Abstract
Objective-Sphingosine 1 phosphate (S1P) is a biolipid involved in chronic inflammation in multiple inflammatory disorders. Recent studies revealed that elevated S1P contributes to sickling in sickle cell disease (SCD), a devastating hemolytic genetic disorder associated with severe chronic inflammation. Here we evaluated the impact of S1P in chronic inflammation and underlying mechanisms in SCD.
Approach and Results-First, we demonstrated that interfering with S1P receptor signaling by FTY720, a FDA approved drug, significantly reduced systemic and local inflammation without anti-sickling effects. These findings led us to discover that IL-6 was highly elevated in the circulation and that increased S1P signaling via S1P receptors contributed to the induction of IL-6 in SCD mice. Genetic deletion of IL-6 in SCD significantly reduced local and systemic inflammation and multiple tissue damage and kidney dysfunction. Moreover, we determined that elevated IL-6 led to increased macrophage infiltration and elevated S1P1 gene expression in the macrophages of multiple tissues in SCD mice. Mechanistically, we reveled that S1P-S1P1 signaling reciprocally upregulated IL-6 gene expression in primary mouse macrophages in a JAK2-dependent manner.
Conclusion-Altogether, we revealed that elevated S1P signaling via S1P1-induced IL-6 is a key signaling network functioning as a malicious positive feed forward loop sustaining inflammation and promoting tissue damage in SCD. Our findings immediately highlight novel therapeutic possibilities.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.
