy in sepsis. Life Sciences. 2023;314:121327.
Cruzat V, Macedo Rogero M, Noel Keane K, Curi R, Newsholme P. Glutamine: metabolism and immune function, supplementation and clinical translation. Nutrients. 2018;10(11):1564.
Zhao Y, Albrecht E, Stange K, Li Z, Schregel J, Sciascia QL, et al. Glutamine supplementation stimulates cell proliferation in skeletal muscle and cultivated myogenic cells of low birth weight piglets. Scientific 2021;11(1):13432.
Li Z, Sciascia QL, Görs S, Nguyen N, Baghal FR, Schregel J, et al. Glutamine supplementation moderately affects growth, plasma metabolite and free amino acid patterns in neonatal low birth weight piglets. British Journal of Nutrition. 2022;128(12):2330-40.
Shamim B, Hawley JA, Camera DM. Protein availability and satellite cell dynamics in skeletal muscle. Sports Medicine. 2018;48:1329-43.
Hunter DJ, James LS, Hussey B, Ferguson RA, Lindley MR, Mastana SS. Impacts of Eccentric Resistance Exercise on DNA Methylation of Candidate Genes for Inflammatory Cytokines in Skeletal Muscle and Leukocytes of Healthy Males. Genes. 2023;14(2):478.
Gjevestad GO, Hamarsland H, Raastad T, Ottestad I, Christensen JJ, Eckardt K, et al. Gene expression is differentially regulated in skeletal muscle and circulating immune cells in response to an acute bout of high-load strength exercise. Genes & nutrition. 2017;12(1):1-11.
Chen Z, Zhao T-J, Li J, Gao Y-S, Meng F-G, Yan Y-B, et al. Slow skeletal muscle myosin-binding protein-C (MyBPC1) mediates recruitment of muscle-type creatine kinase (CK) to myosin. Biochemical Journal. 2011;436(2):437-45.
Coqueiro AY, Raizel R, Bonvini A, Rogero MM, Tirapegui J. Effects of glutamine and alanine supplementation on muscle fatigue parameters of rats submitted to resistance training. Nutrition. 2019;65:131-7.
Baird MF, Graham SM, Baker JS, Bickerstaff GF. Creatine-kinase-and exercise-related muscle damage implications for muscle performance and Journal of nutrition and metabolism. 2012;2012.
Damghan I. The Eeffect of a Resistance Training Course with Spirulina Supplementation and Glutamine Supplementation on Gene Expression (MyoD) in the Long Extensor Muscle of Male Mice. J Med Sci. 2021;28(12):309-18.
Caldow MK, Thomas EE, Dale MJ, Tomkinson GR, Buckley JD, Cameron‐Smith D. Early myogenic responses to acute exercise before and after resistance training in young men. Physiological reports. 2015;3(9):e12511.
Wilborn CD, Taylor LW, Greenwood M, Kreider RB, Willoughby DS. Effects of different intensities of resistance exercise on regulators of myogenesis. The Journal of Strength & Conditioning Research. 2009;23(8):2179-87.
Britto FA, Gnimassou O, De Groote E, Balan E, Warnier G, Everard A, et al. Acute environmental hypoxia potentiates satellite cell‐dependent myogenesis in response to resistance exercise through the inflammation pathway in human. The FASEB Journal. 2020;34(1):1885-900.
Yang Y, Creer A, Jemiolo B, Trappe S. Time course of myogenic and metabolic gene expression in response to acute exercise in human skeletal muscle. Journal of applied physiology. 2005;98(5):1745-52.
Watson EL, Viana JL, Wimbury D, Martin N, Greening NJ, Barratt J, et al. The effect of resistance exercise on inflammatory and myogenic markers in patients with chronic kidney disease. Frontiers in physiology. 2017;8:541.
Ziyaiyan A, Kordi M, Hofmeister M, Chamari K, Moalla W, Gaeini AA. High-intensity circuit training change serum myostatin but not myogenin in adolescents’ soccer players: a quasi-experimental study. BMC Sports Science, Medicine and Rehabilitation. 2023;15(1):15.
Afsharnezhad Roudsari T, Amani A. The effects of resistance training on muscle strength, hypertrophy and myogenin protein level of gastrocnemius in elderly rats. Journal of Practical Studies of Biosciences in Sport. 2019;7(14):31-44.
Zumbaugh MD, Johnson SE, Shi TH, Gerrard DE. Molecular and biochemical regulation of skeletal muscle metabolism. Journal of Animal Science. 2022;100(8):skac035.
Bickel CS, Slade J, Mahoney E, Haddad F, Dudley GA, Adams GR. Time course of molecular responses of human skeletal muscle to acute bouts of resistance exercise. Journal of applied physiology. 2005;98(2):482-8.
Mackey AL, Holm L, Reitelseder S, Pedersen T, Doessing S, Kadi F, et al. Myogenic response of human skeletal muscle to 12 weeks of resistance training at light loading intensity. Scandinavian journal of medicine & science in sports. 2011;21(6):773-8
Joanisse S, Gillen JB, Bellamy LM, McKay BR, Tarnopolsky MA, Gibala MJ, et al. Evidence for the contribution of muscle stem cells to nonhypertrophic skeletal muscle remodeling in humans. The FASEB Journal. 2013;27(11):4596.
Girven M, Dugdale HF, Owens DJ, Hughes DC, Stewart CE, Sharples AP. l‐glutamine Improves Skeletal Muscle Cell Differentiation and Prevents Myotube Atrophy After Cytokine (TNF‐α) Stress Via Reduced p38 MAPK Signal Transduction. Journal of cellular physiology. 2016;231(12):2720-32.
Koike TE, Dell Aquila RA, Silva KS, Aoki MS, Miyabara EH. Glutamine supplementation improves contractile function of regenerating soleus muscles from rats. Journal of Muscle Research and Cell Motility. 2022;43(2):87-97.
Khajehlandi M, Janbozorgi M. Effect of one session of resistance training with and without blood flow restriction on serum levels of creatine kinase and lactate dehydrogenase in female athletes. Journal of Clinical and Basic Research. 2018;2(2):5-10.
de Castro A, Vianna JM, Damasceno V, de Matos Filho D. Muscle recovery after a session of resistance training monitored through serum creatine kinase. Journal of Exercise Physiology Online. 2011;14(5):38-45.
Koch A, Pereira R, Machado M. The creatine kinase response to resistance exercise. J Musculoskelet Neuronal Interact. 2014;14(1):68-77.
Fridén J, Lieber RL. Serum creatine kinase level is a poor predictor of muscle function after injury. Scandinavian Journal of Medicine & Science in Sports: Short communication. 2001 Apr;11(2):126-7.
Córdova-Martínez A, Caballero-García A, Bello HJ, Pérez-Valdecantos D, Roche E. Effect of glutamine supplementation on muscular damage biomarkers in professional basketball players. Nutrients. 2021;13(6):2073.