Abstract
The role of platelet TLR4 in transfusion reactions remains unclear. This study analyzed platelet TLR4 and certain damage-associated molecular patterns (DAMPs) and evaluated how ABO compatibility affected TLR4 expression after a simulated ex vivo transfusion. A blood bank was the source of donor red blood cells. Blood from patients undergoing cardiac surgery was processed to generate a washed platelet suspension to which the donor blood was added in concentrations 1, 5, and 10% (v/v). Blood-mixing experiments were performed on four groups: a 0.9% saline control group (n = 31); a matched-blood-type mixing group (group M, n = 20); an uncross-matched ABO-specific mixing group (group S, n = 20); and an ABO-incompatible blood mixing group (group I, n = 20). TLR4 expression in the platelets was determined after blood mixing. We evaluated levels of TLR4-binding DAMPs (HMGB1, S100A8, S100A9, and SAA), lipopolysaccharide-binding protein, and endpoint proteins in the TLR4 signaling pathway. In the M, S, and I groups, 1, 5, and 10% blood mixtures significantly increased TLR4 expression (all p < 0.001) in a concentration-dependent manner. Groups M, S, and I were not discovered to have significantly differing TLR4 expression (p = 0.148). HMGB1, S100A8, and S100A9 levels were elevated in response to blood mixing, but SAA, lipopolysaccharide-binding protein, TNF-α, IL-1β, and IL-6 levels were not. Blood mixing may elicit innate immune responses by upregulating platelet TLR4 and DAMPs unassociated with ABO compatibility, suggesting that innate immunity through TLR4-mediated signaling may induce transfusion reactions.
Highlights
Blood transfusions are critical interventions, for patients undergoing hemorrhagic shock
Regarding platelet TLR4 expression, the flow cytometric analysis findings are displayed in Supplemental Figure S1 as fluorescence dot plots showing TLR4 expression in isotype
We revealed that levels of certain damage-associated molecular patterns (DAMPs), including high mobility group box 1 (HMGB1), S100A8, and S100A9, were elevated after blood mixing, and this finding was corroborated by other reports [16,17,18,19,20] on blood transfusions (Figure 3)
Summary
Blood transfusions are critical interventions, for patients undergoing hemorrhagic shock. Despite significant advancements in the safety of blood transfusions, such procedures are still associated with major risks. The mechanisms of immune reactions, innate immune reactions, are unclear. Related reactions can result from transfusion with cross-matched blood, uncrossmatched type-specific blood, or ABO-incompatible blood [1]. Immune reactions to blood transfusions involve complex interactions among various soluble factors and immune cells, including platelets [1]. Platelets have a major role in thrombosis and hemostasis and are known to have a mediating effect on the body’s innate immune response [2].
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