Mutations of SF3B1, a splicing complex component, may, via altered gene expression or abnormal protein-protein interaction, disturb mitochondrial iron handling in a way that causes mitochondrial iron accumulation in acquired sideroblastic anemia. Possible targets include (1) the final step of heme synthesis, that is, incorporation of Fe2+ into protoporphyrin IX by ferrochelatase; (2) the mitochondrial respiratory chain (RC), whose malfunction may lead to oxidation of Fe2+ (with Fe3+ being rejected by ferrochelatase); (3) iron sulfur cluster (ISC) assembly, whose malfunction can impair the RC as well as ferrochelatase; and (4) the export of heme or ISCs from the mitochondrial matrix.

Mutations of SF3B1, a splicing complex component, may, via altered gene expression or abnormal protein-protein interaction, disturb mitochondrial iron handling in a way that causes mitochondrial iron accumulation in acquired sideroblastic anemia. Possible targets include (1) the final step of heme synthesis, that is, incorporation of Fe2+ into protoporphyrin IX by ferrochelatase; (2) the mitochondrial respiratory chain (RC), whose malfunction may lead to oxidation of Fe2+ (with Fe3+ being rejected by ferrochelatase); (3) iron sulfur cluster (ISC) assembly, whose malfunction can impair the RC as well as ferrochelatase; and (4) the export of heme or ISCs from the mitochondrial matrix.

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