The Impact of Capecitabine and Combined Training on BRCA1 Gene Expression in Breast Cancer Induction

Shokuhi Niya, Masoud; Salehikia , Abbas; Banparvari , Maryam; Fanaei , Hamed

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Volume 10, Issue 4 (12-2023)

2023, 10(4): 67-80

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The Impact of Capecitabine and Combined Training on BRCA1 Gene Expression in Breast Cancer Induction

Masoud Shokuhi Niya

, Abbas Salehikia

, Maryam Banparvari

, Hamed Fanaei

Department of Sport Sciences, Faculty of Education and Psychology, University of Sistan and Baluchestan, Zahedan, Iran , salehikia@ped.usb.ac.ir

Abstract: (909 Views)

Introduction: This study explores the combined effects of concurrent training and capecitabine consumption on breast cancer prevention and therapy, focusing on the modulation of BRCA1 gene expression.
Material & Methods: In the main study, 12 mice were divided into groups, including Exercise-Tumor-Exercise (ETE), Exercise-Tumor-Exercise+Drug (ETE + D), and various others. Resistance and endurance training were conducted five days a week for 12 weeks before and eight weeks after tumor induction, accompanied by capecitabine administration. BRCA1 gene expression was assessed post-intervention using SPSS 20.
Results: MC4-L2 injection induced tumors. Both pre and post-cancer induction, exercise significantly increased BRCA1 gene expression (p = 0.001, p = 0.001). Exercise combined with post-cancer capecitabine led to increased BRCA1 expression (p = 0.001). Capecitabine alone post-cancer also elevated BRCA1 expression (p = 0.001). Exercise, exercise with capecitabine, and capecitabine alone post-cancer showed significantly higher BRCA1 expression than exercise pre-cancer (p = 0.001). Exercise-tumor-exercise and Exercise-Tumor-Exercise+Drug groups exhibited increased BRCA1 expression compared to exercise-tumor-drug (p = 0.001).
Conclusion: The ETE+D protocol, involving exercise and capecitabine post-cancer, increased BRCA1 expression, suggesting potential roles in tumor prevention and therapy.

Keywords: Breast cancer, Tumor size, Exercise Therapy, BRCA1, Capecitabine

Full-Text [PDF 1223 kb] (327 Downloads)

Type of Study: Research | Subject: Physiology
Received: 2023/05/20 | Accepted: 2023/12/28 | Published: 2023/12/28

References

1. Poor zarandi H, Hematiafif A, Ghasemi AM, Erfanipour M. The first national conference on modern sports science, professional sports and health promotion. Sport Canc.1394; 8(3):46-55. dio: 10.1016/s8756-3282(03)00212-6.

2. Tan B, Huang L, Wu Y, Liao J. Advances and trends of hydrogel therapy platform in localized tumor treatment: A review. J Biomed Mater Res. 2020; 8(3) 1–22. doi: 10.1002/jbm.a.37062.

3. Amo Mohammadi M, Gholami M, Abed Natanzi H. The effect of four-weeks continuous and interval exercise training on activin-A muscular level in female mice with breast cancer. J Anim Biol. 2019; 12(1):37-48. https://ascij.damghan.iau.ir/article_669716.html?lang=en.

4. Gholamian S, Attarzadeh Hosseini R, Rashidlamir A, Agha Ali Nejad H. Effect of interval training on the expression of mesenchymal biomarker vimentin and tumor volume in mice with breast cancer. Iran Q J Breast Dis.2019; 12(1):19-28. http://dx.doi.org/10.30699/acadpub.ijbd.12.01.19.

5. Bray F. Global cancer statistics 2018: Globocan estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA Cancer J. Clin. 2018; 68: 394-424. doi: 10.3322/caac.21492.

6. Jacobs BAW, Deenen MJ, Joerger M, Rosing H, De Vries N, Meulendijks D, et al. Pharmacokinetics of capecitabine and four metabolites in a heterogeneous population of cancer patients: a comprehensive analysis. CPT Pharmacomet Syst Pharmacol. 2019; 8(12):940-950. doi: 10.1002/psp4.12474.

7. Kuchenbaecker KB, Hopper JL, Barnes DR, Phillips KA, Mooij TM, Roos-Blom MJ, et al. Risks of breast, ovarian, and contralateral breast cancer for BRCA1 and BRCA2 mutation carriers. JAMA. 2017; 317(23):2402-2416. doi:10.1001/jama.2017.7112.

8. Marshall PW, McEwen M, Robbins DW. Strength and neuromuscular adaptation following one, four and eight sets of high intensity resistance exercise in trained males. EurJ Appl Physiol. 2011; 12: 3007-16. doi: 10.1007/s00421-011-1944-x.

9. Noori Daloii MR, Zekri A. Genetic instability and centrosome abnormality in cancer. Med Sci 2014; 24(3):125-35. http://tmuj.iautmu.ac.ir/article-1-831-en.html.

10. Ren JX, Gong YL, Hu HX, Shao ZM. Racial/ethnic differences in the outcomes of patients with metastatic breast cancer: contributions of demographic, socioeconomic, tumor and metastatic characteristics. Breast Cancer Res. 2019;173 (1): 225–237. doi: 10.1007/s10549-018-4956-y.

11. Shiovitz S, Korde LA. Genetics of breast cancer: a topic in evolution. Ann. Oncol. 2015; 26 (7):1291–1299. doi: 10.1093/annonc/mdv022.

12. Cardoso F, Cataliotti L, Costa A, Knox S, Marotti L, Rutgers E, et al. European breast cancer conference manifesto on breast centres/units. Eur J Cancer. 2017; 72:244-50. doi: 10.1016/j.ejca.2016.10.023.

