1. Partial-Methylated HeyL Promoter Predicts the Severe Illness in Egyptian COVID-19 Patients
- Author
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Hewida H. Fadel, Mohammad Abd EL-Rahman Ahmed, Kareem Mahamoud Gharbeya, Mohammed Ahmed Khamis Mohamed, Mohamed N. Roushdy, and Reda Almiry
- Subjects
Base Sequence ,Article Subject ,Biochemistry (medical) ,Clinical Biochemistry ,COVID-19 ,General Medicine ,DNA Methylation ,Repressor Proteins ,Basic Helix-Loop-Helix Transcription Factors ,Genetics ,Humans ,Egypt ,Promoter Regions, Genetic ,Molecular Biology - Abstract
Background. To date (14 January 2022), the incidence and related mortality rate of COVID-19 in America, Europe, and Asia despite administrated of billions doses of many approved vaccines are still higher than in Egypt. Epigenetic alterations mediate the effects of environmental factors on the regulation of genetic material causing many diseases. Objective. We aimed to explore the methylation status of HeyL promoter, a downstream transcription factor in Notch signal, an important regulator of cell proliferation and differentiation blood, pulmonary epithelial, and nerves cells. Methods. Our objective was achieved by DNA sequencing of the product from methyl-specific PCR of HeyL promoter after bisulfite modification of DNA extracted from the blood samples of 30 COVID-19 patients and 20 control health subjects and studying its association with clinical-pathological biomarkers. Results. We found that the HeyL promoter was partial-methylated in Egyptian COVID-19 patients and control healthy subjects compared to full methylated one that was published in GenBank. We identified unmethylated CpG (TG) flanking the response elements within HeyL promoter in Egyptian COVID-19 patients and control healthy subjects vs. methylated CpG (CG) in reference sequence (GenBank). Also, we observed that the frequency of partial-methylated HeyL promoter was higher in COVID-19 patients and associated with aging, fever, severe pneumonia, ageusia/anosmia, and dry cough compared to control healthy subjects. Conclusion. We concluded that hypomethylated HeyL promoter in Egyptian population may facilitate the binding of transcription factors to their binding sites, thus enhancing its regulatory action on the blood, pulmonary epithelium, and nerves cells in contrast to full methylated one that was published in GenBank; thus, addition of demethylating agents to the treatment protocol of COVID-19 may improve the clinical outcomes. Administration of therapy must be based on determination of methylation status of HeyL, a novel prognostic marker for severe illness in COVID-19 patients.
- Published
- 2022