Abstract WP564: Deep Immune Profiling of the Post-Stroke Peripheral Immune Response Reveals Tri-phasic Response and Correlations With Long-Term Cognitive Outcomes

Abstract

Introduction: Stroke produces profound local and systemic immune responses that engage all major innate and adaptive immune compartments. The aim of this study was to characterize the systemic immune response to stroke and to determine if it contributes to long-term cognitive disability. Methods: We included 24 consecutive subjects with ischemic stroke and excluded patients for autoimmune disorders, use of immunosuppressant drugs, or life expectancy <90 days. Blood samples were collected for up to 9 timepoints after stroke (days 1, 2, 3, 5, 7, 14, 30, 90, and 365). Change in cognitive function between days 90 and 365 was assessed using the Montreal Cognitive Assessment (MoCA). Control samples were from a cohort of 24 sex- and age-matched patients prior to hip replacement surgery. We used mass cytometry to acquire 240 immune features from each sample, representing 20 immune cell subtypes, their frequency, cell surface markers, and activation states. Elastic Net (EN) regularized regression modeling was used to characterize phases of the immune response and to correlate stages of the immune response with change in cognitive function. Results: The EN model identified three distinct phases of the systemic immune response to ischemic stroke: The acute phase (day 2) was characterized by increased STAT3 (signal transducer and activator of transcription 3) signaling responses in innate immune cell types. The intermediate phase (day 5) was characterized by increased CREB (cAMP response element-binding protein) signaling responses in adaptive immune cell types. The late phase (day 90) was characterized by persistent elevation of neutrophils and IgM+ B cells. By day 365 there was a return to baseline immune responses, comparable to the controls. A decline in MoCA scores between day 90 and day 365 after stroke correlated with a stronger inflammatory response in the acute phase (r = -0.692, Bonferroni-corrected p = 0.04). Conclusions: The results demonstrate three distinct phases of the peripheral immune response that occur after stroke, spanning from days 2 to day 90. The acute phase immune response predicts post-stroke cognitive decline, suggesting that therapies aimed at optimizing this response could lead to preservation of cognitive functioning post-stroke.