PAFAH2 抑制同步性铁死亡以改善急性肾损伤 2024年1月,南开大学、中国科学技术大学、浙江大学等单位的相关研究人员在《Nature Chemical Biology》(IF: 14.8)上发表了题为“PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney injury”的研究论文,为同步性铁死亡提供了机制方面的见解,并为急性肾损伤(AKI...
2024年1月29日,南开大学生命科学学院陈佺教授课题组、中国科学技术大学熊伟教授课题组和浙江大学生命科学学院王勇研究员课题组合作在Nature Chemical Biology期刊在线发表了题为PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney injury的文章,报道了铁死亡的传播因子和调控机制,发现磷脂酶PAFAH2可以抑制...
2024年1月29日,南开大学生命科学学院陈佺教授课题组、中国科学技术大学熊伟教授课题组和浙江大学生命科学学院王勇研究员课题组合作在Nature Chemical Biology期刊在线发表了题为PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney ...
中国科学技术大学熊伟教授课题组和浙江大学生命科学学院王勇研究员课题组合作在Nature Chemical Biology期刊在线发表了题为PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney injury的文章,报道了铁死亡的传播因子和调控机制,发现磷脂酶PAFAH2可以抑制血小板激活因子PAF(platelet activating factor)及其类似物...
Synchronized ferroptosis contributes to nephron loss in acute kidney injury (AKI). However, the propagation signals and the underlying mechanisms of the synchronized ferroptosis for renal tubular injury remain unresolved. Here we report that platelet-activating factor (PAF) and PAF-like phospholipids (PA...
PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney injurySynchronized ferroptosis contributes to nephron loss in acute kidney injury (AKI). However, the propagation signals and the underlying mechanisms of the synchronized ferroptosis for renal tubular injury remain unresolved. Here we ...
Author Correction: PAFAH2 suppresses synchronized ferroptosis to ameliorate acute kidney injurydoi:10.1038/s41589-024-01566-9Nature Publishing Group USNature Chemical Biology