Cheah Jesse J C, Hahn Christopher N, Hiwase Devendra K, Scott Hamish S, Brown Anna L
Department of Genetics and Molecular Pathology, Centre for Cancer Biology, SA Pathology, PO Box 14, Rundle Mall, Adelaide, 5000, SA, Australia.
Centre for Cancer Biology, SA Pathology and University of South Australia, Adelaide, SA, Australia.
Int J Hematol. 2017 Aug;106(2):163-174. doi: 10.1007/s12185-017-2260-y. Epub 2017 May 25.
Recently, DDX41 mutations have been identified both as germline and acquired somatic mutations in families with multiple cases of late-onset myelodysplastic syndrome (MDS) and/or acute myeloid leukemia. The majority of germline mutations are frameshift mutations suggesting loss of function with DDX41 acting as a tumor suppressor, and there is a common somatic missense mutation found in a majority of germline mutated tumors. Clinically, DDX41 mutations lead to development of high-risk MDS at an age similar to that observed in sporadic cohorts, presenting a unique challenge to hematologists in recognizing the familial context. Functionally, DDX41 has been shown to contribute to multiple pathways and processes including mRNA splicing, innate immunity and rRNA processing. Mutations in DDX41 result in aberrations to each of these in ways that could potentially impact on tumorigenesis-initiation, maintenance or progression. This review discusses the various molecular, clinical and biological aspects of myeloid malignancy predisposition due to DDX41 mutation and highlights how each of these suggest potential therapeutic opportunities through the use of pathway-specific inhibitors.
最近,在多例迟发性骨髓增生异常综合征(MDS)和/或急性髓系白血病的家族中,已鉴定出DDX41突变既为种系突变,也为获得性体细胞突变。大多数种系突变是移码突变,提示功能丧失,DDX41作为肿瘤抑制因子发挥作用,并且在大多数种系突变肿瘤中发现了一种常见的体细胞错义突变。临床上,DDX41突变导致高危MDS的发生年龄与散发病例中观察到的年龄相似,这给血液学家识别家族背景带来了独特挑战。在功能上,DDX41已被证明参与多种途径和过程,包括mRNA剪接、先天免疫和rRNA加工。DDX41中的突变以可能影响肿瘤发生起始、维持或进展的方式导致这些过程中的每一个出现异常。本综述讨论了由于DDX41突变导致的髓系恶性肿瘤易感性的各种分子、临床和生物学方面,并强调了这些方面如何通过使用途径特异性抑制剂提示潜在的治疗机会。
