Absence Of Interleukin-6 Protects Murine Bone Marrow Erythropoiesis Under Inflammation, In A Process Reversible By Iron Mediated Reactive Oxygen Species Upregulation

Inflammatory states seen in infections and chronic disorders are often characterized by a condition called anemia of Inflammation (AI). Using a mouse model of AI generated by a single injection of the heat killed pathogen Brucella abortus (BA), we have previously shown that mice lacking IL6 (IL6 -KO mice) exhibited protected erythropoiesis in the bone marrow (BM) and a faster recovery from anemia compared to controls. To study the mechanism of IL6 mediated improved erythropoiesis under AI, we investigated erythroid recovery in WT and IL6 -KO mice injected with BA. 72 hours following BA administration, both genotypes showed impaired BM erythropoiesis associated by a surge in inflammatory cytokines such as IFNγ and TNFα and a concurrent increase in mitochondrial ROS (reactive oxygen species), specifically superoxide (SO) in erythroid progenitors. Cytokines levels were normalized after 24 hours. However, during the second phase of erythroid recovery (10-14 days following BA treatment), mice showed a second surge of inflammatory cytokines. During this phase, IL6 -KO mice showed significantly improved BM erythropoiesis and normalization of ROS levels. We analyzed SO levels by Mitosox red, generic ROS production using the chloromethyl derivative of 2′,7′-dichlorofluorescin diacetate and total protein oxidation (by looking at total protein carbonylation) by Western blot. These results were in sharp contrast to WT animals which continued to show upregulated ROS, total protein oxidation and slackened erythroid recovery.