Here, we tested the hypothesis that pulmonary vascular remodeling observed in human SCD with concomitant PH could be replicated and mechanistically driven in our rat model by a similar macrophage phenotype with iron accumulation and expression of a similar mixture of antioxidant (HO-1), vasoactive (ET-1), and inflammatory (IL-6) proteins.
Altogether, we revealed that elevated S1P, coupled with macrophage S1PR1 reciprocally inducing IL-6 expression, is a key signaling network functioning as a malicious, positive, feed-forward loop to sustain inflammation and promote tissue damage in SCD.
Citrated plasma TF, sE-sel, vWf, fibrinogen and fibrin D-dimer, and serum IL-6 and hsCRP (enzyme-linked immunosorbent assay/Clauss) were measured in 64 patients with SCD (27 with HbSS disease) and 42 AA subjects matched for age and ethnic origin.