A central role for mitochondrial dysfunction has been proposed in the pathogenesis of DS (Down's syndrome), a multifactorial disorder caused by trisomy of human chromosome 21. To explore whether and how abnormalities in mitochondrial energy metabolism are involved in DS pathogenesis, we investigated the catalytic properties, gene expression and protein levels of certain proteins involved in mitochondrial ATP synthesis, such as F1F0-ATPase, ANT (adenine nucleotide translocator) and AK (adenylate kinase), in DS-HSF (human skin fibroblasts with trisomic karyotype), comparing them with euploid fibroblasts. In DS-HSF, we found a strong impairment of mitochondrial ATP synthesis due to a reduction in the catalytic efficiency of each of the investigated proteins. This impairment occurred in spite of unchanged gene expression and an increase in ANT and AK protein content, whereas the amount of ATPase subunits was selectively reduced. Interestingly, exposure of DS-HSF to dibutyryl-cAMP, a permanent derivative of cAMP, stimulated ANT, AK and ATPase activities, whereas H89, a specific PKA (protein kinase A) inhibitor, suppressed this cAMPdependent activation, indicating an involvement of the cAMP/PKA-mediated signalling pathway in the ATPase, ANT and AK deficit. Consistently, DS-HSF showed decreased basal levels of cAMP and reduced PKA activity. Despite the impairment of mitochondrial energy apparatus, no changes in cellular energy status, but increased basal levels of L-lactate, were found in DS-HSF, which partially offset for the mitochondrial energy deficit by increasing glycolysis and mitochondrial mass.These results provide new insight into the molecular basis for mitochondrial dysfunction in DS and might provide a molecular explanation for some clinical features of the syndrome.
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Research Article|
September 28 2010
Impairment of F1F0-ATPase, adenine nucleotide translocator and adenylate kinase causes mitochondrial energy deficit in human skin fibroblasts with chromosome 21 trisomy
Daniela Valenti;
Daniela Valenti
1
*Institute of Biomembranes and Bioenergetics, National Research Council (CNR), 70126 Bari, Italy
1Correspondence may be addressed to either of these authors (email [email protected] or [email protected]).
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Apollonia Tullo;
Apollonia Tullo
†Institute for Biomedical Technologies, National Research Council (CNR), 70126 Bari, Italy
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Mariano F. Caratozzolo;
Mariano F. Caratozzolo
†Institute for Biomedical Technologies, National Research Council (CNR), 70126 Bari, Italy
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Riccardo S. Merafina;
Riccardo S. Merafina
*Institute of Biomembranes and Bioenergetics, National Research Council (CNR), 70126 Bari, Italy
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Paolo Scartezzini;
Paolo Scartezzini
‡Department of Gerontology and Motor Sciences, Galliera Hospitals, 16128 Genova, Italy
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Ersilia Marra;
Ersilia Marra
*Institute of Biomembranes and Bioenergetics, National Research Council (CNR), 70126 Bari, Italy
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Rosa A. Vacca
Rosa A. Vacca
1
*Institute of Biomembranes and Bioenergetics, National Research Council (CNR), 70126 Bari, Italy
1Correspondence may be addressed to either of these authors (email [email protected] or [email protected]).
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Publisher: Portland Press Ltd
Received:
April 20 2010
Revision Received:
July 12 2010
Accepted:
August 10 2010
Accepted Manuscript online:
August 10 2010
Online ISSN: 1470-8728
Print ISSN: 0264-6021
© The Authors Journal compilation © 2010 Biochemical Society
2010
Biochem J (2010) 431 (2): 299–310.
Article history
Received:
April 20 2010
Revision Received:
July 12 2010
Accepted:
August 10 2010
Accepted Manuscript online:
August 10 2010
Citation
Daniela Valenti, Apollonia Tullo, Mariano F. Caratozzolo, Riccardo S. Merafina, Paolo Scartezzini, Ersilia Marra, Rosa A. Vacca; Impairment of F1F0-ATPase, adenine nucleotide translocator and adenylate kinase causes mitochondrial energy deficit in human skin fibroblasts with chromosome 21 trisomy. Biochem J 15 October 2010; 431 (2): 299–310. doi: https://doi.org/10.1042/BJ20100581
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