Iron homeostasis in beta-thalassemic mice.

To explore the pathogenesis of nontransfusional iron overload in iron-loading anemia, we examined features of external iron exchange, internal iron kinetics, and tissue iron burden in adult mice with inherited gene-deletion beta-thalassemia. Mice homozygous for beta-thalassemia display moderate anemia, reticulocytosis, and shortened red cell survival, whereas heterozygous carriers appear hematologically normal. Quantitative iron determination revealed that iron content and concentration in liver, spleen, and kidney, but not heart, were far higher (P less than .01) in 15-to 35-week old homozygous thalassemic mice than in age-matched normal and heterozygous controls; of these tissues, iron content increased with age only in kidneys (P = .01) of homozygous affected mice. Although plasma iron levels were only minimally elevated in homozygotes, plasma iron turnover was threefold greater (P less than .001) than that seen in heterozygote controls. Nevertheless hyperabsorption of enteric radioiron, discernible among homozygous thalassemic mice as late as 6 to 8 weeks after birth, was not observed in older mice, additionally, thalassemic and control mice at 18 to 34 weeks showed comparable iron excretion after intravenous radioiron. We conclude that adult mice with beta-thalassemia regain balanced external iron exchange, despite substantial tissue iron excess and accelerated internal iron transit.