Sport Physiology

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Article Processing Charges (APC)

Indexing and Abstracting

Related Links

FAQ

Reviewers

Terms and conditions for manuscript submission

Submission Instruction

Forms

Peer Review Process

The Effects of 8 Weeks of Aerobic and Resistance Exercises on Salusins Levels and Inflammatory Indices in Type 2 Diabetic Women

Document Type : Research Paper

Authors

1 Ph.D. Student of Exercise Physiology, Faculty of Sports Sciences, Razi University, Kermanshah, Iran

2 Associate Professor of Exercise Physiology, Faculty of Sports Sciences, Razi University, Kermanshah, Iran

Abstract

The purpose of this study was to investigate the effects of eight weeks of aerobic and resistance exercise on the levels of alpha and beta salusins, and inflammatory indices in type2 diabetic women. For this purpose, 45 volunteer participants were randomly assigned to the three groups of 15, including aerobic exercise, resistance exercise, and control. Resistance and aerobic exercises were performed three times a week for eight weeks with a gradual progressive manner. Resistance training consisted of 8-12 repetitions at 60-70% of 1RM, and aerobic training consisted of 30-50 minutes of running on a treadmill at 65-75% of maximum heart rate. Before and after the intervention period, serum levels of alpha and beta salusins, malondialdehyde and IL-1β were measured. The results showed significant decrease in salusinβ levels in both aerobic (P=0.015) and resistance (P=0.019) groups. In the other side, the levels of salusinα were significantly increased in aerobic (P=0.034) and resistance (P=0.012) groups. In addition, the IL-1β levels were significantly decreased in both aerobic (P=0.034) and resistance (P=0.041) groups. However, the levels of malondialdehyde had no significant changes in any group. The level changes of salusinα, salusinβ, and IL-1β were not significant between the aerobic and resistance groups. According to the results of the present study, performing eight weeks of resistance or aerobic training can positively affect the levels of salusinα, salusinβ and IL-1β in women with type2 diabetes.

