Nucleotide sequence and phylogenetic analysis of long terminal repeats of human endogenous retrovirus K family (HERV-K) on human chromosomes

It has been suggested that human endogenous retroviruses K family (HERV-K) has a role in disease, and solitary long terminal repeats (LTRs) of HERV-K have been potentially capable of affecting the expression of closely located genes. Using the human monochromosomes 8, 9, 17, and 18, with specific PCR primers, we identified thirty-four sequences of new HERV-K LTRs. Those LTR elements were analyzed phylogenetically with the human-specific HERV-K LTRs using neighbor-joining and maximum parsimony methods. Clones HKL8-5, HKL9-5, and HKL9-8 are related by more than 99% homology with the human-specific HERV-K LTRs. The HKL9-5 clone on chromosome 9 was 100% identical with the sequences of human-specific LTR, AC002400, on chromosome 16. The findings suggest that there has been recent proliferation, transposition, or chromosomal translocation of HERV-K LTR elements on human chromosomes.     

Human-specific subfamilies of HERV-K (HML-2) long terminal repeats: three master genes were active simultaneously during branching of hominoid lineages

Using 40 known human-specific LTR sequences, we have derived a consensus sequence for an evolutionary young HERV-K (HML-2) LTR family, which was named the HS family. In the human genome the HS family is represented by approximately 150-160 LTR sequences, 90% of them being human-specific (hs). The family can be subdivided into two subfamilies differing in five linked nucleotide substitutions: HS-a and HS-b of 5.8 and 10.3 Myr evolutionary ages, respectively. The HS-b subfamily members were transpositionally active both before the divergence of the human and chimpanzee ancestor lineages and after it in both lineages. The HS-a subfamily comprises only hs LTRs. These and other data strongly suggest that at least three "master genes" of HERV-K (HML-2) LTRs were active in the human ancestor lineage after the human-chimpanzee divergence. We also found hs HERV-K (HML-2) LTRs integrations in introns of 12 human genes and identified 13 new hs HERV-K (HML-2) LTRs.     

A technique for genome-wide identification of differences in the interspersed repeats integrations between closely related genomes and its application to detection of human-specific integrations of HERV-K LTRs

We have developed a method of targeted genomic difference analysis (TGDA) for genomewide detection of interspersed repeat integration site differences between closely related genomes. The method includes a whole-genome amplification of the flanks adjacent to target interspersed repetitive elements in both genomic DNAs under comparison, and subtractive hybridization (SH) of the selected amplicons. The potential of TGDA was demonstrated by the detection of differences in the integration sites of human endogenous retroviruses K (HERV-K) and related solitary long terminal repeats (LTRs) between the human and chimpanzee genomes. Of 55 randomly sequenced clones from a library enriched with human-specific integration (HSI) sites, 33 (60%) represented HSIs. All the human-specific (Hs) LTRs belong to two related evolutionarily young groups, suggesting simultaneous activity of two master genes in the hominid lineage. No deletion/insertion polymorphism was detected for the LTR HSIs for 25 unrelated caucasoid individuals. We also discuss the possible research applications for TGDA research.     

Molecular cloning and phylogenetic analysis of the human endogenous retrovirus HERV-K long terminal repeat elements in various cancer cells

Long terminal repeats (LTRs) of the human endogenous retroviruses K family (HERV-K) have been found to affect expression of genes located nearby. It has been suggested that the HERV-K LTR elements contributed to the structural change in the genome and genetic variation connected to various diseases. We examined the HERV-K LTR elements in human cancer cells. Using genomic DNA from various cancer cells, we performed PCR amplification and identified forty-nine HERV-K LTR elements. Those LTR elements showed a high degree of sequence similarity with human-specific HERV-K LTR elements. A phylogenetic tree, obtained by the neighbor-joining method, revealed that twelve HERV-K LTR elements were closely related to human-specific HERV-K LTR elements. These elements proliferated recently and were detectable in many human cancer cell lines. These results suggest that HERV-K LTR could be implicated in a pathogenic role, although this phenomenon may not directly lead to human cancers. Further studies on the biological function and expression of HERV-K LTR elements in cancer cells are indicated.     

