Abnormal RNA processing associated with a novel tRNA mutation in mitochondrial DNA. A potential disease mechanism

A patient with a mitochondrial myopathy and biochemically proven profound complex I deficiency has a new mutation in mtDNA. This A-to-G transition at position 3302, involving the aminoacyl stem of tRNA(Leu(UUR)), is associated with abnormal mitochondrial RNA processing. Northern analysis demonstrate...

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Bibliographic Details
Published in:The Journal of biological chemistry 1993-09, Vol.268 (26), p.19559-19564
Main Authors: BINDOFF, L. A, HOWELL, N, POULTON, J, MCCULLOUGH, D. A, MORTEN, K. J, LIGHTOWLERS, R. N, TURNBULL, D. M, WEBER, K
Format: Article
Language:English
Subjects:
Adult
Amino Acid Sequence
Analytical, structural and metabolic biochemistry
Animals
Anticodon - genetics
Base Sequence
Biological and medical sciences
Blotting, Northern
Cells, Cultured
DNA
DNA, Mitochondrial - genetics
Female
Fibroblasts - enzymology
Fundamental and applied biological sciences. Psychology
Humans
Male
man
mitochondria
Mitochondrial Myopathies - enzymology
Mitochondrial Myopathies - genetics
Molecular Sequence Data
Muscles - enzymology
mutation
myopathy
NAD(P)H Dehydrogenase (Quinone) - deficiency
NAD(P)H Dehydrogenase (Quinone) - genetics
Nucleic Acid Conformation
Nucleic acids
Oligodeoxyribonucleotides
Pedigree
Point Mutation
Polymerase Chain Reaction - methods
processing
Restriction Mapping
RNA
RNA Precursors - genetics
RNA Precursors - metabolism
Rna, ribonucleoproteins
RNA, Transfer, Leu - biosynthesis
RNA, Transfer, Leu - genetics
Sequence Homology, Nucleic Acid
Skin - enzymology
tRNA Leu
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Summary:A patient with a mitochondrial myopathy and biochemically proven profound complex I deficiency has a new mutation in mtDNA. This A-to-G transition at position 3302, involving the aminoacyl stem of tRNA(Leu(UUR)), is associated with abnormal mitochondrial RNA processing. Northern analysis demonstrates marked accumulation of a polycistronic RNA precursor containing sequence for 16 S rRNA, tRNA(Leu(UUR)), and ND1. Comparison of skeletal muscle and skin fibroblasts suggests that the processing error may be quantitatively less severe in this tissue, and biochemical analysis shows that fibroblasts do not express a biochemical defect despite containing the mutation. Important qualitative differences in the processing of this RNA precursor were found when comparing muscle and skin fibroblasts. In muscle, processing appears to occur first at the 5'-end of the tRNA, generating 16 S rRNA plus a tRNA + ND1 intermediate. In fibroblasts, processing occurs at the 3'-end of the tRNA, generating a 16 S rRNA + tRNA intermediate. We suggest that the mutation at position 3302 induces abnormal mitochondrial RNA processing that is linked to the biochemical defect (profound loss of complex I activity), either by qualitative or quantitative abnormalities in the ND1 message. The restriction to skeletal muscle of both the processing error and the biochemical defect suggests that the observed tissue differences in RNA processing play a protective role in skin fibroblasts.
ISSN:0021-9258
1083-351X
DOI:10.1016/S0021-9258(19)36552-4