Oxidative Stress in Beta-thalassemia Patients: Role of Enzymatic and Non-enzymatic Modulators

Tehseen Fatima; Sadaf Khan; Muhammad Mubashir Khan; Rameesha Kamran; Muhammed Wajih Uddin; Saba Sohrab

doi:10.2174/0109298665246270231020062048

Oxidative Stress in Beta-thalassemia Patients: Role of Enzymatic and Non-enzymatic Modulators

Protein Pept Lett. 2023;30(12):1030-1037. doi: 10.2174/0109298665246270231020062048.

Authors

Tehseen Fatima¹, Sadaf Khan¹, Muhammad Mubashir Khan¹, Rameesha Kamran¹, Muhammed Wajih Uddin¹, Saba Sohrab²

Affiliations

¹ Dow College of Biotechnology, Dow University of Health Sciences, Karachi, Pakistan.
² Department of Pediatrics, Baqai Medical University, Karachi, Pakistan.

PMID: 37953620
DOI: 10.2174/0109298665246270231020062048

Abstract

Background: Oxidative stress is a pathophysiological state that arises due to an imbalance created between ROS generation and the antioxidant potential of the host cell. Transfusion- dependent beta-thalassemia major patients are at high risk of cellular and molecular damages induced by ROS mainly due to iron overload caused by repetitive blood transfusion.

Objectives: To analyze oxidative stress status levels in β-thalassemia patients. To analyze the expression profile of enzymatic (NOS2, OGG1, HuR, SOD2) and non-enzymatic (VDR) redox regulators in β-thalassemia patients. To assess polymorphism in VDR (rs2228570) and NOS2 (rs944725) in β-thalassemia patients. To analyze serum vitamin D levels of β-TM patients compared to healthy individuals.

Methods: The present case-control study aimed to identify Vitamin D levels in the serum of β-thalassemia patients and compared it with healthy subjects. The study further analyzed VDR FOKI (rs2228570) polymorphism through ARMS-PCR. Expression profiling of VDR, anti-oxidant enzyme (SOD2 and GPx), and their respective regulator (HuR and NrF2) transcripts was done by the 2^-ΔΔCt method.

Results: The study reports that there is no a significant difference between the Vitamin D levels among healthy and patients. VDR polymorphism analysis (rs2228570) demonstrates that although the C allele is prevalent in the study cohort, the frequency of the T allele is comparatively higher in β-thalassemia patients as compared to healthy subjects. Furthermore, patients express lower levels of anti-oxidant enzymes despite having increased oxidative stress.

Conclusion: The study reports that β-thalassemia patients are at higher risk of cellular and molecular damages induced by oxidative stress and their associated pathologies inefficient enzymatic and non-enzymatic anti-oxidant defense systems.

Keywords: Beta-thalassemia; GPx; SOD2; Vitamin D; antioxidants; cellular damage; expression analysis.; oxidative stress.

MeSH terms

Antioxidants* / metabolism
Case-Control Studies
Humans
Oxidative Stress / physiology
Reactive Oxygen Species
Vitamin D
beta-Thalassemia* / genetics
beta-Thalassemia* / pathology

Substances

Antioxidants
Reactive Oxygen Species
Vitamin D