Keywords

Main Subjects

References
  1. Watada H, Kajimoto Y, Umayahara Y, Matsuoka T, Kaneto H, Fujitani Y, et al. The human glucokinase gene beta-cell-type promoter: an essential role of insulin promoter factor 1/PDX-1 in its activation in HIT-T15 cells. Diabetes. 1996;45(11):1478-88.
  2. Salehi I, Mohammadi M, Asadi fakhr A. The effect of treadmill exercise on antioxidant status in the heart of the diabetic rats. Avicenna J Clin Med. 2009;16(2):20-7. (in Persian).
  3. Sato K, Watanabe R, Itoh F, Shichiri M, Watanab T. Salusins: Potential use as a biomarker for atherosclerotic cardiovascular diseases. International Journal of Hypertension. Int J Hypertens. 2013;6: 965140.
  4. Niepolski L, Grzegorzewska A E. Salusins and adropin: New peptides potentially involved in lipid metabolism and atherosclerosis. Adve Med Sci. 2016;61:282–7.
  5. Kołakowska U, Kuroczycka-Saniutycz E, Wasilewska A, Olan´ ski W. Is the serum level of salusin-b associated with hypertension and atherosclerosis in the pediatric population? Pediatr Nephrol. 2015;30(3):523–31.
  6. Watanabe T, Nishio K, Kanome T, Matsuyama TA, Koba S, Sakai T, et al. Impact of salusins alpha and -beta on human macrophage foam cell formation and coronary atherosclerosis. Circulation. 2008;117(5):638–48.
  7. Cheraghpour M, Ehrampoush E, Homayounfar R, Davoodi H, Zand H, Mimmiran P. The relationship between the immune system and the inflammatory mechanisms in obesity with insulin resistance. Iranian Journal of Nutrition Sciences & Food Technology. 2013;7(5):723-35. (in Persian).
  8. Takayuki K, Takuro M, Takuya W, Masayoshi Sh, Takashi A, Joo-ri Kim-K, et al. Salusin accelerates inflammatory responses in vascular endothelial cells via NF-_B signaling in LDL receptor-deficient mice in vivo and HUVECs in vitro. Am J Physiol Heart Circ Physiol. 2012;303:96–105.
  9. Fujie S, Hasegawa N, Sanada5 K, Hamaoka T, Maeda S, Padilla J et al. Increased serum salusin-α by aerobic exercise training correlates with improvements in arterial stiffness in middle-aged and older adults. Aging. 2020;12(2):1201-12.
  10. Paahoo A, Tadibi V, Behpoor N. Effect of two chronic exercise protocols on pre-atherosclerotic and anti-atherosclerotic biomarkers levels in obese and overweight children. Iran J Pediatr. 2020;30(2):99760.
  11. Zhao M-X, Bing Z, Li L, Xiao-Qing X, Feng Z, Qi C, et al. Salusin-β contributes to oxidative stress and inflammation in diabetic cardiomyopathy. Cell Death Dis. 2017, 23; 8(3): e2690. 1-10. 8,2690;10.38.
  12. Baynes JW. Perspective in diabetes. Role of oxidative stress in development of complication in diabetes. Diabetes. 1991;40:405-41.
  13. Stankovic M, Radovanovic D. Oxidative stress and physical activity. Sport Logia. 2012;8:1-11.
  14. Davignon J, Jacob RF, Mason RP. The antioxidant effects of statins. Coron Artery Dis. 2004;15(5):251-8.
  15. Nazari M, Minasian V, Hovsepian S. Effects of two types of moderate- and high-intensity interval training on serum salusin-α and salusin-β levels and lipid profile in women with overweight/obesity. Diabetes Metab Syndr Obes. 2020;13:1385–90.
  16. Kralisch S, Weise S, Sommer G, Lipfert J, Lossner U, Bluher M, et al. Interleukin-1beta induces the novel adipokine chemerin in adipocytes in vitro. Regul Pept. 2009;154(1-3):102-6.
  17. Choi KM, Kim TN, Yoo HJ, Lee KW, Cho GJ, Hwang TG, et al. Effect of exercise training on A-FABP, lipocalin-2 and RBP4 levels in obese women. Clin Endocrinol. 2009;70(4):569-74.
  18. Moldoveanu AI. Effects of prolonged endurance exercise on the gene expression and plasma levels of interleukin-1 beta, interleu kin-6, and tumor necrosis factor alpha. [Unpublished masterʼs thesis]. [toronto ]: University of Toronto; 1999.
  19. Sheikholeslami Vatani D, Ahmadi S, Mojtahedi H, Marandi M, Ahmadi Dehrashid K, Faraji H, et al. Influence of different intensities of resistance exercise on inflammatory markers in young healthy men. Iranian Journal of Endocrinology and Metabolism. 2011;6:618-25. (in Persian).
  20. Molanouri Shamsi M1, Hassan ZH, Gharakhanlou R, Quinn LS, Azadmanesh K, Baghersad L, et al. Expression of interleukin-15 and inflammatory cytokines in skeletal muscles of STZ-induced diabetic rats: effect of resistance exercise training. Endocrine. 2014;46(1):60-9.
  21. Peake JM, Della Gatta PA, Suzuki K, Nieman DC. Cytokine expression and secretion by skeletal muscle cells. Exerc Immunol Review. 2015;21:8-25
