Riding the Wave of Progress: Examining the Current Landscape and Future Potential of MicroRNAs in Cancer Gene Therapy

MicroRNAs, commonly referred to as miRNAs, exert a significant impact on cellular processes by coordinating post-transcriptional gene regulation. These non-coding RNAs, which are only 22 nucleotides long, form a part of the RNA-induced silencing complex (RISC) and play a crucial role in regulating gene expression. Their complex participation in cell proliferation, differentiation, and death highlights their crucial role in maintaining cellular balance. MicroRNAs have become significant contributors in the complex field of cancer biology, operating beyond the usual tasks of cells. Their dysregulation is closely intertwined with cancer initiation and development. miRNAs act as cellular regulators and regulate complex processes of gene expression. Disruption of this regulation can result in tumor development. This review article explores the intricate process of miRNA biosynthesis and its mechanisms, providing insights into its complex interactions with cancer. It also discusses the exciting field of miRNA-based cancer treatment. Exploring the therapeutic possibilities of these small RNA molecules presents opportunities for precision medicine, introducing a new age where miRNAs can be utilized to create targeted therapeutic interventions that mainly address the abnormal genetic characteristics that cause tumor formation. miRNAs provide a harmonious balance between understanding their biology and utilizing their therapeutic potential in cancer treatment. However, they also serve as conductors and possible therapeutic instruments in the symphony of molecular biology for gene therapy.