Puma 的缺失可保护造血干细胞,并赋予其在大剂量 γ 射线辐射下的长期存活能力。
Deletion of Puma protects hematopoietic stem cells and confers long-term survival in response to high-dose gamma-irradiation.
机构信息
Department of Radiation Oncology, University of Pittsburgh School of Medicine, PA, USA.
出版信息
Blood. 2010 Apr 29;115(17):3472-80. doi: 10.1182/blood-2009-10-248278. Epub 2010 Feb 22.
Abstract
Molecular paradigms underlying the death of hematopoietic stem cells (HSCs) induced by ionizing radiation are poorly defined. We have examined the role of Puma (p53 up-regulated mediator of apoptosis) in apoptosis of HSCs after radiation injury. In the absence of Puma, HSCs were highly resistant to gamma-radiation in a cell autonomous manner. As a result, Puma-null mice or the wild-type mice reconstituted with Puma-null bone marrow cells were strikingly able to survive for a long term after high-dose gamma-radiation that normally would pose 100% lethality on wild-type animals. Interestingly, there was no increase of malignancy in the exposed animals. Such profound beneficial effects of Puma deficiency were likely associated with better maintained quiescence and more efficient DNA repair in the stem cells. This study demonstrates that Puma is a unique mediator in radiation-induced death of HSCs. Puma may be a potential target for developing an effective treatment aimed to protect HSCs from lethal radiation.
摘要
电离辐射诱导造血干细胞(HSCs)死亡的分子模式尚未明确。我们研究了 Puma(p53 上调凋亡介质)在 HSCs 辐射损伤后凋亡中的作用。在没有 Puma 的情况下,HSCs 以细胞自主的方式对γ射线具有高度抗性。因此,缺乏 Puma 的小鼠或用缺乏 Puma 的骨髓细胞重建的野生型小鼠在通常会使野生型动物 100%致死的高剂量γ射线照射后能够长期存活。有趣的是,暴露动物没有增加恶性肿瘤。Puma 缺乏的这种深远的有益效果可能与干细胞中更好地维持静止和更有效的 DNA 修复有关。本研究表明,Puma 是 HSCs 辐射诱导死亡的独特介质。Puma 可能是开发有效治疗方法的潜在靶点,旨在保护 HSCs 免受致死性辐射。
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