Z-DNA–Containing Long Terminal Repeats of Human Endogenous Retrovirus Families Provide Alternative Promoters for Human Functional Genes

Transposable elements (TEs) account for approximately 45% of the human genome. TEs have proliferated randomly and integrated into functional genes during hominoid radiation. They appear as right-handed B-DNA double helices and slightly elongated left-handed Z-DNAs. Human endogenous retrovirus (HERV) families are widely distributed in human chromosomes at a ratio of 8%. They contain a 5′-long terminal repeat (LTR)-gag-pol-env-3′-LTR structure. LTRs contain the U3 enhancer and promoter region, transcribed R region, and U5 region. LTRs can influence host gene expression by acting as regulatory elements. In this review, we describe the alternative promoters derived from LTR elements that overlap Z-DNA by comparing Z-hunt and DeepZ data for human functional genes. We also present evidence showing the regulatory activity of LTR elements containing Z-DNA in GSDML. Taken together, the regulatory activity of LTR elements with Z-DNA allows us to understand gene function in relation to various human diseases.     

Isolation and analysis of a rat genomic clone containing a long terminal repeat with high similarity to the oncomodulin mRNA leader sequence

The structure of a novel long terminal repeat (LTR) from an intracisternal A particle (IAP) DNA element in the rat (Sprague-Dawley) genome was determined. This LTR has a total length of 313 base pairs (bp). Several structural features typical for retroviral LTR promoters were identified, including a "CCAAT" box, a "TATA" box, a polyadenylation signal, and a polyadenylation site. The LTR is flanked by 3-bp inverted repeats, and it consists of the three typical LTR regions, U3, R, and U5. U3 contains 213 bp, R 46 bp, and U5 54 bp, which is within the usual size range of IAP LTRs. A sequence of 60 bp in the U3 region reveals considerable similarity to a murine IAP LTR U3 element, which is known to interact with nuclear proteins. A sequence of 69 bp in the U5 and R regions has 83 and 93% similarities to an endogenous retroviral LTR from Syrian hamster and to the cDNA leader sequence of (Buffalo) rat oncomodulin, respectively. Oncomodulin is an "EF-hand" Ca2+-binding protein and appears in many human and rodent tumors and in cells with tumor-like properties but not in normal tissues. We postulate that in the rat the tumor-specific expression of oncomodulin is controlled by a retroviral LTR promoter.     

In vitro methylation inhibits the promotor activity of a cloned intracisternal A-particle LTR.

We studied the relation between LTR methylation and expression of the family of endogenous retrovirus-like elements related to mouse intracisternal A-particles (IAP). Comparative HpaII/MspI and HhaI restriction analysis of genomic DNA's showed that in cells and tissues with a low level of IAP gene expression, HpaII and HhaI sites within the 5' LTR were heavily methylated, while in cells abundantly expressing IAP's 20 to 30% of the 5' LTRs were demethylated at these sites. The effects of methylation on the promoter activity of a cloned IAP 5' LTR was studied directly, using the plasmid pMIA5' L-cat in which this LTR was linked to the chloramphenicol acetyl transferase (CAT) gene. In vitro methylation of three HhaI sites located between -137 and -205 bp from the RNA start site of this LTR completely inactivated the promoter activity of pMIA5' L-cat transfected into COS7 cells. Methylation of a HpaII site located 94 bp downstream from the RNA start site reduced the promoter activity by 75%. The results show that methylation at sites both upstream and downstream from the RNA start site profoundly effects the promoter activity of this LTR and suggest that methylation within the 5' LTR can serve to regulate IAP gene expression in vivo.     

Enhancer Activity of Solitary Long Terminal Repeat of Human Endogenous Retrovirus K

The transient expression of the luciferase reporter gene was used to detect the tissue-specific enhancer activity of the solitary extraviral long terminal repeat (LTR) of the human endogenous retrovirus K (HERV-K). The LTR was previously mapped to the 19q13.2 locus. It contains a number of potential regulatory elements including TATA box, binding sites for some nuclear factors, and a polyadenylation signal. However, an analysis of the genomic sequences close to the LTR did not reveal any known genes or the expressed sequences (EST), whose functioning could be regulated by this LTR. The enhancer activity can be preserved in the solitary LTR due to its involvement in the long-range control of genome functioning or by the absence of functional disruptive mutations within the human-specific LTR, because it is of a relatively young evolutionary age.