  22. Kohut ML, Mccann DA, Russell DW,Konopka DN, Cunnick JE, Franke WD, et al. Aerobic exercise, but not flexibility/resistance exercise, reduces serum IL-18, CRP and IL-6 independent of beta-blockers, BMI and psychosocial factors in older adults. Brain Behav Immun. 2006;20:201-9.
  23. Balducci S, Zanuso S, Nicolucci A, Fernando F, Cavallo S, Cardelli P, et al. Anti-inflammatory effect of exercise training in subjects with type 2 diabetes andthe metabolic syndrome is dependent on exercise modalities and independent of weight loss. Nutr Metab Cardiovasc Dis. 2010;20:608-17.
  24. Goldhammer E, Tanchilevitch A, Maor I, Beniamini Y, Rosenschein U, Sagiv M. Exercise training modulates cytokines activity in coronary heart disease patients. Int J Cardiol. 2005;100:93-9.
  25. Ploeger HE, Takken T, De Greef M, Timmons BW. The effects of acute and chronic exercise on inflammatory markers in children and adults with a chronic inflammatory disease: A systematic review. Respirology Exercise Immunology Review. 2008;13:128-33.
  26. Calle MC, Fernandez ML. Effects of resistance training on the inflammatory response. Nutr Res Pract. 2010;4:259-69.
  27. Marwick T, Hordern M, Miller T, Chyun D, Bertoni, A, Roger B, et al. Exercise training for type 2 diabetes mellitus impact on cardiovascular risk a scientific statement from the american heart association. Circulation. 2009;119:3244-62.
  28. Mann S, Beedie C, Jimenez A. Differential effects of aerobic exercise, resistance training and combined exercise modalities on cholesterol and the lipid profile: review, synthesis and recommendations. Br J Sports Med. 2014;44:211-21.
  29. Zhou CH, Liu L, Liu L, Zhang MX, Guo H, Pan J, et al. Salusin-β not salusin-α promotes vascular inflammation in ApoE-deficient mice via the I-κBα/NF-κB pathway. PLoS One. 2014; 12;9(3):91468.
  30. Grzegorzewska AE, Niepolski L, Sikora J, Janko´w M, Jagodzin´ski PP, Pajzderski D, et al. Effect of lifestyle changes and atorvastatin administration on dys-lipidemia in hemodialysis patients. Pol Arch MedWewn, 2014;124(9):443–51.
  31. Larsen AI, Lindal S, Aukrust P, Toft I, Aarsland T, Dickstein K. Effect of exercise training on skeletal muscle fibre characteristics in men with chronic heart failure. Correlation between skeletal muscle alterations, cytokines and exercise capacity. Int J cardiol. 2002;83(1):25-32.
  32. Mogharnasi M, Gaeini AA, Sheykholeslami Vatani D. Effects of a period of detraining following an aerobic exercise program on new inflammatory markers. Res Sports Sci. 2009;24:77-92. (in Persian).
  33. Mehrabani J, Damirchi A, Rahmaninia F. Effect of two aerobic exercise intensities on lipocalin-2, interleukin-1ß levels, and insulin resistance index in sedentary obese men. Asian J Sports Med. 2014;21:98-108. (in Persian).
  34. Nicklas BJ, Ambrosius W, Messier SP, Gary D Miller, Brenda WJH Penninx, Richard F Loeser, et al. Diet induced weight loss, exercise, and chronic inflammation in older, obese adults: a randomized controlled clinical trial. Am J Clin Nutr. 2004;79:544-51.
  35. Baum M, Muller-Steinhardt M, Liesen H, Kirchner H. Moderate and exhaustive endurance exercise influences the interferon-gamma levels in whole–blood culture supernatants. Eur J Appl Physiol. 1997;76:165-9.
  36. Ahmadiasl N, Najafipour H, Soufi FG, Jafari A. Effect of short- and long-term strength exercise on cardiac oxidative stress and performance in rat. J Biochem Physiol. 2012;68(1):121-8.
  37. Aafzalpour MA, Saghebjoo M, Zarban A, Jani M. Comparison of the effects of an acute resistance and aerobic exercise session on the antioxidant defense system and lipid peroxidation of healthy young men. J Sports Sci. 2013;3(6):30-9. (In Persian).
  38. Bloomer RJ, Schilling BK, Karlage RE, Ledoux MS, Pfeiffer RF, Callegari J. Effect of resistance training on blood oxidative stress in Parkinson disease. Med Sci Sport Exer. 2008;40(8):1385-9.
  39. Dantas FF, Brasileiro-Santos Mdo S, Batista RM, Nascimento LS, Castellano LR, Ritti Dias RM, et al. Effect of strength training on oxidative stress and the correlation of the same with forearm vasodilatation and blood pressure of hypertensive elderly women: Randomized clinical trial. PLoS One. 2016;11(8): 0161178.
  40. Wang Y, Lam KSL, Kraegen EW, Sweeney G, Zhang J, W K Tso A. Lipocalin-2 is an inflammatory marker closely associated with obesity, insulin resistance, and hyperglycemia in humans. Clin Chem. 2007;53(1):34-41.
Sport Physiology
Volume 12, Issue 47
Fall 2020
September 2020
Pages 73-92
Files
History
  • Receive Date: 02 January 2020
  • Revise Date: 02 July 2020
  • Accept Date: 08 July 2020
Share
How to cite
Statistics