Targeted deletion of the mouse Mitoferrin1 gene: From anemia to protoporphyria

Marie Berengere Troadec; David Warner; Jared Wallace; Kirk Thomas; Gerald J. Spangrude; John Phillips; Oleh Khalimonchuk; Barry H. Paw; Diane Mc Vey Ward; Jerry Kaplan

doi:10.1182/blood-2010-11-319483

Targeted deletion of the mouse Mitoferrin1 gene: From anemia to protoporphyria

Marie Berengere Troadec, David Warner, Jared Wallace, Kirk Thomas, Gerald J. Spangrude, John Phillips, Oleh Khalimonchuk, Barry H. Paw, Diane Mc Vey Ward, Jerry Kaplan

Research output: Contribution to journal › Article › peer-review

84 Scopus citations

Abstract

Mitoferrin1 is 1 of 2 homologous mitochondrial iron transporters and is required for mitochondrial iron delivery in developing erythroid cells. We show that total deletion of Mfrn1 in embryos leads to embryonic lethality. Selective deletion of Mfrn1 in adult hematopoietic tissues leads to severe anemia because of a deficit in erythroblast formation. Deletion of Mfrn1 in hepatocytes has no phenotype or biochemical effect under normal conditions. In the presence of increased porphyrin synthesis, however, deletion of Mfrn1 in hepatocytes results in a decreased ability to convert protoporphyrin IX into heme, leading to protoporphyria, cholestasis, and bridging cirrhosis. Our results show that the activity of mitoferrin1 is required to manage an increase in heme synthesis. The data also show that alterations in heme synthesis within hepatocytes can lead to protoporphyria and hepatotoxicity.

Original language	English (US)
Pages (from-to)	5494-5502
Number of pages	9
Journal	Blood
Volume	117
Issue number	20
DOIs	https://doi.org/10.1182/blood-2010-11-319483
State	Published - May 19 2011
Externally published	Yes

ASJC Scopus subject areas

Biochemistry
Immunology
Hematology
Cell Biology

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title = "Targeted deletion of the mouse Mitoferrin1 gene: From anemia to protoporphyria",

abstract = "Mitoferrin1 is 1 of 2 homologous mitochondrial iron transporters and is required for mitochondrial iron delivery in developing erythroid cells. We show that total deletion of Mfrn1 in embryos leads to embryonic lethality. Selective deletion of Mfrn1 in adult hematopoietic tissues leads to severe anemia because of a deficit in erythroblast formation. Deletion of Mfrn1 in hepatocytes has no phenotype or biochemical effect under normal conditions. In the presence of increased porphyrin synthesis, however, deletion of Mfrn1 in hepatocytes results in a decreased ability to convert protoporphyrin IX into heme, leading to protoporphyria, cholestasis, and bridging cirrhosis. Our results show that the activity of mitoferrin1 is required to manage an increase in heme synthesis. The data also show that alterations in heme synthesis within hepatocytes can lead to protoporphyria and hepatotoxicity.",

author = "Troadec, {Marie Berengere} and David Warner and Jared Wallace and Kirk Thomas and Spangrude, {Gerald J.} and John Phillips and Oleh Khalimonchuk and Paw, {Barry H.} and Ward, {Diane Mc Vey} and Jerry Kaplan",

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T1 - Targeted deletion of the mouse Mitoferrin1 gene

T2 - From anemia to protoporphyria

AU - Troadec, Marie Berengere

AU - Warner, David

AU - Wallace, Jared

AU - Thomas, Kirk

AU - Spangrude, Gerald J.

AU - Phillips, John

AU - Khalimonchuk, Oleh

AU - Paw, Barry H.

AU - Ward, Diane Mc Vey

AU - Kaplan, Jerry

PY - 2011/5/19

Y1 - 2011/5/19

N2 - Mitoferrin1 is 1 of 2 homologous mitochondrial iron transporters and is required for mitochondrial iron delivery in developing erythroid cells. We show that total deletion of Mfrn1 in embryos leads to embryonic lethality. Selective deletion of Mfrn1 in adult hematopoietic tissues leads to severe anemia because of a deficit in erythroblast formation. Deletion of Mfrn1 in hepatocytes has no phenotype or biochemical effect under normal conditions. In the presence of increased porphyrin synthesis, however, deletion of Mfrn1 in hepatocytes results in a decreased ability to convert protoporphyrin IX into heme, leading to protoporphyria, cholestasis, and bridging cirrhosis. Our results show that the activity of mitoferrin1 is required to manage an increase in heme synthesis. The data also show that alterations in heme synthesis within hepatocytes can lead to protoporphyria and hepatotoxicity.

AB - Mitoferrin1 is 1 of 2 homologous mitochondrial iron transporters and is required for mitochondrial iron delivery in developing erythroid cells. We show that total deletion of Mfrn1 in embryos leads to embryonic lethality. Selective deletion of Mfrn1 in adult hematopoietic tissues leads to severe anemia because of a deficit in erythroblast formation. Deletion of Mfrn1 in hepatocytes has no phenotype or biochemical effect under normal conditions. In the presence of increased porphyrin synthesis, however, deletion of Mfrn1 in hepatocytes results in a decreased ability to convert protoporphyrin IX into heme, leading to protoporphyria, cholestasis, and bridging cirrhosis. Our results show that the activity of mitoferrin1 is required to manage an increase in heme synthesis. The data also show that alterations in heme synthesis within hepatocytes can lead to protoporphyria and hepatotoxicity.

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Targeted deletion of the mouse Mitoferrin1 gene: From anemia to protoporphyria

Abstract

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