Occurrence of multiple aberrantly spliced mRNAs upon a donor splice site mutation that causes familial lipoprotein lipase deficiency.

A donor splice site mutation was found in the lipoprotein lipase (LPL) gene of a patient with familial LPL deficiency. The mutation, a G----A substitution, occurred at the first nucleotide of intron 2. Northern blot analysis of total RNA from the patient showed strikingly low levels of LPL-specific mRNAs. Using the polymerase chain reaction, the LPL mRNA splicing was analyzed in detail. The results demonstrated that no normal splicing occurred at the authentic splice site; rather a cryptic splice site 18 bases upstream from the mutation site was preferentially utilized. Although the resulting alteration in mRNA was a minute in-frame 18-base deletion, the amount of the abnormal transcript was only 1/12 that of the normal. In addition to this major cryptic splice site, we also identified multiple minor sites which were utilized at extremely lower efficiencies. Unexpectedly, one of these minor sites was also used as an alternative splice site in the normal subject at a comparably low efficiency. The sequences of these minor cryptic sites possessed many of the characteristics common to those of other normal splice sites, indicating that even such minor sites should have also been selected according to the general rules for splice site selection. These results demonstrate that upon mutation, a broad spectrum of cryptic splice sites is activated in vivo at the sites' respective efficiencies.