Purpose Of Review: DDX41 mutations are the most common cause of germline predisposition to adult-onset myeloid neoplasms. The unique mutational landscape and clinical features indicate a distinct molecular pathogenesis, but the precise mechanism by which DDX41 mutations cause disease is poorly understood, owing to the multitude of DDX41 functions. In this review, we will update DDX41's known functions, present unique clinical features and treatment considerations, and summarize the current understanding of the molecular pathogenesis of the disease.
Recent Findings: Large cohort studies have revealed that germline DDX41 variants are heterozygous and predominantly loss-of-function. Acquired mutation of the contralateral DDX41 allele, typically R525H, is present in more than half of patients at disease onset, which occurs after age 50. DDX41 is essential for hematopoiesis and has versatile functions in RNA metabolism and innate immune sensing. Experimental models have suggested that innate immune activation downstream of defects in R-loop resolution and ribosome biogenesis plays a key role in the pathogenesis.
Summary: While intensive investigations unveiled a strong genotype-phenotype relationship, the optimal therapeutic approach and long-term outcome are undefined. There is an urgent need to scrutinize the patients at single cell and multiomics level and to advance experimental animal and human models to fully elucidate the molecular pathogenesis.
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