Abstract
AbstractTo better understand the tissue iron overload and anemia previously reported in a human patient and mice that lack heme oxygenase-1 (HO-1), we studied iron distribution and pathology in HO-1(Hmox1)−/− mice. We found that resident splenic and liver macrophages were mostly absent in HO-1−/− mice. Erythrophagocytosis caused the death of HO-1−/− macrophages in in vitro experiments, supporting the hypothesis that HO-1−/− macrophages died of exposure to heme released on erythrophagocytosis. Rupture of HO-1−/− macrophages in vivo and release of nonmetabolized heme probably caused tissue inflammation. In the spleen, initial splenic enlargement progressed to red pulp fibrosis, atrophy, and functional hyposplenism in older mice, recapitulating the asplenia of an HO-1–deficient patient. We postulate that the failure of tissue macrophages to remove senescent erythrocytes led to intravascular hemolysis and increased expression of the heme and hemoglobin scavenger proteins, hemopexin and haptoglobin. Lack of macrophages expressing the haptoglobin receptor, CD163, diminished the ability of haptoglobin to neutralize circulating hemoglobin, and iron overload occurred in kidney proximal tubules, which were able to catabolize heme with HO-2. Thus, in HO-1−/− mammals, the reduced function and viability of erythrophagocytosing macrophages are the main causes of tissue damage and iron redistribution.
Highlights
Humans and mice contain 2 well-characterized heme oxygenase (HO) enzymes: heme oxygenase-1 (HO-1), which is inducible, and HO-2, which is constitutively expressed in most tissues.[1,2] HO metabolizes heme and releases free iron, carbon monoxide, and biliverdin, which quickly undergoes conversion to bilirubin
We discovered that the phenotype of HO-1Ϫ/Ϫ animals evolved significantly as animals aged, and the inability of erythrophagocytosing HO-1Ϫ/Ϫ macrophages to catabolize heme appeared to be the fundamental cause of intravascular hemolysis, tissue fibrosis, and tissue iron redistribution
Histologic examination revealed that red pulp areas were enlarged in the spleens of young HO-1Ϫ/Ϫ mice, but red pulp areas were replaced by fibrotic tissue and fewer Red blood cells (RBCs) were observed in the shrunken spleens of older mice
Summary
Humans and mice contain 2 well-characterized heme oxygenase (HO) enzymes: HO-1, which is inducible, and HO-2, which is constitutively expressed in most tissues.[1,2] HO metabolizes heme and releases free iron, carbon monoxide, and biliverdin, which quickly undergoes conversion to bilirubin. Hemopexin (Hpx) is a heme-binding serum protein that scavenges free heme in the circulation,[6,7] and haptoglobin (Hp) binds free Hb,[8,9] whereupon the Hb-Hp complex is endocytosed through the CD163 receptor[10] and is metabolized by macrophages
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