Instability of interstitial telomeric sequences in the human genome.

The length variability of four human interstitial telomeric sequences (ITs) is described. Three of the ITs contain short telomeric stretches ranging between 53 and 84 bp and are localized in 21q22, 2q31, and 7q36; the fourth IT derives from the subtelomeric domain of chromosome 6p and contains a tract of a few hundred basepairs of exact and degenerate repeats. Using primers flanking the repeats, we amplified the genomic DNA from unrelated individuals and from family members, and we found that all the loci are polymorphic. At the 21q22 IT locus, two equally frequent alleles were found, while the number of alleles at the 2q31, 7q36, and 6pter IT loci was 8, 6, and 4, respectively. Sequence analysis revealed that in the three loci containing short ITs the alleles differ from one another for multiples of the hexanucleotide; it is likely that the mechanism leading to the polymorphism is DNA polymerase slippage. These loci were also unstable in gastric tumor cells characterized by microsatellite instability. At the 6pter IT locus, the four alleles range in length from about 500 to about 700 bp; this variability is probably due to unequal exchange or gene conversion. Our data indicate that stretches of exact internal telomeric repeats can be highly unstable, like microsatellites with shorter units, and that they can be useful polymorphic markers for linkage analysis, for forensic applications, and for the detection of genetic instability in tumors.