Abstract
The hydrophobic membrane protein, subunit c, has been isolated from ATP synthase purified from bovine heart mitochondria. It has also been obtained from lysosomal storage bodies associated with ceroid lipofuscinosis from ovine liver and from human brain tissue of a victim of Batten disease. It is likely that the lysosomal protein has originated from the mitochondrion. These samples have been characterized by mass spectrometric methods. Irrespective of its source, subunit c has an intact molecular mass of 7650 Da, 42 Da greater than the value calculated from the amino acid sequence, and the protein has been modified post-translationally. In all three samples, the modification is associated with lysine 43, which lies in a polar loop region linking the two transmembrane alpha-helices of the protein. This residue is conserved throughout vertebrate sequences. The additional mass arises from trimethylation and not acetylation at the epsilon-N-position of the residue. These experiments show that the post-translational modification of subunit c is not, as has been suggested, an abnormal phenomenon associated with the etiology of Batten disease and ceroid lipofucinoses. Evidently, it occurs either before or during import of the protein into mitochondria or at a mitochondrial location after completion of the import process. The function of the trimethyllysine residue in the assembled ATP synthase complex is obscure. The residue and the modification are not conserved in all ATP synthases, and their role in the assembly and (or) functioning of the enzyme appear to be confined to higher organisms.
Highlights
Nosis from ovine liver and from human brain tissue of a victim of Batten disease
Irrespective of its source, subunit c has an intact molecular mass of 7650 Da, 42 Da greater than the value calculated from the amino acid sequence, and the protein has been modified post-translationally
More than 25 years ago, the mitochondrial protein was proposed to be folded into two transmembrane ␣-helices linked by a polar loop structure containing the absolutely conserved sequence Arg-Asn-Pro [6, 7]
Summary
Samples of subunit c isolated from bovine mitochondrial ATP synthase and from human and ovine storage bodies have been analyzed by mass spectrometry. Their molecular masses are identical, and they all contain an additional mass of Da. In the bovine, human, and ovine proteins, this mass is associated with lysine and arises from trimethylation of the ⑀-amino group of this residue. As the modification is present in both the mitochondrial protein and in storage bodies, the etiology of the ceroid lipofuscinoses (Batten disease) is not associated with the post-translational modification of lysine 43
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