Maria M. Medveczky

The latent human herpesvirus-6A genome specifically integrates in telomeres of human chromosomes in vivo and in vitro

Previous research has suggested that human herpesvirus-6 (HHV-6) may integrate into host cell chromosomes and be vertically transmitted in the germ line, but the evidence—primarily fluorescence in situ hybridization (FISH)—is indirect. We sought, first, to definitively test these two hypotheses. Peripheral blood mononuclear cells (PBMCs) were isolated from families in which several members, including at least one parent and child, had unusually high copy numbers of HHV-6 DNA per milliliter of blood. FISH confirmed that HHV-6 DNA colocalized with telomeric regions of one allele on chromosomes 17p13.3, 18q23, and 22q13.3, and that the integration site was identical among members of the same family. Integration of the HHV-6 genome into TTAGGG telomere repeats was confirmed by additional methods and sequencing of the integration site. Partial sequencing of the viral genome identified the same integrated HHV-6A strain within members of families, confirming vertical transmission of the viral genome. We next asked whether HHV-6A infection of naïve cell lines could lead to integration. Following infection of naïve Jjhan and HEK-293 cell lines by HHV-6, the virus integrated into telomeres. Reactivation of integrated HHV-6A virus from individuals’ PBMCs as well as cell lines was successfully accomplished by compounds known to induce latent herpesvirus replication. Finally, no circular episomal forms were detected even by PCR. Taken together, the data suggest that HHV-6 is unique among human herpesviruses: it specifically and efficiently integrates into telomeres of chromosomes during latency rather than forming episomes, and the integrated viral genome is capable of producing virions.

In vitro antiviral drug sensitivity of the Kaposi's sarcoma-associated herpesvirus

Objective:Kaposis sarcoma-associated herpesvirus (KSHV), or human herpesvirus 8, has been implicated as the causative agent of Kaposis sarcoma. Retrospective studies show that the risk of development of Kaposis sarcoma is significantly lower in AIDS patients who received ganciclovir or phosphonoformic acid (PFA) therapy. Therefore, in vitro antiviral drug sensitivity of KSHV was studied. Methods:The KSHV genome is a latent episome in lymphoma cells such as the BCBL-1 cell line. Lytic KSHV DNA synthesis is induced by the phorbol ester 12-O-tetradecanoyl phorbol-13-acetate in BCBL-1 cells; this system was used to evaluate the effects of antiviral drugs on KSHV DNA synthesis. Results:Linear (lytic) KSHV DNA synthesis and virus secretion was inhibited in BCBL-1 cell cultures by cidofovir (median inhibitory concentration, 0.05 µM), ganciclovir (5.1 µM) and PFA (97 µM), and by aciclovir (75 µM). Prolonged incubation of BCBL-1 cells with antiviral drugs had no effect on episomal KSHV DNA synthesis. Conclusions:The antiviral drug assay developed shows that KSHV is very sensitive to cidofovir, moderately sensitive to ganciclovir and PFA, and weakly sensitive to aciclovir. Therefore, low doses of cidofovir, or high doses of PFA or ganciclovir could suppress clinical reactivation of KSHV. Antiviral drugs did not inhibit episomal virus DNA synthesis, suggesting that the latent form of viral DNA is replicated by host DNA polymerases. Consequently, no benefit can be expected from antiviral drugs in KSHV-positive B-cell lymphomas or during latency.

The terminal repeats and latency-associated nuclear antigen of herpesvirus saimiri are essential for episomal persistence of the viral genome

The simian herpesvirus saimiri (HVS) induces malignant T cell lymphomas and is closely related to Kaposis sarcoma-associated herpesvirus (KSHV or HHV-8). Both belong to the gamma-2 herpesvirus subgroup. The viral genome of HVS consists of a unique region (L-DNA) that contains all of the viral genes flanked by non-coding terminal repeats (H-DNA). Here we describe the cloning of a 113 kb restriction fragment containing the L-DNA of an oncogenic HVS strain in an F replicon-based E. coli vector. Cloned DNA was infectious and the ends of the progeny viral genome consisted of amplified tandem alternating repeats of vector and a single H-DNA unit. T cells infected with these viruses contained the linear DNA typically found a few weeks after infection, but were unable to form episomal circular viral DNA, which is the latent form of the viral genome. Recombinant viruses with reconstructed H-DNA were generated and T cells infected with these rescued viruses contained high copy numbers of episomal DNA. Plasmids expressing the latency-associated nuclear antigen (LANA) and containing various numbers of H-DNA repeats stably replicated as episomes, but constructs containing three repeat units produced the highest copy numbers. These data show that intact and multiple terminal repeats are essential components for episomal replication in latently infected T cells. Moreover, LANA and terminal repeats are sufficient for stable plasmid persistence. Cloned HVS can also be utilized for mutagenesis of HVS and for the expression of foreign genes through efficient manipulation of plasmids in E. coli.

