Abstract Body: Background: Preeclampsia (PE) is a severe hypertensive disorder of pregnancy of unknown pathophysiology. We previously have reported the presence of senescence in kidney and fat tissue of PE women, as well as accelerated epigenetic aging, which prompted us to postulate that cellular senescence may drive development of PE.
Methods: We prospectively collected sera from pregnant women throughout pregnancy, and using multiplex Luminex analysis, measured 50 markers of the senescence-associated secretory phenotype (SASP). Comparisons were made between women who developed PE (n=10) vs. normotensive pregnancies (n=10). We then injected human PE serum into the IL-10KO mouse to induce PE and assess whether PE is associated with development of senescence. We measured plasma p16, a circulating indicator of cellular senescence, before and after inducing PE. We also compared plasma p16 and expressions of senescence-associated genes in the hearts and aortas of regular pregnant (PG, no PE serum injection) and PE mice (n=4).
Results: There was a significant increase in several SASP markers in sera of women who developed PE, beginning in the first trimester, through delivery. Notably, eotaxin, MCP1, GROb, MIF, MMP2, TNFRII, IGFBP2 were significantly increased in PE women compared to their normotensive peers throughout all trimesters. Mice injected with PE serum exhibited all features of PE, as reported earlier. When measuring plasma p16 before and after PE serum injection, animals had higher values upon inducing PE. Plasma samples of PE mice demonstrated higher p16 concentrations compared to the PG group. The aortas of PE mice exhibited increased expressions of senescence associated genes p16, il6, and mcp1, whereas in the hearts, p16, Il1a and il8 were upregulated.
Conclusion: The SASP is present very early in human pregnancy, even before PE has developed. Injection of SASP-enriched PE serum into IL-10KO mice induces cellular senescence in different tissues resulting in a PE phenotype. These results suggest that senescence may be an underlying mechanism of PE.