A two bases deletion in the exon 6 of the 3-hydroxy-3-methylglutaryl coenzime A lyase (HL) gene produce the skiping of exon 5 and 6 determines 3-hydroxy-3-methylglutaric aciduria

CASALS N; PIE J; CASALE CH; ZAPATER N; RIBES, A.; CASTRO-GAGO, M.; RODRIGUEZ-SEGADE S; WANDERS R. J. A.; HEGARDT FG

JLR PAPERS IN PRESS

Año: 1997 vol. 38 p. 2303 - 2313

0022-2275

A novel two-base deletion in the 3-hydroxy-3-methylglutaar> llc oenzyme A lyase (HL) gene was found in a Spanish patient with homozygous 3-hydroxy-3-methylglutaric aciduria. Amplification by RT-PCR of the mRNAs showed that the gene was transcribed into three different ”As. One showed the complete deletion of exons 5 and 6 located between nucleotides 348 and 561 of the HL cDNA. The second transcript showed deletion of exon 6 only, and the third contained a two-base deletion CT in exon 6, corresponding to nucletotides 504 and 505 of the HL cDNA. These aberrant mRNAs are predicted to encode three abnormal HMG-CoA lyase proteins; the first (from skipped exons 5 and 6) lacks 71 amino acids, which represents 24% of the mature protein; the second, (from the skipping of exon 6, producing a frameshift) contains only 192 amino acids, the last 26 of which are missense amino acids preceding a stop codon; the third contains only 175 amino acids, the last 7 of which are missense. Northern blot analysis showed that the HL mRNA levels of the patient were 4% of the control. PCR quantitative analysis indicated that the mRNA lacking exons 5 and 6 was the most abundant, representing 88% of the total. The other two mRNAs represented 8% and 4%, respectively. In the genomic DNA only one CT deletion was found at positions +7 and +8 at beginning of exon 6. No mutations were observed in the splice donor, splice acceptor, or pyrimidine-rich sequences of the intronic regions flanking exons 5 and 6. All three aberrant mRNAs resulted only from the deletion of nucleotides CT.I We suggest that this deletion may affect the interaction between the small nuclear ribonucleoproteins (snRNPs) and exon 6, and that, as a result, the abnormal splicing of the premRNA produces two different aberrant transcripts.-