Is Heparin-Binding Protein Inhibition a Mechanism of Albumin’s Efficacy in Human Septic Shock?

Objectives: Our objectives were to determine first whether albumin prevents heparin-binding protein–induced increased endothelial cell permeability and renal cell inflammation and second, whether a plasma heparin-binding protein-to-albumin ratio predicts risk of acute kidney injury, fluid balance, and plasma cytokine levels in septic shock. Design: In vitro human endothelial and renal cell model and observation cohort of septic shock. Settings: Research laboratory and multicenter clinical trial (Vasopressin and Septic Shock Trial). Patients: Adult septic shock (norepinephrine dose > 5 μg/min for > 6 hr). Interventions: In vitro: heparin-binding protein (or thrombin) was added with or without albumin to 1) human endothelial cell monolayers to assess permeability and 2) to human renal tubular epithelial cells to assess inflammation. Measurements and Main Results: Transendothelial electrical resistance—a marker of permeability—of human endothelial cells was measured using a voltohmmeter. We measured plasma heparin-binding protein-to-albumin ratio and a panel of cytokines in septic shock patients (n = 330) to define an heparin-binding protein-to-albumin ratio that predicts risk of acute kidney injury. Albumin inhibited heparin-binding protein (and thrombin-induced) increased endothelial cell permeability at a threshold concentration of 20–30 g/L but increased renal tubular cell interleukin-6 release. Patients who developed or had worsened acute kidney injury had significantly higher heparin-binding protein-to-albumin ratio (1.6 vs 0.89; p 3.05), heparin-binding protein quartiles (> 69.8), and heparin-binding protein > 30 ng/mL were significantly associated with development or worsening of acute kidney injury (p

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