Abstract
Transposable elements (TEs) are mobile DNA sequences capable of self-replication (especially retrotransposons) within the genome, which may lead to various forms of DNA damage. The introduction of this review encompasses the diverse classes and subclasses of TEs, particularly emphasizing the most active TEs present in the human genome. An analysis of the retrotransposition process of TEs is presented, illustrating how this mechanism can result in DNA damage and gene rearrangements. Furthermore, the review meticulously examines the implications of TE insertions on gene expression and genomic organization, which may contribute to the development of various diseases, including cancer. The relationship between TE activation and the aging process is also explored, with an emphasis on that epigenetic modifications associated with aging can lead to the derepression of TEs, thereby promoting genomic instability and inflammation. These factors may play a significant role in the pathogenesis of age-related diseases, such as cancer, cardiovascular disorders, and neurodegenerative conditions. Finally, the review considers potential therapeutic approaches aimed at targeting TE activity to alleviate the impacts of aging and associated diseases.