1. Soluble PD-L1 reprograms blood monocytes to prevent cerebral edema and facilitate recovery after ischemic stroke.
- Author
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Kim, Jennifer E., Lee, Ryan P., Yazigi, Eli, Atta, Lyla, Feghali, James, Pant, Ayush, Jain, Aanchal, Levitan, Idan, Kim, Eileen, Patel, Kisha, Kannapadi, Nivedha, Shah, Pavan, Bibic, Adnan, Hou, Zhipeng, Caplan, Justin M., Gonzalez, L. Fernando, Huang, Judy, Xu, Risheng, Fan, Jean, and Tyler, Betty
- Subjects
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CEREBRAL edema , *ISCHEMIC stroke , *PROGRAMMED death-ligand 1 , *MONOCYTES , *IMMUNE checkpoint proteins - Abstract
• Activation of the innate immune system drives outcomes after stroke. • PD-1+ monocytes in the blood of stroke patients correlate with cerebral edema. • PD-L1 administration decreases edema, improves survival, and promotes recovery. • Myeloid-specific PD-1 knockout abrogates the PD-L1 treatment effect. • PD-1 signaling skews blood monocytes away from an inflammatory phenotype prior to tissue infiltration. Acute cerebral ischemia triggers a profound inflammatory response. While macrophages polarized to an M2-like phenotype clear debris and facilitate tissue repair, aberrant or prolonged macrophage activation is counterproductive to recovery. The inhibitory immune checkpoint Programmed Cell Death Protein 1 (PD-1) is upregulated on macrophage precursors (monocytes) in the blood after acute cerebrovascular injury. To investigate the therapeutic potential of PD-1 activation, we immunophenotyped circulating monocytes from patients and found that PD-1 expression was upregulated in the acute period after stroke. Murine studies using a temporary middle cerebral artery (MCA) occlusion (MCAO) model showed that intraperitoneal administration of soluble Programmed Death Ligand-1 (sPD-L1) significantly decreased brain edema and improved overall survival. Mice receiving sPD-L1 also had higher performance scores short-term, and more closely resembled sham animals on assessments of long-term functional recovery. These clinical and radiographic benefits were abrogated in global and myeloid-specific PD-1 knockout animals, confirming PD-1+ monocytes as the therapeutic target of sPD-L1. Single-cell RNA sequencing revealed that treatment skewed monocyte maturation to a non-classical Ly6Clo, CD43hi, PD-L1+ phenotype. These data support peripheral activation of PD-1 on inflammatory monocytes as a therapeutic strategy to treat neuroinflammation after acute ischemic stroke. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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