诱导多能干细胞来源的 Diamond Blackfan 贫血患者的核糖体和造血缺陷。

Ribosomal and hematopoietic defects in induced pluripotent stem cells derived from Diamond Blackfan anemia patients.

机构信息

Division of Hematology, The Children's Hospital of Philadelphia, Philadelphia, PA 19104, USA.

出版信息

Blood. 2013 Aug 8;122(6):912-21. doi: 10.1182/blood-2013-01-478321. Epub 2013 Jun 6.

DOI:10.1182/blood-2013-01-478321

PMID:23744582

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3739037/

Abstract

Diamond Blackfan anemia (DBA) is a congenital disorder with erythroid (Ery) hypoplasia and tissue morphogenic abnormalities. Most DBA cases are caused by heterozygous null mutations in genes encoding ribosomal proteins. Understanding how haploinsufficiency of these ubiquitous proteins causes DBA is hampered by limited availability of tissues from affected patients. We generated induced pluripotent stem cells (iPSCs) from fibroblasts of DBA patients carrying mutations in RPS19 and RPL5. Compared with controls, DBA fibroblasts formed iPSCs inefficiently, although we obtained 1 stable clone from each fibroblast line. RPS19-mutated iPSCs exhibited defects in 40S (small) ribosomal subunit assembly and production of 18S ribosomal RNA (rRNA). Upon induced differentiation, the mutant clone exhibited globally impaired hematopoiesis, with the Ery lineage affected most profoundly. RPL5-mutated iPSCs exhibited defective 60S (large) ribosomal subunit assembly, accumulation of 12S pre-rRNA, and impaired erythropoiesis. In both mutant iPSC lines, genetic correction of ribosomal protein deficiency via complementary DNA transfer into the "safe harbor" AAVS1 locus alleviated abnormalities in ribosome biogenesis and hematopoiesis. Our studies show that pathological features of DBA are recapitulated by iPSCs, provide a renewable source of cells to model various tissue defects, and demonstrate proof of principle for genetic correction strategies in patient stem cells.

摘要

Diamond Blackfan 贫血症（DBA）是一种先天性疾病，伴有红系（Ery）发育不良和组织形态异常。大多数 DBA 病例是由编码核糖体蛋白的基因的杂合无效突变引起的。由于缺乏来自受影响患者的组织，因此理解这些普遍存在的蛋白质的单倍不足如何导致 DBA 受到阻碍。我们从携带 RPS19 和 RPL5 基因突变的 DBA 患者的成纤维细胞中生成了诱导多能干细胞（iPSC）。与对照相比，DBA 成纤维细胞形成 iPSC 的效率较低，尽管我们从每个成纤维细胞系中获得了 1 个稳定的克隆。RPS19 突变的 iPSC 表现出 40S（小）核糖体亚基组装和 18S 核糖体 RNA（rRNA）产生的缺陷。在诱导分化后，突变克隆表现出广泛的造血功能受损，其中 Ery 谱系受影响最严重。RPL5 突变的 iPSC 表现出 60S（大）核糖体亚基组装缺陷，12S 前 rRNA 积累和红细胞生成受损。在两种突变的 iPSC 系中，通过 cDNA 转移到“安全港”AAVS1 基因座中纠正核糖体蛋白缺陷可缓解核糖体生物发生和造血异常。我们的研究表明，DBA 的病理特征通过 iPSC 得到再现，为模型各种组织缺陷提供了可再生的细胞来源，并证明了患者干细胞中遗传纠正策略的原理证明。

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