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Modeling injury and repair in kidney organoids reveals that homologous recombination governs tubular intrinsic repair

DNA修复 急性肾损伤 生物 雷达51 肾脏疾病 癌症研究 FANCD2 范科尼贫血 医学 细胞生物学 病理 遗传学 内科学 基因 内分泌学
作者
Navin Gupta,Takuya Matsumoto,Ken Hiratsuka,Edgar Garcia Saiz,Chengcheng Zhang,Pierre Galichon,Tomoya Miyoshi,Koichiro Susa,Narihito Tatsumoto,M Yamashita,Ryuji Morizane
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:14 (634): eabj4772-eabj4772 被引量:109
标识
DOI:10.1126/scitranslmed.abj4772
摘要

Kidneys have the capacity for intrinsic repair, preserving kidney architecture with return to a basal state after tubular injury. When injury is overwhelming or repetitive, however, that capacity is exceeded and incomplete repair results in fibrotic tissue replacing normal kidney parenchyma. Loss of nephrons correlates with reduced kidney function, which defines chronic kidney disease (CKD) and confers substantial morbidity and mortality to the worldwide population. Despite the identification of pathways involved in intrinsic repair, limited treatments for CKD exist, partly because of the limited throughput and predictivity of animal studies. Here, we showed that kidney organoids can model the transition from intrinsic to incomplete repair. Single-nuclear RNA sequencing of kidney organoids after cisplatin exposure identified 159 differentially expressed genes and 29 signal pathways in tubular cells undergoing intrinsic repair. Homology-directed repair (HDR) genes including Fanconi anemia complementation group D2 (FANCD2) and RAD51 recombinase (RAD51) were transiently up-regulated during intrinsic repair but were down-regulated in incomplete repair. Single cellular transcriptomics in mouse models of obstructive and hemodynamic kidney injury and human kidney samples of immune-mediated injury validated HDR gene up-regulation during tubular repair. Kidney biopsy samples with tubular injury and varying degrees of fibrosis confirmed loss of FANCD2 during incomplete repair. Last, we performed targeted drug screening that identified the DNA ligase IV inhibitor, SCR7, as a therapeutic candidate that rescued FANCD2/RAD51-mediated repair to prevent the progression of CKD in the cisplatin-induced organoid injury model. Our findings demonstrate the translational utility of kidney organoids to identify pathologic pathways and potential therapies.
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