Abstract
Vaso-occlusive episodes (VOEs) in the setting of hyperhemolysis can rapidly evolve into multiorgan failure in sickle cell disease (SCD). Although the mechanisms for rapid progression to multiorgan failure are unclear, a systemic vasculopathy with thrombotic microangiopathy-type features has been described. Reduced thrombomodulin (TM) function is implicated in some thrombotic microangiopathy syndromes. We observed a greater decline in platelet count and hemoglobin concentration and increase in vascular injury biomarkers within 24-hours of admission for a VOE in 12 SCD patients with versus 12 without multiorgan failure. We observed decreased TM expression on the lung and kidney vasculature of three additional SCD patients with multiorgan failure and an autopsy performed compared to a non-SCD control. Transgenic SCD mice challenged with cell-free hemoglobin had reduced TM function, increased vascular injury biomarkers, and reduced renal cortical blood flow. Infusion of recombinant TM 2- or 24-hours after the challenge restored cortical blood flow, mitigated increases in vascular injury, complement activation, and tubular injury biomarkers, and protected against acute kidney and lung injury. We demonstrated that impaired TM function may be involved in the systemic vasculopathy of SCD-related multiorgan failure and infusion of recombinant TM may restore vascular function and protect against acute organ damage.
Authors
Guohui Ren, Dustin R. Fraidenburg, Suman Setty, Jiwang Chen, Janae Gonzales, Maria Armila Ruiz, Zalaya Ivy, Najmeh Eskandari, Richard D. Minshall, James P. Lash, Victor R. Gordeuk, Santosh L. Saraf
