Human immunodeficiency virus type 1 may preferentially integrate into chromatin occupied by L1Hs repetitive elements.

Human DNA flanking sites of eight human immunodeficiency virus type 1 (HIV-1) proviral integrations have been analyzed in isolates derived both from integrations in an infected individual and from tissue culture. Sequence analysis encompassing 80-3000 bp of human DNA on one or both sides of the site of integration revealed that seven of the eight HIV-1 proviruses had integrated directly into or within one nucleosome's distance from an L1Hs or Alu repetitive element. To compare this with the frequency at which human L1 or Alu elements sharing > or = 70% identity with L1Hs and Alu consensus sequences would be encountered at random, > 200 bp from each of 82 individual anonymously cloned segments of human DNA were sequenced: L1Hs elements were encountered in 8.5% of the 82 clones and Alu elements were encountered in 13.4+ by using these homology windows. From these data it appears that HIV-1 integrates into or near L1Hs elements with an approximately 6-fold higher frequency than would be expected if HIV-1 integration events were distributed uniformly throughout the genome. A cumulative binomial probability test shows that there is a 0.26% chance that one would arrive at these figures by chance and puts the data well within a 99% confidence interval. We propose that sites of L1Hs and Alu insertions originally occurred in regions of chromatin that were more easily accessible to the retroposon machinery and that these regions are now acting as preferred integration sites for HIV-1.