Frataxin deficiency alters heme pathway transcripts and decreases mitochondrial heme metabolites in mammalian cells

doi:10.1093/hmg/ddi393

Human Molecular Genetics Advance Access originally published online on October 20, 2005
Human Molecular Genetics 2005 14(24):3787-3799; doi:10.1093/hmg/ddi393

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Frataxin deficiency alters heme pathway transcripts and decreases mitochondrial heme metabolites in mammalian cells

Robert A. Schoenfeld¹^,, Eleonora Napoli¹^,, Alice Wong¹, Shan Zhan¹, Laurence Reutenauer⁵, Dexter Morin¹, Alan R. Buckpitt¹, Franco Taroni², Bo Lonnerdal³, Michael Ristow⁴, Hélène Puccio⁵ and Gino A. Cortopassi¹^,*

¹Department of Molecular Biosciences, ²Department of Nutrition, University of California, Davis, USA, ³Division of Biochemistry and Genetics, Instituto Nazionale Neurologico, Carlo Besta, Via Celoria 11, Milan, Italy, ⁴Department of Human Nutrition, Institute of Nutrition, University of Jena, Germany and ⁵Institut de Génétique et de Biologie Moléculaire et Cellulaire, CNRS/INSERM/Université Louis Pasteur, Strasbourg, France

^* To whom correspondence should be addressed at: Department of Molecular Biosciences, 1 Shields Avenue, Davis, CA 95616, USA. Tel: +1 5307549665; Fax: +1 5307549342; Email: gcortopassi{at}ucdavis.edu

Received August 18, 2005; Accepted October 13, 2005

Deficiency of the frataxin mRNA alters the transcriptome, triggeringneuro- and cardiodegeneration in Friedreich's ataxia. We microarrayedmurine frataxin-deficient heart tissue, liver tissue and cardiocytesand observed a transcript down-regulation to up-regulation ratioof nearly 2 : 1 with a mitochondrial localizationof transcriptional changes. Combining all mouse and human microarraydata for frataxin-deficient cells and tissues, the most consistentlydecreased transcripts were mitochondrial coproporphyrinogenoxidase (CPOX) of the heme pathway and mature T-cell proliferation1, a homolog of yeast COX23, which is thought to function asa mitochondrial metallochaperone. Quantitative RT-PCR studiesconfirmed the significant down-regulation of Isu1, CPOX andferrochelatase at 10 weeks in mouse hearts. We observed thatmutant cells were resistant to aminolevulinate-dependent toxicity,as expected if the heme pathway was inhibited. Consistent withthis, we observed increased cellular protoporphyrin IX levels,reduced mitochondrial heme a and heme c levels and reduced activityof cytochrome oxidase, suggesting a defect between protoporphyrinIX and heme a. Fe-chelatase activities were similar in mutantsand controls, whereas Zn-chelatase activities were slightlyelevated in mutants, supporting the idea of an altered metal-specificityof ferrochelatase. These results suggest that frataxin deficiencycauses defects late in the heme pathway. As ataxic symptomsoccur in other diseases of heme deficiency, the heme defectwe observe in frataxin-deficient cells could be primary to thepathophysiological process.

The authors wish it to be known that, in their opinion, thefirst two authors should be regarded as joint First Authors.

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