Single-cell profiling of human bone marrow progenitors reveals mechanisms of failing erythropoiesis in Diamond-Blackfan anemia

Diamond–Blackfan贫血 红细胞生成 生物 表型 骨髓 祖细胞 无效红细胞生成 干细胞 细胞生物学 遗传学 免疫学 癌症研究 贫血 基因 医学 核糖体 内科学 核糖核酸
作者
Deena Iskander,Guanlin Wang,Elisabeth F. Heuston,Chrysi Christodoulidou,Bethan Psaila,Kanagaraju Ponnusamy,H B Ren,Zeinab Mokhtari,Mark E. Robinson,Aristeidis Chaidos,Pritesh Trivedi,Nikolaos Trasanidis,Alexia Katsarou,Richard Szydlo,Carmen G. Palii,Mehmood H. Zaidi,Qais Al-Oqaily,Valentina S. Caputo,Anindita Roy,Yvonne Harrington
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:13 (610): eabf0113-eabf0113 被引量:66
标识
DOI:10.1126/scitranslmed.abf0113
摘要

Ribosome dysfunction underlies the pathogenesis of many cancers and heritable ribosomopathies. Here, we investigate how mutations in either ribosomal protein large (RPL) or ribosomal protein small (RPS) subunit genes selectively affect erythroid progenitor development and clinical phenotypes in Diamond-Blackfan anemia (DBA), a rare ribosomopathy with limited therapeutic options. Using single-cell assays of patient-derived bone marrow, we delineated two distinct cellular trajectories segregating with ribosomal protein genotypes. Almost complete loss of erythroid specification was observed in RPS-DBA. In contrast, we observed relative preservation of qualitatively abnormal erythroid progenitors and precursors in RPL-DBA. Although both DBA genotypes exhibited a proinflammatory bone marrow milieu, RPS-DBA was characterized by erythroid differentiation arrest, whereas RPL-DBA was characterized by preserved GATA1 expression and activity. Compensatory stress erythropoiesis in RPL-DBA exhibited disordered differentiation underpinned by an altered glucocorticoid molecular signature, including reduced ZFP36L2 expression, leading to milder anemia and improved corticosteroid response. This integrative analysis approach identified distinct pathways of erythroid failure and defined genotype-phenotype correlations in DBA. These findings may help facilitate therapeutic target discovery.
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