Abstract
The mitochondrial ADP/ATP carrier, or Ancp, is a member of the mitochondrial carrier family responsible for exchanging ADP and ATP across the mitochondrial inner membrane. ADP/ATP transport involves Ancp switching between two conformational states. These can be analyzed using specific inhibitors, carboxyatractyloside (CATR) and bongkrekic acid (BA). The high resolution three-dimensional structure of bovine Anc1p (bAnc1p), as a CATR-carrier complex, has been solved. However, because the structure of the BA-carrier complex has not yet been determined, the detailed mechanism of transport remains unknown. Recently, sample processing for hydrogen/deuterium exchange experiments coupled to mass spectrometry was improved, providing novel insights into bAnc1p conformational transitions due to inhibitor binding. In this work we performed both hydrogen/deuterium exchange-mass spectrometry experiments and genetic manipulations. Because these are very difficult to apply with bovine Anc1p, we used Saccharomyces cerevisiae Anc isoform 2 (ScAnc2p). Significant differences in solvent accessibility were observed throughout the amino acid sequence for ScAnc2p complexed to either CATR or BA. Interestingly, in detergent solution, the conformational dynamics of ScAnc2p were dissimilar to those of bAnc1p, in particular for the upper half of the cavity, toward the intermembrane space, and the m2 loop, which is thought to be easily accessible to the solvent from the matrix in bAnc1p. Our study then focused on the methionyl residues of the Ancp signature sequence, RRRMMM. All our results indicate that the methionine cluster is involved in the ADP/ATP transport mechanism and confirm that the Ancp cavity is a highly dynamic structure.
Highlights
ADP/ATP carrier (Ancp) is a model of mitochondrial carriers that mediates the transport of metabolic intermediates
Ancp belongs to the mitochondrial carrier family (MCF), all members of which share common features, i.e. similar molecular masses of about 30 kDa, a so-called tripartite organization consisting in three sequence repeats of about 100 amino acids, 5 The abbreviations used are: Ancp, ADP/ATP carrier; bovine Anc1p (bAnc1p), bovine isoform 1 Ancp; ScAnc2p, yeast isoform 2 Ancp; CATR, carboxyatractyloside; ATR, atractyloside; BA, bongkrekic acid; IMS, intermembrane space; HTP, hydroxylapatite; VDAC1, isoform one of the yeast mitochondrial porin; HDX, hydrogen/deuterium exchange; ESI, electrospray ionization; MCF, mitochondrial carrier family; YPL, yeast peptone liver
Our results indicate that ScAnc2p has a highly dynamic structure, with different protein parts acting in synergy
Summary
ADP/ATP carrier (Ancp) is a model of mitochondrial carriers that mediates the transport of metabolic intermediates. ADP/ ATP transport involves Ancp switching between two conformational states These can be analyzed using specific inhibitors, carboxyatractyloside (CATR) and bongkrekic acid (BA). In this work we performed both hydrogen/deuterium exchange-mass spectrometry experiments and genetic manipulations Because these are very difficult to apply with bovine Anc1p, we used Saccharomyces cerevisiae Anc isoform 2 (ScAnc2p). All our results indicate that the methionine cluster is involved in the ADP/ATP transport mechanism and confirm that the Ancp cavity is a highly dynamic structure. The mitochondrial ADP/ATP carrier (Ancp) plays a key role in supplying energy to aerobic eukaryotic cells. It is the last element of the oxidative phosphorylation system, allowing ATP to be exported into the cytosol in exchange for ADP. Ancp belongs to the mitochondrial carrier family (MCF), all members of which share common features, i.e. similar molecular masses of about 30 kDa, a so-called tripartite organization consisting in three sequence repeats of about 100 amino acids,
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