High-frequency intracellular transposition of a defective mammalian provirus detected by an in situ colorimetric assay

Tracing Mobile DNAs: From Molecular to Population Scales

Transposable elements (TEs, transposons) are mobile DNAs that are prevalent in most eukaryotic genomes. In plants, their mobility has vastly contributed to genetic diversity which is essential for adaptive changes and evolution of a species. Such mobile nature of transposon has been also actively exploited in plant science research by generating genetic mutants in non-model plant systems. On the other hand, transposon mobilization can bring about detrimental effects to host genomes and they are therefore mostly silenced by the epigenetic mechanisms. TEs have been studied as major silencing targets and acted a main feature in the remarkable growth of the plant epigenetics field. Despite the importance of transposon in plant biology and biotechnology, their mobilization and the underlying mechanisms are largely left unanswered. This is mainly because of the sequence repetitiveness of transposons, which makes their detection and analyses difficult and complicated. Recently, some attempts have been made to develop new experimental methods detecting active transposons and their mobilization behavior. These techniques reveal TE mobility in various levels, including the molecular, cellular, organismal and population scales. In this review, we will highlight the novel technical approaches in the study of mobile genetic elements and discuss how these techniques impacted on the advancement of transposon research and broadened our understanding of plant genome plasticity.

H2O2 signals via iron induction of VL30 retrotransposition correlated with cytotoxicity

The impact of oxidative stress on mobilization of endogenous retroviruses and their effects on cell fate is unknown. We investigated the action of H2O2 on retrotransposition of an EGFP-tagged mouse LTR-retrotransposon, VL30, in an NIH3T3 cell-retrotransposition assay. H2O2 treatment of assay cells caused specific retrotranspositions documented by UV microscopy and PCR analysis. Flow cytometric analysis revealed an unusually high dose- and time-dependent retrotransposition frequency induced, ∼420,000-fold at 40 μM H2O2 compared to the natural frequency, which was reduced by ectopic expression of catalase. Remarkably, H2O2 moderately induced the RNA expression of retrotransposon B2 without affecting the basal expression of VL30s and L1 and significantly induced the expression of various endogenous reverse transcriptase genes. Further, whereas treatment with 50 μM FeCl2 alone was ineffective, cotreatment with 10 μM H2O2 and 50 μM FeCl2 caused a 6-fold higher retrotransposition induction than H2O2 alone, which was associated with cytotoxicity. H2O2- or H2O2/FeCl2-induced retrotransposition was significantly reduced by the iron chelator DFO or the antioxidant NAC, respectively. Furthermore, both H2O2-induced retrotransposition and associated cytotoxicity were inhibited after pretreatment of cells with DFO or the reverse transcriptase inhibitors efavirenz and etravirine. Our data show for the first time that H2O2, acting via iron, is a potent stimulus of retrotransposition contributing to oxidative stress-induced cell damage.

Infection barriers to successful xenotransplantation focusing on porcine endogenous retroviruses

Xenotransplantation may be a solution to overcome the shortage of organs for the treatment of patients with organ failure, but it may be associated with the transmission of porcine microorganisms and the development of xenozoonoses. Whereas most microorganisms may be eliminated by pathogen-free breeding of the donor animals, porcine endogenous retroviruses (PERVs) cannot be eliminated, since these are integrated into the genomes of all pigs. Human-tropic PERV-A and -B are present in all pigs and are able to infect human cells. Infection of ecotropic PERV-C is limited to pig cells. PERVs may adapt to host cells by varying the number of LTR-binding transcription factor binding sites. Like all retroviruses, they may induce tumors and/or immunodeficiencies. To date, all experimental, preclinical, and clinical xenotransplantations using pig cells, tissues, and organs have not shown transmission of PERV. Highly sensitive and specific methods have been developed to analyze the PERV status of donor pigs and to monitor recipients for PERV infection. Strategies have been developed to prevent PERV transmission, including selection of PERV-C-negative, low-producer pigs, generation of an effective vaccine, selection of effective antiretrovirals, and generation of animals transgenic for a PERV-specific short hairpin RNA inhibiting PERV expression by RNA interference.

