ATAD2 bromodomain in cancer therapy: current status and future perspectives.

ATPase family AAA domain-containing protein 2, or ATAD2, is a novel carcinogen, essential for cancer development, chromatin remodeling, and transcriptional control. It contains a bromodomain, which binds to acetylated histones to control gene expression. It also impacts pathways that regulate the cell cycle, DNA replication, and hormone signalling. ATAD2 is overexpressed in several malignancies, including colorectal, lung, ovarian, and breast cancers, and cancer metastasis. Investigations into the function of ATAD2 in oncogenesis and its interactions may offer fresh approaches to creating cancer treatment plans. Although preclinical research is very encouraging, many unresolved aspects regarding therapeutic development remain, including toxicity being explored concurrently. Investigations into the function of ATAD2 in oncogenesis may offer fresh approaches to developing chemotherapy strategies. Most of ATAD2's molecular mechanisms behind carcinogenesis and functions are discussed here. Additionally, we included progress, including potential monoclonal antibodies, RNA-based therapies, and small chemical inhibitors, in the review. Therefore, we guarantee this study will provide researchers with new opportunities and directions for cancer therapeutics.