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1.
EMBO Mol Med ; 11(12): e10489, 2019 12.
Artículo en Inglés | MEDLINE | ID: mdl-31660701

RESUMEN

Pantothenate kinase-associated neurodegeneration (PKAN) is an inborn error of CoA metabolism causing dystonia, parkinsonism, and brain iron accumulation. Lack of a good mammalian model has impeded studies of pathogenesis and development of rational therapeutics. We took a new approach to investigating an existing mouse mutant of Pank2 and found that isolating the disease-vulnerable brain revealed regional perturbations in CoA metabolism, iron homeostasis, and dopamine metabolism and functional defects in complex I and pyruvate dehydrogenase. Feeding mice a CoA pathway intermediate, 4'-phosphopantetheine, normalized levels of the CoA-, iron-, and dopamine-related biomarkers as well as activities of mitochondrial enzymes. Human cell changes also were recovered by 4'-phosphopantetheine. We can mechanistically link a defect in CoA metabolism to these secondary effects via the activation of mitochondrial acyl carrier protein, which is essential to oxidative phosphorylation, iron-sulfur cluster biogenesis, and mitochondrial fatty acid synthesis. We demonstrate the fidelity of our model in recapitulating features of the human disease. Moreover, we identify pharmacodynamic biomarkers, provide insights into disease pathogenesis, and offer evidence for 4'-phosphopantetheine as a candidate therapeutic for PKAN.


Asunto(s)
Coenzima A/metabolismo , Dopamina/metabolismo , Hierro/metabolismo , Panteteína/análogos & derivados , Neurodegeneración Asociada a Pantotenato Quinasa/tratamiento farmacológico , Neurodegeneración Asociada a Pantotenato Quinasa/metabolismo , Animales , Biomarcadores/metabolismo , Genotipo , Ratones , Panteteína/farmacología , Panteteína/uso terapéutico , Fosfotransferasas (Aceptor de Grupo Alcohol)/metabolismo
2.
Mol Genet Genomic Med ; 7(7): e00736, 2019 07.
Artículo en Inglés | MEDLINE | ID: mdl-31087512

RESUMEN

BACKGROUND: Mitochondrial membrane protein-associated neurodegeneration (MPAN) is caused by pathogenic sequence variants in C19orf12. Autosomal recessive inheritance has been demonstrated. We present evidence of autosomal dominant MPAN and propose a mechanism to explain these cases. METHODS: Two large families with apparently dominant MPAN were investigated; additional singleton cases of MPAN were identified. Gene sequencing and multiplex ligation-dependent probe amplification were used to characterize the causative sequence variants in C19orf12. Post-mortem brain from affected subjects was examined. RESULTS: In two multi-generation non-consanguineous families, we identified different nonsense sequence variations in C19orf12 that segregate with the MPAN phenotype. Brain pathology was similar to that of autosomal recessive MPAN. We additionally identified a preponderance of cases with single heterozygous pathogenic sequence variants, including two with de novo changes. CONCLUSIONS: We present three lines of clinical evidence to demonstrate that MPAN can manifest as a result of only one pathogenic C19orf12 sequence variant. We propose that truncated C19orf12 proteins, resulting from nonsense variants in the final exon in our autosomal dominant cohort, impair function of the normal protein produced from the non-mutated allele via a dominant negative mechanism and cause loss of function. These findings impact the clinical diagnostic evaluation and counseling.


Asunto(s)
Trastornos del Metabolismo del Hierro/genética , Proteínas de la Membrana/genética , Proteínas Mitocondriales/genética , Distrofias Neuroaxonales/genética , Adulto , Encéfalo , Codón sin Sentido/genética , Estudios de Cohortes , Familia , Femenino , Genes Dominantes/genética , Heterocigoto , Humanos , Trastornos del Metabolismo del Hierro/metabolismo , Masculino , Membranas Mitocondriales/metabolismo , Proteínas Mitocondriales/metabolismo , Mutación , Distrofias Neuroaxonales/metabolismo , Enfermedades Neurodegenerativas/genética , Enfermedades Neurodegenerativas/metabolismo , Linaje
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