The effect of exercise on cellular and molecular mechanisms (regulation of calcium and cell growth) of heart tissue in the rat

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Setamdideh Mostafa; AZIZBEIGI KAMAL; ETEMAD ZAHER; Mohammadzadeh Khalid

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Journal Paper

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Journal: Daneshvar Medicine: Basic and Clinical Research Journal Year:2021 | Volume:29 | Issue:156 Page(s): 14-25

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Title

The effect of exercise on cellular and molecular mechanisms (regulation of calcium and cell growth) of heart tissue in the rat

Author(s)

Setamdideh Mostafa | AZIZBEIGI KAMAL | ETEMAD ZAHER | Mohammadzadeh Khalid | Issue Writer Certificate

Keywords

Endurance training

Intense periodic training

Calcium deficiency

Heart tissue

Abstract

Objective: The aim of this study was to investigate the effect of exercise on cellular and molecular mechanisms (regulation of calcium and cell growth) of Heart tissue. Materials and Methods: The research method was experimental and for this purpose, 24 male Wistar rats with a weight range of 200±, 20 g and age of eight-weeks were prepared and randomly divided into three groups: control, Intense periodic training and continuous training. Intense periodic training protocol,30 minutes of intermittent running and sub-maximum continuous group (30 to 60 minutes) were performed five days a week for 8 weeks. Gene expression of the desired variables was measured in cardiac tissue. Results: There was a significant difference between the eight-weeks of intense and sub-maximum intermittent training compared to the control group in the amount of gene expression changes in all three variables (TGF-ß, 1, SERCA2a, PI3K)(p<0. 05). Intermittent and continuous exercise (both relative to control) leads to a significant increase in TGF-1 gene expression in the heart of male Wistar rats. The results showed that the amount of PI3K enzyme in the sub-maximal continuous and Intense periodic training had a significant increase compared to the control group, there was no difference between the severe periodic group and the control group and there was no significant difference between the two training groups in the amount of SERCA2a. Conclusion: According to the findings of the present study, higher training intensity can better perform cellular and molecular regulation, which requires more research in the future. The findings of the present study have been cautiously expressed and further research is needed in the future.

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APA: Copy

Setamdideh, Mostafa, AZIZBEIGI, KAMAL, ETEMAD, ZAHER, & Mohammadzadeh, Khalid. (2021). The effect of exercise on cellular and molecular mechanisms (regulation of calcium and cell growth) of heart tissue in the rat. DANESHVAR MEDICINE, 29(156 ), 14-25. SID. https://sid.ir/paper/1015187/en

Vancouver: Copy

Setamdideh Mostafa, AZIZBEIGI KAMAL, ETEMAD ZAHER, Mohammadzadeh Khalid. The effect of exercise on cellular and molecular mechanisms (regulation of calcium and cell growth) of heart tissue in the rat. DANESHVAR MEDICINE[Internet]. 2021;29(156 ):14-25. Available from: https://sid.ir/paper/1015187/en

IEEE: Copy

Mostafa Setamdideh, KAMAL AZIZBEIGI, ZAHER ETEMAD, and Khalid Mohammadzadeh, “The effect of exercise on cellular and molecular mechanisms (regulation of calcium and cell growth) of heart tissue in the rat,” DANESHVAR MEDICINE, vol. 29, no. 156 , pp. 14–25, 2021, [Online]. Available: https://sid.ir/paper/1015187/en

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