Modulation of DNA methylation profile of SRXN1 gene promoter in HT29 cells exposed to catechins of different redox activity
2019
Аутори:
Jakubek, PatrycjaBaranowska, Monika
Rajić, Jovana
Vidaković, Melita
Namiesnik, Jacek
Bartoszek, Agnieszka
Тип документа:
Конференцијски прилог (Објављена верзија)
,
© 2019 by the University Pierre et Marie Curie, Paris
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Introduction: Our previous research indicated that treatment of HT29 cells with different catechins affected the expression of redox-related genes in a dose dependent manner with only one gene (SRXN1) being down-regulated [1]. Since catechins were reported to affect DNA methylation levels [2], the objestive of current research was to find out wether the observed down-regulation of SRXN1 expression was caused by epigenetic changes.
Materials & Methods: Human colon adenocarcinoma HT29 cells were treated with 5 catechins at 4 concentrations for 24 hours and subsequently genomic DNA was isolated. To perform methylation analysis, DNA isolates were bisulfite converted using EZ DNA Methylation kit from Zymo Research (USA). DNA methylation profiles within the chosen fragment of promoter area of SRXN1 gene were examined using Methylation-Specific PCR and Methylation-Sensitive High Resolution Melting.
Results: According to Baranowska et al. [1], the treatment of HT29 cell line with 10 µM (-)-epigallocatechin caused down-regulation of SRXN1 gene. So, we hypothesized that the methylation level within the promoter CpG island of this gene will be increased by this compound and our presumption were confirmed. Besides, significant increase of DNA methylation was observed also for high dosed of (-)-epicatechin gallate.
Conclusion: Catechins may influence DNA methylation pattern of redox responsive genes.
Финансирање / пројекти:
- COST Action CA16112 “NutRedOx: Personalized Nutrition in aging society: redox control of major age-related diseases
- program “Maestro 6” (application no: 2014/14/A/ST4/00640)
У:
- Abstracts book: 21st ISANH Interantional Conference on Oxidative stress, redox homeostasis and antioxidants; 2019 Jun 20-21; Paris, France. Paris: University Pierre et Marie Curie; 2019. p. 42.