The L1 retrotransposition assay: a retrospective and toolkit

LINE1s (L1s) are a class of mammalian non-LTR (long terminal repeat) retroelements that make up nearly 20% of the human genome. Because of the difficulty of studying the mobilization of endogenous L1s, an exogenous cell culture retrotransposition assay has become integral to research in L1 biology. This assay has allowed for investigation of the mechanism and consequences of mobilization of this retroelement, both in cell lines and in whole animal models. In this paper, we outline the genesis of in vitro retrotransposition systems which led to the development of the L1 retrotransposition assay in the mid-1990s. We then provide a retrospective, describing the many uses and variations of this assay, ending with caveats and predictions for future developments. Finally, we provide detailed protocols on the application of the retrotransposition assay, including lists of constructs available in the L1 research community and cell lines in which this assay has been applied.

Retrotransposition: another obstacle for xenotransplantation?

To overcome the shortage of human organs for transplantation, pigs are considered as xenogeneic donors. However, primarily immunological and virological barriers exist. One of the main virological obstacles, represented by the presence of functional and infectious porcine endogenous retroviruses (PERV) in the genome of the pigs, may be excluded by conventional breeding. In contrast, there are truncated proviral sequences that have the capacity to retrotranspose, causing insertional mutagenesis in the xenograft and in infected human cells. To estimate this risk we have investigated the potential of PERV to retrotranspose. Moloney Murine Leukemia Virus (MoMLV), a gamma type retrovirus and close relative to PERV, which has been described as able to retrotranspose, was implemented as a control. First results based on a neomycin indicator monitoring system indicate that PERV is able to retrotranspose at higher frequencies compared with MoMLV.

Mobility and integration sites of a murine C57BL/6 melanoma endogenous retrovirus involved in tumor progression in vivo

Tumor development is a multistep process in which both genetic and epigenetic events cooperate for the emergence of a malignant clone with metastatic properties. The possibility that endogenous retroviruses promote the expansion of a neoplastic clone by subverting immunosurveillance has been proposed and recently demonstrated in the case of the B16 murine melanoma, which spontaneously express the melanoma-associated retrovirus (MelARV). Indeed, knocking down, by RNA interference, this endogenous retrovirus resulted in the rejection of the tumor cells in immunocompetent mice, without any alteration of their transformed phenotype. Here, we characterize the MelARV proviruses present in the B16 melanoma. Complete sequencing of the viral genomic RNA and characterization of the integration sites within both the B16 tumor cells and a subline selected in vivo for increased metastatic activity disclosed mobility of the element with new proviral insertions targeting critical genes and altering their transcriptional profile. The results show that MelARV can act both at the genetic level, inducing mutations by insertion, and at the epigenetic level, promoting immunosuppression of the host. These properties may as well be relevant to human tumors, such as germline tumors and melanoma, where endogenous retroviruses are active.

LINEs, SINEs and processed pseudogenes: parasitic strategies for genome modeling

Two major classes of retrotransposons have invaded eukaryotic genomes: the LTR retrotransposons closely resembling the proviral integrated form of infectious retroviruses, and the non-LTR retrotransposons including the widespread, autonomous LINE elements. Here, we review the modeling effects of the latter class of elements, which are the most active in humans, and whose enzymatic machinery is subverted to generate a large series of "secondary" retroelements. These include the processed pseudogenes, naturally present in all eukaryotic genomes possessing non-LTR retroelements, and the very successful SINE elements such as the human Alu sequences which have evolved refined parasitic strategies to efficiently bypass the original "protectionist" cis-preference of LINEs for their own retrotransposition.

Identification of endogenous retroviral reading frames in the human genome

BACKGROUND

Human endogenous retroviruses (HERVs) comprise a large class of repetitive retroelements. Most HERVs are ancient and invaded our genome at least 25 million years ago, except for the evolutionary young HERV-K group. The far majority of the encoded genes are degenerate due to mutational decay and only a few non-HERV-K loci are known to retain intact reading frames. Additional intact HERV genes may exist, since retroviral reading frames have not been systematically annotated on a genome-wide scale.

RESULTS

By clustering of hits from multiple BLAST searches using known retroviral sequences we have mapped 1.1% of the human genome as retrovirus related. The coding potential of all identified HERV regions were analyzed by annotating viral open reading frames (vORFs) and we report 7836 loci as verified by protein homology criteria. Among 59 intact or almost-intact viral polyproteins scattered around the human genome we have found 29 envelope genes including two novel gammaretroviral types. One encodes a protein similar to a recently discovered zebrafish retrovirus (ZFERV) while another shows partial, C-terminal, homology to Syncytin (HERV-W/FRD).

