Research (Jan 2023)

Desialylated Platelet Clearance in the Liver is a Novel Mechanism of Systemic Immunosuppression

  • June Li,
  • Danielle Karakas,
  • Feng Xue,
  • Yingyu Chen,
  • Guangheng Zhu,
  • Yeni H. Yucel,
  • Sonya A. MacParland,
  • Haibo Zhang,
  • John W. Semple,
  • John Freedman,
  • Qizhen Shi,
  • Heyu Ni

DOI
https://doi.org/10.34133/research.0236
Journal volume & issue
Vol. 6

Abstract

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Platelets are small, versatile blood cells that are critical for hemostasis/thrombosis. Local platelet accumulation is a known contributor to proinflammation in various disease states. However, the anti-inflammatory/immunosuppressive potential of platelets has been poorly explored. Here, we uncovered, unexpectedly, desialylated platelets (dPLTs) down-regulated immune responses against both platelet-associated and -independent antigen challenges. Utilizing multispectral photoacoustic tomography, we tracked dPLT trafficking to gut vasculature and an exclusive Kupffer cell-mediated dPLT clearance in the liver, a process that we identified to be synergistically dependent on platelet glycoprotein Ibα and hepatic Ashwell–Morell receptor. Mechanistically, Kupffer cell clearance of dPLT potentiated a systemic immunosuppressive state with increased anti-inflammatory cytokines and circulating CD4+ regulatory T cells, abolishable by Kupffer cell depletion. Last, in a clinically relevant model of hemophilia A, presensitization with dPLT attenuated anti-factor VIII antibody production after factor VIII ( infusion. As platelet desialylation commonly occurs in daily-aged and activated platelets, these findings open new avenues toward understanding immune homeostasis and potentiate the therapeutic potential of dPLT and engineered dPLT transfusions in controlling autoimmune and alloimmune diseases.