During a study of the gene coding for alpha-galactosidase (EC 3.2.1.22), the lysosomal enzyme deficient in Fabry's disease, RT-PCR amplification of alpha-galactosidase mRNAs obtained from three different tissues isolated from males revealed a substantial number of clones with a U to A conversion at the nucleotide position 1187. Such a modification of the coding sequence would result in an amino acid substitution in the C-terminal region (Phe396Tyr) of the enzyme. Neither PCR analysis of the genomic sequence nor the RT-PCR amplification of RNA obtained by in vitro transcription of the wild-type cDNA showed this change in the sequence. Multiple genes, pseudogenes are allelic variants were excluded. Hence, we propose RNA editing as a mechanism responsible for this base change in the alpha-galactosidase RNA.
We have investigated if the administration of plasmid vectors engineered for gene delivery into mammalian muscle induced the production of anti-double stranded (ds) DNA and anti-nuclear autoantibodies in normal and autoimmunity-prone mouse models. In normal mice, repeated injection of plasmid DNA did not trigger an anti-DNA response. The presence of eukaryotic transcription factor binding sites in plasmid vectors did not increase autoantibody formation in these animals. In contrast, repeated injection of such plasmids in autoimmunity-prone MRL/MpJ mice caused a significant increase in both anti-dsDNA and anti-nuclear antibody levels. Thus the repeated administration of bacterial plasmids containing eukaryotic promoter elements may induce immune responses with generation of antibodies cross-reacting not only with the mammalian DNA, but also with nuclear antigens. The potential for iatrogenic autoimmunity in susceptible individuals should be considered.
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