PATHOGENIC MECHANISMS OF DDX41 MUTATIONS IN THE DEVELOPMENT OF MYELOID MALIGNANCIES

IF 0.7 Q4 HEMATOLOGY Leukemia Research Reports Pub Date : 2024-01-01 DOI:10.1016/j.lrr.2024.100425

A. Kon , M. Nakagawa , A. Tomita , K. Kataoka , N. Kakiuchi , H. Makishima , M. Nakayama , H. Koseki , Y. Nannya , S. Ogawa

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Abstract

Introduction

Germline DDX41 variants are implicated in late-onset myeloid neoplasms, accounting for the largest germline risk of the development of myeloid neoplasms. In typical cases, a germline loss-of-function allele is compounded by the somatic R525H mutation affecting the helicase domain in the remaining allele. The molecular mechanism by which DDX41 mutations lead to myeloid neoplasms remains to be elucidated.

Methods

To delineate the pathogenic mechanism of DDX41-mutated myeloid neoplasms, we generated mice models carrying the conditional Ddx41 knock-out and/or R525H knock-in alleles.

Results

In non-competitive bone marrow (BM) transplantation, most of the mice reconstituted with Ddx41^−/− or Ddx41^R525H/− BM died within a month due to severe BM failure. In competitive transplantation, Ddx41^−/− and Ddx41^R525H/− mice-derived cells showed markedly disadvantageous reconstitution, while Ddx41^+/− and Ddx41^R525H/+ mice-derived cells showed slightly reduced reconstitution compared to Ddx41^+/+ mice-derived cells. By contrast, the mice transplanted with Ddx41^+/− or Ddx41^R525H/+ BM showed significantly reduced WBC counts and anemia in long-term observation in both primary and serial transplantations. Some of the Ddx41^+/− or Ddx41^R525H/+ BM-transplanted mice exhibited MDS-like phenotypes, showing ineffective hematopoiesis with evidence of erythroid dysplasia. Transcriptome analysis of Ddx41^+/− and Ddx41^R525H/+ derived stem cells exhibited a significant deregulation of genes involved in RNA metabolism, ribosome biogenesis and apoptosis.

Conclusions

Monoallelic Ddx41 loss-of function or R525H knock-in alleles led to age-dependent impaired hematopoiesis and the development of myeloid malignancies, while compound biallelic loss-of function and R525 alleles showed a severely compromised function of hematopoietic stem cells.

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DDX41 基因突变在骨髓恶性肿瘤发病过程中的致病机制

导言种系 DDX41 变异与晚发性髓系肿瘤有关，是髓系肿瘤发生的最大种系风险。在典型病例中，种系功能缺失等位基因因体细胞 R525H 突变而变得复杂，该突变影响了剩余等位基因中的螺旋酶结构域。结果在非竞争性骨髓（BM）移植中，大多数用 Ddx41-/- 或 Ddx41R525H/- BM 重组的小鼠在一个月内死于严重的骨髓衰竭。在竞争性移植中，Ddx41-/-和Ddx41R525H/-小鼠衍生细胞的重建效果明显较差，而与Ddx41+/+小鼠衍生细胞相比，Ddx41+/-和Ddx41R525H/+小鼠衍生细胞的重建效果略有下降。相比之下，移植了 Ddx41+/- 或 Ddx41R525H/+ 基质的小鼠在初次移植和连续移植的长期观察中，白细胞计数和贫血都明显减少。部分 Ddx41+/- 或 Ddx41R525H/+ 骨髓移植小鼠表现出类似 MDS 的表型，显示出无效造血，并伴有红细胞发育不良的证据。对Ddx41+/-和Ddx41R525H/+衍生干细胞的转录组分析表明，涉及RNA代谢、核糖体生物发生和细胞凋亡的基因出现了显著的失调。

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