The Src-family kinase Lck can induce STAT3 phosphorylation and DNA binding activity.

Constitutive activation of the Src-family kinase Lck has been shown to lead to transformation. Constitutive activation of the STAT pathway of transcription factors has also been shown to be involved in transformation. An oncogenic form of the prototypical member of the Src-family, v-Src, has been shown to activate STAT3, and this activation is required for v-Srcs transforming ability. To investigate whether Lck could directly activate STAT3, a baculovirus expression system was utilised. When Lck and STAT3 were coexpressed, STAT3 was found to have enhanced tyrosine phosphorylation and DNA binding activity. This finding was confirmed with experiments where exogenous Lck was added to baculovirus produced STAT3. Moreover, the activation of STAT3 by exogenous Lck could be attenuated by the Lck-specific inhibitor PP1. In addition, mammalian cells stably expressing a constitutively activated form of Lck were shown to have activated STAT3. These data provide strong evidence that, like v-Src, Lck can also directly activate STAT3, which contributes to the transformation process.

Mapping the telomere integrated genome of human herpesvirus 6A and 6B

Human herpesvirus 6B (HHV-6B) is the causative agent of roseola infantum. HHV-6A and 6B can reactivate in immunosuppressed individuals and are linked with severe inflammatory response, organ rejection and central nervous system diseases. About 0.85% of the US and UK population carries an integrated HHV-6 genome in all nucleated cells through germline transmission. We have previously reported that the HHV-6A genome integrated in telomeres of patients suffering from neurological dysfunction and also in telomeres of tissue culture cells. We now report that HHV-6B also integrates in telomeres during latency. Detailed mapping of the integrated viral genomes demonstrates that a single HHV-6 genome integrates and telomere repeats join the left end of the integrated viral genome. When HEK-293 cells carrying integrated HHV-6A were exposed to the histone deacetylase inhibitor Trichostatin A, circularization and/or formation of concatamers were detected and this assay could be used to distinguish between lytic replication and latency.

Persistent human herpesvirus‐6 infection in patients with an inherited form of the virus

Human herpesvirus‐6 (HHV‐6)A and 6B are ubiquitous betaherpesviruses viruses with lymphotropic and neurotropic potential. As reported earlier, these viruses establish latency by integration into the telomeres of host chromosomes. Chromosomally integrated HHV‐6 (CIHHV‐6) can be transmitted vertically from parent to child. Some CIHHV‐6 patients are suffering from neurological symptoms, while others remain asymptomatic. Four patients with CIHHV‐6 and CNS dysfunction were treated with valganciclovir or foscarnet. HHV‐6 replication was detected by reverse transcriptase polymerase chain reaction amplification of a late envelope glycoprotein. In this study we also compared the inherited and persistent HHV‐6 viruses by DNA sequencing. The prevalence of CIHHV‐6 in this cohort of adult patients from the USA suffering from a wide range of neurological symptoms including long‐term fatigue were found significantly greater than the reported 0.8% in the general population. Long‐term antiviral therapy inhibited HHV‐6 replication as documented by loss of viral mRNA production. Sequence comparison of the mRNA and the inherited viral genome revealed that the transcript is produced by an exogenous virus. In conclusion, the data presented here document that some individuals with CIHHV‐6 are infected persistently with exogenous HHV‐6 strains that lead to a wide range of neurological symptoms; the proposed name for this condition is inherited herpesvirus 6 syndrome or IHS. J Med. Virol. 85:1940–1946, 2013.

Expression of the collagen-like putative oncoprotein ofHerpesvirus saimiri in transformed T cells

Herpesvirus saimiri induces acute lymphomas and leukemias in New World primates and rabbits. Previous work revealed that a highly oncogenic group C strain 484–77 encodes and expresses a bicistronic mRNA in tumor-derived T cells and the first open reading frame (orf1) is highly homologous to collagen. With the aid of an antibody against a synthetic orf1 peptide, we now report that the orf1 collagen-like protein is expressed in rabbit tumor derived cell lines and in vitro transformed human and monkey T cells. The orf1 protein is expressed in vivo, as indicated by specific antibodies detected in the serum from a tumor-bearing rabbit.

