The distribution and expression of HERV families in the human genome

The families of human endogenous retroviruses (HERVs) are widely distributed in the human genome. Here we examined their distribution and expression. Approximately forty thousand HERV elements including truncated and solitary long terminal repeats (LTRs) were identified. These elements were most dense on chromosomes 4, 20, X, and Y. From an analysis of genomic stability during primate evolution, the 5 cent -LTR of the HERV genome (5 cent LTR - internal HERV - 3 cent LTR) appeared to be more often truncated than the 3 cent -LTR. ESTs derived from normal placenta, skeletal muscle, hypothalamus, and testis gave frequent matches to HERV elements. We present a classification of genes associated with HERV elements according to the hierarchical structure of gene ontology.     

The human endogenous retrovirus family HERV-K(HML-3)

A substantial amount of the human genome is composed of human endogenous retroviruses (HERVs). Manifold HERV families have been identified, among them several so-called HERV-K(HML) families. Although the HERV-K(HML-2) family has been studied in detail, other HERV-K families are not as well characterized. We describe here the HERV-K HML-3 family in more detail. We estimate that there are about 140 proviral loci or remains of such per haploid genome. Most loci are severely mutated. Proviruses displaying larger deletions in gag and pol are common. A multiple alignment of 73 HERV-K(HML-3) sequences displays several potentially important differences compared with the HERVK9I sequence in Repbase. A consensus sequence with open reading frames for all retroviral genes was generated, for which intact dUTPase motifs and env gene variants with different coding capacities are observed. Phylogenetic analysis shows near-monophyly with distinction of two closely related subgroups. Proviruses formed about 36 million years ago. However, no continuous activity through primate evolution is indicated.     

Human endogenous retroviruses, hormones and APOBEC3G: A connection to explore in schizophrenia

Human endogenous retroviruses (HERVs) represent the footprints of previous retroviral infections. They are integrated within the human germ line and constitute approximately 7% of our genome. They have the potential to harm, given their capacity to alter the cellular metabolism, and could be involved in various pathological processes such as systemic lupus erythematosus or multiple sclerosis. In this respect it has been found that the stimulation of HERVs genome expression was observed after a steroid hormone treatment, stating the first evidence that an enhanced expression of the HERVs genome by hormones may be involved in the etiology of breast cancer. There is now increasing evidence that HERVs may in fact be involved in the etiology of schizophrenia, a disorder characterized by heterogeneous presence of positive, negative and cognitive symptoms that affect all aspects of mental activity, with a first peak incidence for males and females in the decade 15-24 and a second peak at age 55-64 for females, both periods characterized by two moments of significant hormonal changes. In connection with genetic aspects, several studies suggest a linkage between chromosome 22 (22q) and schizophrenia, being different genes of this chromosomal region reported as candidate genes for association with the disorder. Likewise, in a closely region of these genes, on 22q13, is located a gene named APOBEC3G, a potent intrinsic inhibitor of retroviral replication that also includes some HERVs. We propose that hormonal changes that coincide with two peak incidences in schizophrenia produce an enhancement in the expression of some HERV families implicated in the etiopathology of the disorder. The expression of HERVs is followed by a defective action of APOBEC3G that avoids carry out its function, that is, the inhibition of retroviral replication. This altered process might play a critical role in the etiopathogenesis of schizophrenia.     

Human endogenous retroviral elements as indicators of ectopic recombination events in the primate genome

HERV elements make up a significant fraction of the human genome and, as interspersed repetitive elements, have the capacity to provide substrates for ectopic recombination and gene conversion events. To understand the extent to which these events occur and gain further insight into the complex evolutionary history of these elements in our genome, we undertook a phylogenetic study of the long terminal repeat sequences of 15 HERV-K(HML-2) elements in various primate species. This family of human endogenous retroviruses first entered the primate genome between 35 and 45 million years ago. Throughout primate evolution, these elements have undergone bursts of amplification. From this analysis, which is the largest-scale study of HERV sequence dynamics during primate evolution to date, we were able to detect intraelement gene conversion and recombination at five HERV-K loci. We also found evidence for replacement of an ancient element by another HERV-K provirus, apparently reflecting an occurrence of retroviral integration by homologous recombination. The high frequency of these events casts doubt on the accuracy of integration time estimates based only on divergence between retroelement LTRs.     

Placenta-specific INSL4 expression is mediated by a human endogenous retrovirus element

The human insulin-family genes regulate cell growth, metabolism, and tissue-specific functions. Among these different members, only INSL4 gene shows a predominant placenta-specific expression. Here, we show that the human INSL4 gene is tightly clustered with three other members of the human insulin superfamily (RLN1, RLN2, and INSL6) within a 176-kilobase genomic segment on chromosome region 9p23.3-p24.1. We also report evidence that INSL4 is probably the only insulin-like growth factor gene to be primate-specific. We identified an unexpected human endogenous retrovirus (HERV) element inserted into the human INSL4 promoter with a sequence similar to that of env gene, flanked by two long terminal repeats(LTRs). The emergence of INSL4 gene and genomic insertion of HERV appear to have occurred after the divergence of New World and Old World monkeys ( approximately 45 million years ago). Transient transfection experiments showed that the placenta-specific expression of INSL4 is mediated by the 3' LTR of the HERV element, and that the latter may have a major role in INSL4 up-regulation during human cytotrophoblast differentiation into syncytiotrophoblast. Finally, we identified an INSL4 alternatively spliced mRNA species that encodes putative novel INSL4-like peptides. These data support the view that ancient retroviral infection may have been a major event in primate evolution, especially in the functional evolution of the human placenta.     

