人疱疹病毒8型KS330基因片段的检出与Kaposi肉瘤的关系

HHV-8 sequences were recently identified in 100% of the amplifiable samples from AIDS patients with Kaposi's sarcoma(KS)and in 15% of the non-KS tissue samples from AIDS patients, so there is a strong correlation of Kaposi's sarcoma with HHV-8. Serum and DNA samples from a clinically diagnosed Kaposi's sarcoma Chinese patient were tested. HHV-8 antibody was tested positive by IFA and HIV-I antibody was negative by Western blot. The KS330 PCR product was found both in peripheral blood mononuclear cells and in KS tumor cells from this Chinese patient. This supports the hypothesis that Kaposi's sarcoma results from infection of HHV-8.     

从病人外周血单个核细胞中检测HHV－6：分离培养和基因扩增

收集婴幼儿急疹及淋巴系统增生性疾病患者外周血单个核细胞进行体外培养,从７例婴幼儿急疹及２例淋巴系统增生性疾病患者中分离出一种病毒,此病毒能在ＰＨＡ激活的人脐血单个核细胞中传代生长,产生典型ＣＰＥ：形成气球样巨细胞。电镜下观察,感染细胞中可见直径１８０ｎｍ左右,有包膜,疱疹样病毒颗粒;血清学试验证明分离株与ＨＳＶ－１,２、ＨＣＭＶ、及ＥＢＶ无抗原交叉,而与ＨＨＶ－６ＧＳ株间存在抗原一致性;多聚酶链反应表明该分离株ＨＨＶ－６特异性ＤＮＡ阳性;综合以上结果,初步认为该分离株为ＨＨＶ－６。同时还用ｐＣＲ法对所收集的标本直接检测ＨＨＶ－６特异性ＤＮＡ。ＰＣＲ法与病毒分离法相比较,前者ＨＨＶ－６检出率为８８．８％（１６／１８）．后者为３８．９％（７／１８）。     

Prevalence of human herpesvirus-8 infection in HIV-positive patients with and without Kaposi's sarcoma in Hungary

Human herpesvirus-8 (HHV-8) infection of 130 Hungarian HIV-positive individuals with or without Kaposi's sarcoma was investigated from 158 serum and 122 peripheral blood samples using anti-latency-associated nuclear antigen (LANA) indirect immunofluorescence assay (IFA), recombinant orf65 and orfK8.1 antigen enzyme-linked immunosorbent assays (ELISAs), Western blot assays and orf26 specific nested polymerase chain reaction (PCR). The overall prevalence of HHV-8 infection was found to be 31.5% (41/130) among the Hungarian HIV-positive patients. This seroprevalence rate is 7-11-fold higher than that of healthy HIV-negative blood donors in Hungary. The highest prevalence of HHV-8 infection (36.1%, 35/97) was observed in homo- or bisexual patients. Similar to the serologic results, HHV-8 DNA was not always detectable in all serial samples previously shown to be positive for HHV-8 DNA.     

T-cell immune response to human herpesvirus-6 in healthy adults.

The proliferative response of peripheral blood mononuclear cells (PBMC) from healthy adults to human herpesvirus-6 (HHV-6) was examined. It was found that PBMC from 13 of 14 HHV-6-seropositive adults apparently proliferated in response to stimulation with HHV-6 antigen in contrast to the lack of response of cord blood mononuclear cells. In order to confirm the presence of HHV-6-specific memory T cells in the peripheral blood of healthy adults, we established HHV-6-specific T-cell clones from an HHV-6-seropositive individual. CD4+ T-cell clones generated from HHV-6-stimulated PBMC were found to proliferate upon stimulation with HHV-6 in the presence of autologous antigen-presenting cells, but not in response to herpes simplex virus type 1 antigen or mock-infected control antigen. These results indicate that a T-cell immune response against HHV-6 infection is generally present in healthy adult populations.     

In vitro susceptibility of T lymphocytes from chimpanzees (Pan troglodytes) to human herpesvirus 6 (HHV-6): a potential animal model to study the interaction between HHV-6 and human immunodeficiency virus type 1 in vivo.

The in vitro susceptibility of several nonhuman primate species to human herpesvirus 6 (HHV-6) was investigated. Only peripheral blood mononuclear cells from chimpanzees (Pan troglodytes) were found permissive to productive infection by HHV-6, indicating that the host range of HHV-6, albeit limited, may not be restricted to Homo sapiens. However, natural HHV-6 infection in chimpanzees, as well as in the other species tested, could not be documented by serological analysis. As previously observed with human cells, HHV-6 infection of chimpanzee peripheral blood mononuclear cells was highly cytopathic and the infected cells exhibited phenotypic features of activated T lymphocytes. Although in humans the majority of HHV-6-infected lymphocytes displayed the CD4 antigen, in chimpanzees a mixed CD4+ and CD8+ phenotype was observed. HHV-6 was also shown to productively coinfect individual chimpanzee T cells with human immunodeficiency virus type 1, resulting in an accelerated induction of cytopathicity. In light of these findings, we propose the utilization of chimpanzees as a potential animal model system to investigate the in vivo interaction between HHV-6 and human immunodeficiency virus type 1 and its relevance to the development of acquired immune deficiency syndrome.     

