Exploring the Impact of Iron Overload on Mitochondrial DNA in β-Thalassemia: A Comprehensive Review
Iron overload is a significant complication commonly observed in individuals with β-thalassemia, resulting from enhanced iron absorption due to ineffective erythropoiesis and frequent blood transfusions. Iron overload can lead to severe tissue damage and organ dysfunction, significantly impacting th...
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Veröffentlicht in: | Gene expression 2024-09, Vol.23 (3), p.197 |
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Sprache: | eng |
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Zusammenfassung: | Iron overload is a significant complication commonly observed in individuals with β-thalassemia, resulting from enhanced iron absorption due to ineffective erythropoiesis and frequent blood transfusions. Iron overload can lead to severe tissue damage and organ dysfunction, significantly impacting the quality of life for those affected. Additionally, recent research indicates that iron overload may also adversely impact mitochondrial function, further exacerbating the pathophysiology of this disease. Excessive iron accumulation in mitochondria can impair the electron transport chain, reduce adenosine tri phosphate synthesis, and increase the generation of reactive oxygen species, resulting in elevated tissue damage and clinical complications. Emerging evidence suggests that specific mitochondrial DNA (mtDNA) mutations may further contribute to the severity of iron overload in β-thalassemia patients. Currently, the clinical management of iron overload in patients with β-thalassemia primarily relies on conventional iron chelation therapies, aiming to reduce iron burden and prevent tissue damage. However, cases involving mtDNA mutations introduce additional complexities, necessitating personalized treatment approaches. Advances in gene therapy and mitochondrial replacement strategies offer promising avenues for potential targeted interventions. This review provides a comprehensive overview of the mechanisms underlying iron overload in β-thalassemia and its association with mtDNA mutations. It discusses the clinical manifestations, diagnostic challenges, and current treatment options for managing iron overload, while also highlighting emerging research directions and potential therapeutic targets for improved patient care. Ultimately, a better understanding of the complex interplay between iron overload and mtDNA mutations in β-thalassemia will pave the way for innovative strategies to alleviate the disease burden. |
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ISSN: | 1052-2166 1555-3884 |
DOI: | 10.14218/GE.2023.00128 |