CONCLUSIONS

This compilation of HERV sequences and their coding potential provide a useful tool for pursuing functional analysis such as RNA expression profiling and effects of viral proteins, which may, in turn, reveal a role for HERVs in human health and disease. All data are publicly available through a database at http://www.retrosearch.dk.

A Tetrahymena thermophila ribozyme-based indicator gene to detect transposition of marked retroelements in mammalian cells

We devised an indicator gene for retrotransposition based on an autocatalytic ribozyme element--the Tetrahymena thermophila 23S rRNA group I intron--which can self-splice in vitro and does not require--at variance with nuclear mRNA introns--any specific pathway and cellular component for the completion of the splicing process. Several constructs, with the Tetrahymena intron adequately modified so as to be inserted at various positions within a neomycin-containing cassette under conditions that restore the neomycin-coding sequence after splicing out of the intron, were assayed for splicing efficiency in mammalian cells in culture. We show, both by northern blot analysis and by the recovery of neomycin activity upon retroviral transduction of the cassettes, that splicing efficiency depends on both the local base pairing and the global position of the intron within the neomycin transcript, and that some constructs are functional. We further show that they allow the efficient sorting out of retrotransposition events when assayed, as a control, with a human LINE retrotransposon. These indicator genes should be of great help in elucidating the mechanisms of transposition of a series of retroelements associated with transcripts not prone to nuclear mRNA intron splicing and previously not opened to any retrotransposition assay.

Characterization of the three HERV-H proviruses with an open envelope reading frame encompassing the immunosuppressive domain and evolutionary history in primates

The HERV-H family is one of the largest human endogenous retrovirus families, with approximately 1000 elements. Using a direct coupled in vitro transcription/translation approach (PTT for protein truncation test) and an extended series of primers on human genomic DNA, on monochromosomal hybrids and on a BAC library, we could demonstrate that there are only three envelopes with a large open reading frame encompassing the immunosuppressive (ISU) domain, corresponding to 62-, 60-, and 59-kDa potential translational products. The associated proviruses, HERV-H/env62, HERV-H/env60, and HERV-H/env59 were sequenced together with their flanking DNA and mapped by FISH, and their entry times within the primate lineage were determined. Analysis of the LTR sequences revealed numerous recombinational and/or homogenization events in the course of evolution, with divergences between 5' and 3' LTRs higher than expected for a simple time-dependent genetic drift. PTT analyses further revealed that the three large envelopes in humans are prematurely stopped in the majority of primates, and sequencing of the largest envelope gene, from HERV-H/env62, in five human individuals revealed two polymorphic sites. The results are consistent with the absence of a strong selective pressure for the conservation of a functional envelope gene of possible benefit for the host, but do not exclude somatic effects possibly associated with the immunosuppressive domain carried by these genes.

Isolation of a human endogenous retroviral HERV-H element with an open env reading frame

About 100 elements of the human endogenous retroviral HERV-H family have full-length env genes potentially coding for Env proteins with sequences highly similar to the immunosuppressive peptide CKS-17 from the MLV transmembrane protein p15E. However, previously sequenced HERV-H env genes have contained stop codons or framehifts. To isolate elements with open env reading frames, we first tried to assess the diversity of HERV-H env genes by comparing PCR-generated env sequences from genomic DNA with published HERV-H sequences. A region at the beginning of env displayed a similarity of 84-98% among 15 different elements. We then used a probe from one of the PCR-generated clones, 98% similar to the consensus sequence in this region, to screen a human genomic lambda library. Three HERV-H elements displaying ca. 98% identity in the env gene were isolated and were shown to have integrated relatively recently, after the divergence of the orangutan and the african great ape lineages. One of these elements, HERV-H19, had a 1752-bp open env reading frame, producing a 77-kDa Env protein in in vitro translation reactions. This is the first demonstration of a coding competent member of the HERV-H family. These findings raise the possibility that HERV-H Env proteins may play a biological role in human cells.

