Comparative analysis of Lox-1 and CD36 expression in human platelets and on circulating microparticles during ARDS-induced coagulopathy

Introduction: Acute respiratory distress syndrome (ARDS) patients are at risk of thrombosis through mechanisms implicating oxidized low-density lipoprotein (oxLDL). Endothelial cells, immune cells and platelets were reported to express scavenger receptors for oxLDL: Lox-1 and CD36. We hypothesized that platelets shed a soluble Lox-1 ectodomain (sLox-1) and release CD36-bearing procoagulant microparticles (MPs), that both become elevated in subjects with ARDS-induced coagulopathy.

Methods: Using anti-extracellular and anti-intracellular Lox-1 antibodies, we first tested by western blot whether platelets express Lox-1 and shed sLox-1 upon activation. Next, we measured sLox-1 in blood plasma of 23 healthy donors and 48 ARDS Omega patients with and without coagulopathy, and assessed the corresponding MP fraction for Lox-1/sLox-1 and CD36. We evaluated mechanisms of sLox-1-MP association. Recombinant proteins were used as controls.

Results: Resting platelets expressed abundant CD36 (7.8 ng/μg protein extract) which was released upon oxLDL stimulation, but undetectable levels of full-length 37 kDa Lox-1 receptor or 24 kDa sLox-1 (below 10 pg/μg). In an RNAseq meta-analysis, platelets expressed negligible OLR1, the mRNA encoding Lox-1, compared to CD36. A subset of ARDS patients showed elevated plasma sLox-1 and MP-associated sLox-1 compared to healthy controls that was positively associated with 90-day survival and low coagulopathy. MP-associated CD36 was reduced in ARDS plasma compared to healthy donors and did not correlate with survival, coagulopathy, or sLox-1. oxLDL promoted sLox-1 binding to CD36-deficient MPs.

Conclusion: sLox-1 arising from a non-platelet cell source associates with circulating MPs which could serve a protective role in ARDS.