13. Villareal DT, Aguirre L, Gurney AB, Waters DL, Sinacore DR, Colombo E, et al. Aerobic or resistance exercise, or both, in dieting obese older adults. N. Engl. J. Med. 2017; 376: 1943–1955. doi: 10.1056/NEJMoa1616338.

14. Johnsson A, Demmelmaier I, Sjövall K, Wagner P, Olsson H, Tornberg ÅB. A single exercise session improves side-effects of chemotherapy in women with breast cancer: an observational study. BMC Cancer. 2019; 19(1): 1073. doi: 10.1186/s12885-019-6310-0.

15. British national formulary: BNF 69. British Medical Association. 2015; 585, 588. ISBN 9780857111562.

16. Surmelioglu N, Paydas S, Karatas Y, Seydaoglu G. Evaluation of lipid profiles in patients treated with capecitabine. Tur J Med Sci. 2017; 47(4): 1206-1209.doi: 10.3906/sag-1607-53.

17. Rezaei, Z Shakerian S, Nikbakht M. The effect of ten weeks of high intensity interval training and continuous endurance training on the expression of MIR-205 and VEGF gene in mice with breast cancer has been compared. J Appl Health Stud Sport Physiol. 2019; 6(1): 37-44. doi: 10.22049/jassp.2019.26611.1258.

18. Amani Shalamzari S, Agha Ali Nejad H, Alizadeh SH, Kazemi AR, Saei MA, Minayi N, Shokrolahi F. The effect of endurance training on the level of tissue IL-6 And VEGF in mice with breast cancer. J Shahrekord Univ Med Sci. 2014 :16(2):10-21. http://78.39.35.44/article-1-1586-en.html.

19. Forbes C, Fayter D, De Kock S, Quek RGW. A systematic review of international guidelines and recommendations for the genetic screening, diagnosis, Genetic Counseling and treatment of BRCA-mutated breast cancer. Cancer Manag. Res. 2019; 2321–2337. doi: 10.2147/CMAR.S189627.

20. Körbler T, Grsković M, Dominis M, Antica M. A simple method for RNA isolation from formalin-fixed and paraffin-embedded lymphatic tissues. Exp Mol Pathol.2003; 74(3): 336-340. doi: 10.1016/s0014-4800(03)00024-8.

21. Paluch-Shimon S, Cardoso F, Sessa C, Balmaña J, Cardoso MJ, Gilbert F, et al. Prevention and screening in BRCA mutation carriers and other breast/ovarian hereditary cancer syndromes: Esmo clinical practice guidelines for cancer prevention and screening. Ann Oncol. 2016 ; 27(5): 103-110. doi: 10.1093/annonc/mdw327.

22. Liedtke S, Schmidt ME, Becker S, Kaaks R, Zaineddin AK, Buck K, Flesch-Janys D, et al. Physical activity and endogenous sex hormones in postmenopausal women: to what extent are observed associations confounded or modified by BMI? Cancer Causes Control. 2011; 22(1):81-9. doi: 10.1007/s10552-010-9677-4.

23. Liang M. Association between CHEK2*1100delC and breast cancer: a systematic review and metaanalysis. Mol. Diagn. Ther. 2018; 22: 397–407. doi: 10.1007/s40291-018-0344-x.

24. Thomas BN, Hardy JW, Kelly SE, Ludlow SJ, Lankford DE. Comparison in strength gains with periodized training for 1 set, 1 set-3 set, and 3 set over 12 weeks. Int J Exerc Sci; 2013. 8; Iss 1, Article 18. https://digitalcommons.wku.edu/ijesab/vol8/iss1/18.

25. Zarbaf R, Koushki Gahromi M, Sofi Abadi M, Daryanoosh F, Peymani ّH. The effects of aerobic exercise in sprague dawley pregnant rats on BRCA1 and P53 gene expression of adult offspring breast tissue. J Shahrekord Univ Med Sci. 2018; 20 (5) :13-24. http://78.39.35.44/article-1-3512-en.html.

26. Kazemi A, Agha Alinejad H, Alizadeh S, Shahbazi Sh, Amani Shalamzari S. The effect of endurance training on Mir-155 expression, stat3 gene expression, and interleukin 6 protein in mice with breast cancer. J Kerman Univ Med Sci. 2015; 22(6): 42 - 52. https://jkmu.kmu.ac.ir/article_16273.html.

27. Sadeghipoor Vojdani F, Agha-Alinejad H, Molanouri Shamsi M, Soudi S, Khanchi S. The effect of interval training on the expression of tumor suppressor gene, systemic inflammation, and tumor volume in breast cancer–bearing BALB/c Mice. Iran Q J Breast Dis. 2019; 12(3):17 -25. doi : 10.30699/acadpub.ijbd.12.3.17.

28. Jacobs BAW, Deenen MJ, Joerger M, Rosing H, De Vries N, Meulendijks D, et al. Pharmacokinetics of capecitabine and four metabolites in a heterogeneous population of cancer patients: a comprehensive analysis. CPT Pharmacomet Syst Pharmacol. 2019; 8(12):940-950. doi: 10.1002/psp4.12474.

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Shokuhi Niya M, Salehikia A, Banparvari M, Fanaei H. The Impact of Capecitabine and Combined Training on BRCA1 Gene Expression in Breast Cancer Induction. Journal of Basic Research in Medical Sciences 2023; 10 (4) :67-80
URL: http://jbrms.medilam.ac.ir/article-1-757-en.html

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