Abstract
RNA activation (RNAa), a gene regulatory mechanism mediated by small activating RNAs (saRNAs) and microRNAs (miRNAs), has significant implications for therapeutic applications. Unlike small interfering RNA (siRNA), which is known for gene silencing in RNA interference (RNAi), synthetic saRNAs can stably upregulate target gene expression at the transcriptional level through the assembly of the RNA-induced transcriptional activation (RITA) complex. Moreover, the dual functionality of endogenous miRNAs in RNAa (hereafter referred to as mi-RNAa) reveals their complex role in cellular processes and disease pathology. Emerging studies suggest saRNAs' potential as a novel therapeutic modality for diseases such as metabolic disorders, hearing loss, tumors, and Alzheimer's. Notably, MTL-CEBPA, the first saRNA drug candidate, shows promise in hepatocellular carcinoma treatment, while RAG-01 is being explored for non-muscle-invasive bladder cancer, highlighting clinical advancements in RNAa. This review synthesizes our current understanding of the mechanisms of RNAa and highlights recent advancements in the study of mi-RNAa and the therapeutic development of saRNAs.