Sickle cell disease and β-Thalassemia are two of the most prevalent hemoglobinopathies worldwide. Both occur due to genetic mutations within the HBB gene and are characterized by red blood cell dysfunction, anemia, and end-organ injury. The spleen and liver are the primary organs where erythrophagocytosis, engulfing the red blood cells, occurs in these diseases. Understanding metabolism and protein composition within these tissues can therefore inform the extent of hemolysis and disease progression. We utilized a multiomics approach to highlight metabolomic and proteomic differences in the spleen and liver. The Berkley sickle cell disease (Berk-SS), heterozygous B1/B2 globin gene deletion (Hbb