Tumor cells expressing a retroviral envelope escape immune rejection in vivo

A model system for the in vivo control of tumor cell proliferation by the immune system has been used to assay for the possible immunosuppressive activity of retroviral proteins. Expression vectors for the entire or the transmembrane subunit of the Moloney murine leukemia virus envelope protein were constructed, as well as control vectors for irrelevant transmembrane proteins-or no protein. They were introduced either into MCA205 murine tumor cells, which do not proliferate upon s.c. injection into an allogeneic host, or into CL8.1 murine tumor cells, which overexpress class I antigens and are rejected in a syngeneic host. In both cases, expression of the complete envelope protein or of the transmembrane subunit resulted in tumor growth in vivo, with no effect of control vectors. Tumor cell growth results from inhibition of the host immune response, as the envelope-dependent effect was no more observed for MCA205 cells in syngeneic mice or for CL8.1 cells in x-irradiated mice. This inhibition is local because it is not observed at the level of control tumor cells injected contralaterally. These results suggest a noncanonical function of retroviral envelopes in the "penetrance" of viral infections, as well as a possible involvement of the envelope proteins of endogenous retroviruses in tumoral processes.

Clone-specific high-frequency retrotransposition of a recombinant virus containing a VL30 promoter in SV40-transformed NIH3T3 cells

A recombinant virus, containing the promoter of a VL30 LTR and tagged with the neomycin gene as a selection and indicator marker, was constructed to investigate transposition events in NIH3T3 cells after SV40 transformation. This retroviral construct was transfected into psi/CRE packaging cells, and pseudovirions were used to infect NIH3T3 cells. Clones resistant to G418 bearing single-copy integrations of the recombinant virus were isolated and transformed by SV40 virus. Transpositions were detected through RFLPs with a neomycin probe and 'retrotransposition' was further confirmed by inverse PCR and DNA sequencing of transposed and parental copies. We found that: (1) retrotransposition of this recombinant virus occurred with a high frequency in a parental clone transformed with SV40 virus suggesting that the frequency of retrotransposition depended on the initial site of provirus integration; (2) the transposition frequency was independent of the transcription level of the recombinant construct; and (3) analysis of transposition-positive transformants showed that the high transposition frequency appeared to be associated with the induction of endogenous reverse transcriptases.

Functional differences between the human LINE retrotransposon and retroviral reverse transcriptases for in vivo mRNA reverse transcription

We have analysed the reverse transcriptase (RT) activity of the human LINE retrotransposon and that of two retroviruses, using an in vivo assay within mammalian (murine and human) cells. The assay relies on transfection of the cells with expression vectors for the RT of the corresponding elements and PCR analysis of the DNA extracted 2-4 days post-transfection using primers bracketing the intronic domains of co-transfected reporter genes or of cellular genes. This assay revealed high levels of reverse-transcribed cDNA molecules, with the intron spliced out, with expression vectors for the LINE. Generation of cDNA molecules requires LINE ORF2, whereas ORF1 is dispensable. Deletion derivatives within the 3.8 kb LINE ORF2 allowed further delineation of the RT domain: > 0.7 kb at the 5'-end of the LINE ORF2 is dispensable for reverse transcription, consistent with this domain being an endonuclease-like domain, as well as 1 kb at the 3'-end, a putative RNase H domain. Conversely, the RT of the two retroviruses tested, Moloney murine leukemia virus and human immunodeficiency virus, failed to produce similar reverse transcripts. These experiments demonstrate a specific and high efficiency reverse transcription activity for the LINE RT, which applies to RNA with no sequence specificity, including those from cellular genes, and which might therefore be responsible for the endogenous activity that we previously detected within mammalian cells through the formation of pseudogene-like structures.

Expression of human immunodeficiency virus type 1 reverse transcriptase in trans during virion release and after infection

The normal reverse transcription of retroviral RNA is a complex process which depends on the orchestration of several steps throughout the virus life cycle. During the assembly of retroviruses, reverse transcriptase (RT) is directed into the virion as a component of the Gag-Pol polyprotein. In the maturation of the Gag-Pol polyprotein of human immunodeficiency virus type 1 (HIV-1), cleavage by the viral protease occurs during viral budding. After infection, reverse transcription of viral RNA into double-stranded DNA is completed in the cytoplasm of the infected cell. In this study, the processing and reverse transcription of HIV-1 have been examined by separate expression of mature HIV-1 RT and proviral molecules bearing RT mutations. The effects of RT expression in trans during virion release and after viral entry were investigated. Constitutive expression of HIV-1 RT was established in CD4- and non-CD4-expressing cells via the coexpression of its individual subunits, and three HIV-1 RT mutant constructs were generated. The results indicate that a bona fide RT trans complementation does not occur during virion release or after infection. However, after infection of an RT-expressing cell with a high titer RT-defective virus, intracellular reverse transcription can be detected.