Factors regulating endogenous retroviral sequences in human and mouse

Endogenous retroviruses (ERVs) are stably integrated in the genome of vertebrates and inherited as Mendelian genes. The several human ERV (HERV) families and related elements represent up to 5-8% of the DNA of our species. ERVs may be involved in the regulation of adjacent genomic loci, especially promoting the tissue-specific expression of genes; some HERVs may have functional roles, e.g., coding for the placental fusogenic protein, syncytin. This paper reviews the growing evidence about factors that may modulate ERVs, including: cell and tissue types (with special attention to placenta and germ cells), processes related to differentiation and aging, cytokines, agents that disrupt cell functions (e.g., DNA hypomethylating agents) and steroids. Special attention is given to HERVs, due to their possible involvement in autoimmunity and reproduction, as well as altered expression in some cancer types; moreover, different HERV families may deserve specific attention, due to remarkable differences concerning, e.g., expression in tissues. A comparison with factors interacting with murine ERV-related sequences indicates that the mouse may be a useful model for studying some patterns of HERV regulation. Overall, the available evidence identifies the diverse, potential interactions with endogenous or exogenous factors as a promising field for investigating the roles of ERVs in physiology and disease.     

Human endogenous retroviruses in the primate lineage and their influence on host genomes

Primates emerged about 60 million years ago. Since that time various primate-targeting retroviruses have integrated in the germ line of primate species, and some drifted to fixation. After germ line fixation, continued activity of proviruses resulted in intragenomic spread of so-called endogenous retroviruses (ERVs). Variant ERVs emerged, amplified in the genome and profoundly altered genome structures and potentially functionality. Importantly, ERVs are genome modifiers of exogenous origin. The human genome contains about 8% of sequences of retroviral origin. The human ERVs (HERVs) comprise many distinct families that amplified to copy numbers of up to several thousand. We review here the evolution of several well-characterized HERV families in the human lineage since initial germ line fixation. It is apparent that endogenous retroviruses profoundly affected the genomes of species in the evolutionary lineage leading to Homo sapiens.     

Sequence periodic pattern of HERV LTRs: A matrix simulation algorithm

Flanking regulatory long terminal repeats (LTRs) in Human endogenous retrovirus (HERV) is a kind of typical DNA repeat that is widespread in the human genome. Currently, many algorithms have been developed to detect the latent periodicity of a wide range of DNA repeats. However, no such attempt was made for HERV LTRs. The present study focused on the investigation of the possible sequence periodic patterns in the HERV LTRs and their regulatory mechanisms. We calculated the sequence periods of 5′, 3′ and combined LTRs in HERVs with our devised matrix simulation algorithm. It is interesting that 5′ and 3′ LTRs have the same period of 7, and combined LTRs have a period of 9. These results indicated that HERV LTRs have predominant periodic patterns. Based on the obtained sequence periodicity, we constructed periodic consensus sequences of 5′, 3′ and combined LTRs. As to 5′ and 3′ LTRs with the same period – 7, we manually scanned the nucleotide bases in the corresponding positions of their periodic consensus sequences, and found some positions have the nucleotide base unchanged, such as the 1st, 5th and 7th positions. These conservative nucleotide base positions represent critical binding sites of regulatory LTRs, and may be indicative of conserved regulatory mechanisms in LRT-participating regulatory networks.     

Expression profiles of human endogenous retrovirus (HERV)-K and HERV-R Env proteins in various cancers

The vertebrate genome contains an endogenous retrovirus that has been inherited from the past millions of years. Although approximately 8% of human chromosomal DNA consists of sequences derived from human endogenous retrovirus (HERV) fragments, most of the HERVs are currently inactive and non-infectious due to recombination, deletions, and mutations after insertion into the host genome. Several studies suggested that Human endogenous retroviruses (HERVs) factors are significantly related to certain cancers. However, only limited studies have been conducted to analyze the expression of HERV derived elements at protein levels in certain cancers. Herein, we analyzed the expression profiles of HERV-K envelope (Env) and HERV-R Env proteins in eleven different kinds of cancer tissues. Furthermore, the expression patterns of both protein and correlation with various clinical data in each tissue were analyzed. The expressions of both HERV-K Env and HERV-R Env protein were identified to be significantly high in most of the tumors compared with normal surrounding tissues. Correlations between HERV Env expressions and clinical investigations varied depending on the HERV types and cancers. Overall expression patterns of HERV-K Env and HERV-R Env proteins were different in every individual but a similar pattern of expressions was observed in the same individual. These results demonstrate the expression profiles of HERV-K and HERV-R Env proteins in various cancer tissues and provide a good reference for the association of endogenous retroviral Env proteins in the progression of various cancers. Furthermore, the results elucidate the relationship between HERV-Env expression and the clinical significance of certain cancers.     

HERVd: database of human endogenous retroviruses

The human endogenous retroviruses database (HERVd) is maintained at the Institute of Molecular Genetics, Academy of Sciences of the Czech Republic, and is accessible via the World Wide Web at http://herv.img.cas.cz. The HERVd provides complex information on and analysis of retroviral elements found in the human genome. It can be used for searches of individual HERV families, identification of HERV parts, graphical output of HERV structures, comparison of HERVs and identification of retrovirus integration sites.