Modulated red blood cell survival by membrane protein clustering

Abstract

Human and murine blood cells treated with ZnCl₂ and bis(sulfosuccinimidyl)suberate (BS³) (a cross linking agent) undergo band 3 clustering and binding of hemoglobin to red blood cell membrane proteins. These clusters induce autologous IgG binding and complement fixation, thus favouring the phagocytosis of ZnCl₂/BS³ treated cells by macrophages. The extension of red blood cell opsonization can be easily modulated by changing the ZnCl₂ concentration in the 0.1–1.0 mM range thus providing an effective way to affect blood cell recognition by macrophages. In fact, murine erythrocytes treated with increasing ZnCl₂ concentrations have proportionally reduced survivals when reinjected into the animal. Furthermore, the organ sequestration of ZnCl₂/BS³ treated cells strongly resembles the typical distribution of the senescent cells. Since the ZnCl₂/BS³ treatment can also be performed on red blood cells loaded with drugs or other substances, this procedure is an effective drug-targeting system to be used for the delivery of molecules to peritoneal, liver and spleen macrophages.