Abstract

Anemia, inflammation, and oxidative stress are interconnected. Erythrocytes are continuously exposed to oxidative stress, normally and during inflammatory diseases. Systemic mastocytosis and genetic depletion of mast cells affect anemia. In the present study, a direct role for mast cells in clearance of erythrocytes was explored. We show, for the first time, direct phagocytosis of opsonized as well as oxidatively damaged erythrocytes in vitro by mast cell lines, bone marrow derived mast cells (BMMCs) and in vivo by murine peritoneal mast cells. Also, activated mast cells, as may be present in inflammatory conditions, showed a significantly higher uptake of oxidatively damaged erythrocytes than resting mast cells. This suggests the involvement of mast cells in erythrocyte clearance during oxidative stress or inflammatory disorders. Partial inhibition of phagocytosis by various inhibitors indicated that this process may be controlled by several pathways. Our study provides important evidence for a scavenging role for mast cells in anemia due to inflammation and oxidative stress.

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