Retrotransposition and herpesvirus evolution

One of the more interesting developments in herpesvirus evolution concerns the acquisition of novel, non-ubiquitous herpesvirus genes. A number of these are related to known cellular genes. How did herpesviruses acquire such genes? Our recent demonstration of retrovirus integration into herpesviruses suggests a potentially important role for retrotransposition in herpesvirus evolution and in the acquisition of novel genes, cellular in origin. Herpesvirus genome development has been characterized by a number of structural and evolutionary properties that support this proposal. We first discuss the evidence for retroviral integration into herpesviruses. The functional significance of this phenomenon is presently unclear. However, in the broader context of retrotransposition, a number of attractive features serve to explain the capture of structural and regulatory elements throughout herpesvirus evolution. These possibilities are discussed in detail.

The dimerization/packaging sequence is dispensable for both the formation of high-molecular-weight RNA complexes within retroviral particles and the synthesis of proviruses of normal structure

Retroviral particles contain a dimer of two genomic RNA molecules, linked by noncovalent intermolecular bonds. Studies by electron microscopy of viral RNA extracted from virions as well as in vitro studies have implicated a sequence, designated the dimer linkage sequence (DLS), in the dimerization process. The DLS has been localized within a short region encompassing the psi packaging sequence, between nucleotides 212 and 563 for the Moloney murine leukemia retrovirus (MoMLV) RNA. In this report, we show that viral RNAs lacking both the DLS and psi packaging sequences--and even an RNA lacking the first 6,537 nucleotides of MoMLV--can assemble within retroviral particles as high-molecular-weight, slow-migrating, heat-sensitive complexes closely related to those observed for wild-type viral RNAs. Furthermore, we show that proviruses of normal structure are generated upon infection of test cells with retroviral particles which contain the DLS/psi-deleted viral RNAs. These observations demonstrate that the DLS and psi packaging sequences are not essential in cis to form a functional RNA complex for reverse transcription and integration.

Retrotransposition of a marked Drosophila line-like I element in cells in culture

We have marked a Drosophila transposable element--the LINE-like I element--with an intron-containing indicator gene inserted in place of a large deletion in the I element second ORF encompassing the reverse transcriptase domain, and this marked element was placed downstream to a potent actin promoter. An expression vector for the I element ORFs was also constructed, under the same heterologous promoter. The indicator gene contains a lacZ reporter gene the expression of which is conditioned by retrotransposition of the marked element, thus allowing detection of transposition events by testing for either beta-galactosidase expression or occurrence of spliced DNA molecules. The marked I element was introduced into Drosophila melanogaster cells in culture by transfection. Spliced DNA copies of the marked element and specifically stained beta-galactosidase-expressing cells were detected only upon co-transfection with the I expression vector, thus indicating that an ORF2-deleted element can be complemented in trans for transposition. This simple assay for retrotransposition in Drosophila cells in culture provides a tool for the rapid analysis of the mechanism of I transposition in its cis and trans sequence requirements.

The mammalian genome shaping activity of reverse transcriptase

Reverse transcriptase catalyses the conversion of RNA into DNA. This operation seems to have largely contributed to the evolution of complex genomes. More than 10% of a mammalian genome is composed of sequences with reverse transcribed origin, most of which consists of repeated sequences (SINEs, LINEs). In spite of their simplicity, these sequences can play a key role in evolution by favoring illegitimate recombination. In addition to this abundant material, retrotransposed sequences include retrotransposons, retroviruses and genes depleted from intervening sequences, known as pseudogenes. Some of these sequences can be functional or involved in the regulation of neighbouring genes. These hallmarks of reverse transcription activity indicate that it has largely contributed to the fluidity of modern genomes.