Sequence conservation in kringle IV-type 2 repeats of the LPA gene

We have studied the homology of repeating kringle IV-type 2 (K IV-type 2) elements of the LPA gene. Two K IV-type 2 genomic polymerase chain reaction (PCR) fragment libraries were constructed, one from an individual with high and one from an individual with low Lp(a) lipoprotein level. Only minor K IV-type 2 repeat length heterogeneity was observed. Sequence analysis data from the cloned K IV-type 2 repeats revealed a high degree of LPA sequence conservation in exons as well as in introns both within and between the two libraries. This sequence conservation of the IV-type 2 kringles is in agreement with our previously reported results of simultaneous ‘batch’ DNA sequence analyses of all the K IV-type 2 repeats from single individuals. Sequence data from the clones, combined with genomic DNA sequencing, revealed that the K IV-type 2 reading frame of exons 1 and 2 are extended into the conserved flanking introns by 519 base pairs (bp) and 312 bp, respectively. The theoretical coding capacity of the exon 1 extended open reading frame (ORF I) is three times larger (173 amino acids, aa) than the translated exon 1, and that of the extended open reading frame of exon 2 (ORF II) is about twice (104 aa) the length of exon 2. A central portion of the intron separating exons 1 and 2 also exhibited a high degree of sequence conservation, with the exception of a polymorphic CA repeat. Within the 61 K IV repeat clones analysed, 19 different CA repeat patterns with 12–18 CA dinucleotide repeats were observed. A comparison between the 37 clones from the individual with high Lp(a) lipoprotein level and the 24 clones from the individual with low Lp(a) lipoprotein level, revealed that seven of the CA repeat variants were present in both clone libraries. The observed high level of sequence conservation in K IV-type 2 exons and introns matches relevant areas of the plasminogen gene, and our findings fit with recent K IV-type 2 duplications and evolutionary selection pressure theories, although gene conversion events could also explain the findings. DNA sequences within K IV-type 2 appeared to have no influence on Lp(a) lipoprotein level.