Della Volpe Lucrezia, Lee Andrew J, Antoszewski Mateusz, Deik Amy A, Safina Ksenia R, Gao Teng, Guo Chun-Jie, Ye Tianyi, Lyu Peng, Martin-Rufino Jorge D, Castano Nicole, Good Jonathan, Molina-Aponte Yaniris, Zhao Jiawei, Clish Clary B, van Galen Peter, Sankaran Vijay G
Division of Hematology/Oncology, Boston Children's Hospital and Department of Pediatric Oncology, Dana-Farber Cancer Institute, Harvard Medical School, Boston, MA, USA.
Howard Hughes Medical Institute, Boston, MA, USA.
Nat Cell Biol. 2025 Dec;27(12):2214-2224. doi: 10.1038/s41556-025-01814-7. Epub 2025 Nov 18.
Improved ex vivo expansion of human haematopoietic stem cells (HSCs) would considerably advance transplantation and genome-engineered therapies, yet existing culture methods still allow substantial HSC loss. Here we show that this attrition is driven largely by ferroptosis, a metabolically regulated, iron-dependent cell-death pathway, and that it can be blocked to augment HSC expansion. Inhibiting ferroptosis with liproxstatin-1 or ferrostatin-1 markedly increases the expansion of cord blood and adult HSCs consistently across donors in both widely used serum-free cultures and recently reported chemically defined conditions. The expanded cells retain phenotypic and molecular stem cell identity and mediate improved durable, multilineage engraftment in xenotransplanted mice without genotoxicity or aberrant haematopoiesis. Mechanistically, ferroptosis blockade is accompanied by upregulated ribosome biogenesis and cholesterol synthesis, increasing levels of 7-dehydrocholesterol-a potent endogenous ferroptosis inhibitor that itself promotes HSC expansion. Crucially, this approach enhances yields of therapeutically genome-modified HSCs, paving a path for clinical applications.
改善人类造血干细胞(HSC)的体外扩增将极大地推动移植和基因组工程疗法的发展,然而现有的培养方法仍会导致大量HSC损失。我们在此表明,这种损耗在很大程度上是由铁死亡驱动的,铁死亡是一种代谢调节的、铁依赖性的细胞死亡途径,并且可以通过阻断它来增强HSC扩增。在广泛使用的无血清培养和最近报道的化学成分确定的条件下,用liproxstatin-1或ferrostatin-1抑制铁死亡可显著增加来自不同供体的脐带血和成人HSC的扩增。扩增后的细胞保留了表型和分子干细胞特征,并在异种移植小鼠中介导了更好的持久多谱系植入,且无基因毒性或异常造血现象。从机制上讲,阻断铁死亡伴随着核糖体生物发生和胆固醇合成的上调,增加了7-脱氢胆固醇的水平,7-脱氢胆固醇是一种有效的内源性铁死亡抑制剂,其本身可促进HSC扩增。至关重要的是,这种方法提高了经基因组修饰的治疗性HSC的产量,为临床应用铺平了道路。
