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. 2025 Jul;643(8070):182-191.
doi: 10.1038/s41586-025-09076-x. Epub 2025 Jun 4.

Ischaemic endothelial necroptosis induces haemolysis and COVID-19 angiopathy

Mike C L Wu  1   2 Ethan Italiano  1   2 Rocko Jarvis-Child  1   2   3 Imala Alwis  1   2   3 Rhyll Smythe  1   2 Eduardo A Albornoz  4 Jonathan Noonan  5 Marie Portelli  1   2 Marissa Baptista  1   2 Jessica Maclean  1   2 Pashtana Noori  1   2 Jinglu Yang  1   2 John D Lee  4 James D McFadyen  5   6 Alexandra F Sharland  2   7 Trent M Woodruff  4 Andre L Samson  8   9 Amy Rapkiewicz  10 Tessa J Barrett  11 Alan Pham  12 Simone M Schoenwaelder  1   2   3   13 Yuping Yuan #  1   2   3 Shaun P Jackson #  14   15   16   17
Affiliations

Ischaemic endothelial necroptosis induces haemolysis and COVID-19 angiopathy

Mike C L Wu et al. Nature. 2025 Jul.

Abstract

Microangiopathy is a major complication of SARS-CoV-2 infection and contributes to the acute and chronic complications of the disease1. Endotheliopathy and dysregulated blood coagulation are prominent in COVID-19 and are considered to be major causes of microvascular obstruction1,2. Here we demonstrate extensive endothelial cell (EC) death in the microvasculature of COVID-19 organs. Notably, EC death was not associated with fibrin formation or platelet deposition, but was linked to microvascular red blood cell (RBC) haemolysis. Importantly, this RBC microangiopathy was associated with ischaemia-reperfusion injury, and was prominent in the microvasculature of humans with myocardial infarction, gut ischaemia, stroke, and septic and cardiogenic shock. Mechanistically, ischaemia induced MLKL-dependent EC necroptosis and complement-dependent RBC haemolysis. Deposition of haemolysed RBC membranes at sites of EC death resulted in the development of a previously unrecognized haemostatic mechanism preventing microvascular bleeding. Exaggeration of this haemolytic response promoted RBC aggregation and microvascular obstruction. Genetic deletion of Mlkl from ECs decreased RBC haemolysis, microvascular obstruction and reduced ischaemic organ injury. Our studies demonstrate the existence of a RBC haemostatic mechanism induced by dying ECs, functioning independently of platelets and fibrin. Therapeutic targeting of this haemolytic process may reduce microvascular obstruction in COVID-19, and other major human diseases associated with organ ischaemia.

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Conflict of interest statement

Competing interests: A.L.S. has contributed to the development of necroptosis pathway inhibitors in collaboration with Anaxis Pharma. The other authors declare no competing interests.

References

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