Delta-9 tetrahydrocannabinol (THC) inhibits lytic replication of gamma oncogenic herpesviruses in vitro

BackgroundThe major psychoactive cannabinoid compound of marijuana, delta-9 tetrahydrocannabinol (THC), has been shown to modulate immune responses and lymphocyte function. After primary infection the viral DNA genome of gamma herpesviruses persists in lymphoid cell nuclei in a latent episomal circular form. In response to extracellular signals, the latent virus can be activated, which leads to production of infectious virus progeny. Therefore, we evaluated the potential effects of THC on gamma herpesvirus replication.MethodsTissue cultures infected with various gamma herpesviruses were cultured in the presence of increasing concentrations of THC and the amount of viral DNA or infectious virus yield was compared to those of control cultures. The effect of THC on Kaposis Sarcoma Associated Herpesvirus (KSHV) and Epstein-Barr virus (EBV) replication was measured by the Gardella method and replication of herpesvirus saimiri (HVS) of monkeys, murine gamma herpesvirus 68 (MHV 68), and herpes simplex type 1 (HSV-1) was measured by yield reduction assays. Inhibition of the immediate early ORF 50 gene promoter activity was measured by the dual luciferase method.ResultsMicromolar concentrations of THC inhibit KSHV and EBV reactivation in virus infected/immortalized B cells. THC also strongly inhibits lytic replication of MHV 68 and HVS in vitro. Importantly, concentrations of THC that inhibit virus replication of gamma herpesviruses have no effect on cell growth or HSV-1 replication, indicating selectivity. THC was shown to selectively inhibit the immediate early ORF 50 gene promoter of KSHV and MHV 68.ConclusionsTHC specifically targets viral and/or cellular mechanisms required for replication and possibly shared by these gamma herpesviruses, and the endocannabinoid system is possibly involved in regulating gamma herpesvirus latency and lytic replication. The immediate early gene ORF 50 promoter activity was specifically inhibited by THC. These studies may also provide the foundation for the development of antiviral strategies utilizing non-psychoactive derivatives of THC.

Small RNA expression from the oncogenic region of a highly oncogenic strain of herpesvirus saimiri

Herpesvirus saimiri induces acute lymphomas and leukemias in primates and rabbits. Sequence divergence of the right end unique region of the genome classifies virus strains into three groups (A, B, and C), and previous studies have demonstrated correlation between DNA grouping and oncogenicity. In order to relate different oncogenicity to the underlying molecular mechanisms, we reported earlier the expression of a bicistronic mRNA from the oncogenic region in a highly oncogenic group C strain, and the present study is the first report on small RNA transcripts from the same region. The transcripts and 6.2 kbp on the oncogenic region were sequenced and characterized. We show that four U-type small RNAs are expressed in tumor cells transformed by this strain, in contrast to the seven small RNAs reported from a weakly oncogenic group A strain. Sequence comparisons between the two strains showed that the right end region of strain 484–77 of group C is about 1 kbp shorter. The conserved 5′ AUUUA repeats of some small RNAs, and their proposed implication in lymphokine mRNA stabilization, are also discussed.

Sensitivity of Monkey B Virus (Cercopithecine herpesvirus 1) to Antiviral Drugs: Role of Thymidine Kinase in Antiviral Activities of Substrate Analogs and Acyclonucleosides

ABSTRACT Herpes B virus (B virus [BV]) is a macaque herpesvirus that is occasionally transmitted to humans where it can cause rapidly ascending encephalitis that is often fatal. To understand the low susceptibility of BV to the acyclonucleosides, we have cloned, expressed, and characterized the BV thymidine kinase (TK), an enzyme that is expected to “activate” nucleoside analogs. This enzyme is similar in sequence and properties to the TK of herpes simplex virus (HSV), i.e., it has a broad substrate range and low enantioselectivity and is sensitive to inhibitors of HSV TKs. The BV enzyme phosphorylates some modified nucleosides and acyclonucleosides and l enantiomers of thymidine and related antiherpetic analogs. However, the potent anti-HSV drugs acyclovir (ACV), ganciclovir (GCV), and 5-bromovinyldeoxyuridine were poorly or not phosphorylated by the BV enzyme under the experimental conditions. The antiviral activities of a number of marketed antiherpes drugs and experimental compounds were compared against BV strains and, for comparison, HSV type 1 (HSV-1) in Vero cell cultures. For most compounds tested, BV was found to be about as sensitive as HSV-1 was. However, BV was less sensitive to ACV and GCV than HSV-1 was. The abilities of thymidine analogs and acyclonucleosides to inhibit replication of BV in Vero cell culture were not always proportional to their substrate properties for BV TK. Our studies characterize BV TK for the first time and suggest new lead compounds, e.g., 5-ethyldeoxyuridine and pencyclovir, which may be superior to ACV or GCV as treatment for this emerging infectious disease.