Efficient propagation of human herpesvirus 6B in a T-cell line derived from a patient with adult T-cell leukemia/lymphoma.

The efficient propagation of the OK strain of the B variant of human herpesvirus 6 (HHV-6B) was demonstrated in a line of T cells, TaY, established from the peripheral blood lymphocytes of a patient with adult T-cell leukemia/lymphoma (ATL). Growth of TaY cells depends on the presence of IL-2 and the cells harbor HTLV-I genomes. A severe cytopathic effect (CPE) was observed in many HHV-6B(OK)-infected TaY cells one week after infection. The release of virus from HHV-6B(OK)-infected TaY cells [TaY(OK)] was first detected after three days and increased rapidly for up to seven days after infection, as demonstrated by PCR. The titer of HHV-6B(OK) in the supernatant was comparable to the value of 10(3.5) TCID50/ml obtained with PHA-activated cord blood lymphocytes (CBL) that had been infected with HHV-6B(OK). The replication of the virus was shown to depend to a considerable extent on cell viability. Electron microscopy revealed many herpesvirus-type capsid- and enveloped-viruses in the nuclei and cytoplasm of degenerated cells in TaY(OK) cultures. The U1102 strain of HHV-6A and the Z29 strain of HHV-6B also infected TaY cells productively, as detected by PCR and an immunofluorescence test. These results suggest that the activation of CD4+ T lymphocytes with mitogens such as PHA or IL-2 and the expression of some cellular gene or the HTLV-I gene might be essential for efficient propagation of HHV-6B. TaY cells should play an important role in future investigations of cell-virus interactions and genetic variations or cell tropism of HHV-6 isolates since no cell line that shows propagation of both HHV-6A and HHV-6B has been reported to date.     

Human herpesvirus 6 infects dendritic cells and suppresses human immunodeficiency virus type 1 replication in coinfected cultures

Human herpesvirus 6 (HHV-6) has been implicated as a cofactor in the progressive loss of CD4(+) T cells observed in AIDS patients. Because dendritic cells (DC) play an important role in the immunopathogenesis of human immunodeficiency virus (HIV) disease, we studied the infection of DC by HHV-6 and coinfection of DC by HHV-6 and HIV. Purified immature DC (derived from adherent peripheral blood mononuclear cells in the presence of granulocyte-macrophage colony-stimulating factor and interleukin-4) could be infected with HHV-6, as determined by PCR analyses, intracellular monoclonal antibody staining, and presence of virus in culture supernatants. However, HHV-6-infected DC demonstrated neither cytopathic changes nor functional defects. Interestingly, HHV-6 markedly suppressed HIV replication and syncytium formation in coinfected DC cultures. This HHV-6-mediated anti-HIV effect was DC specific, occurred when HHV-6 was added either before or after HIV, and was not due to decreased surface expression or function of CD4, CXCR4, or CCR5. Conversely, HIV had no demonstrable effect on HHV-6 replication. These findings suggest that HHV-6 may protect DC from HIV-induced cytopathicity in AIDS patients. We also demonstrate that interactions between HIV and herpesviruses are complex and that the observable outcome of dual infection is dependent on the target cell type.     

Locatization of human herpesvirus type 8 in human sperms by in situ PCR

SummaryObjectives: Defining the mechanism of infection with human herpesvirus-8 (HHV-8) or Kaposi’s sarcoma associated herpesvirus (KSHV) is an important clinical issue. HHV-8 has been linked to Kaposi’s sarcoma (KS) development in HIV-1-infected individuals, and KS develops in 40% of those infected with both viruses. A series of epidemiological data suggest that sexual transmission is one of the routes of transmission for HHV-8. In our studies, we sought to assess the cellular reservoirs of HHV-8 DNA in the semen of HIV-1-infected men and the potential role of HHV-8 infected spermatozoa in horizontal transmission.Design and methods: A nested polymerase chain reaction (PCR), in situ PCR (ISPCR) and a sodium iodide (NaI) DNA isolation technique that extracts both nuclear and episomal DNA were utilized to amplify specific genes in vitro and within intact cells to evaluate the types of seminal cells infected with HHV-8 in HIV-1-infected and uninfected men.Results HHV-8 was present in the spermatozoa and mononuclear cells of the semen in 64 of 73 (88%) HIV-1 infected individuals. Both the sperms as well as the mononuclear cells of the semen specimens of HIV-1 infected men were found to be infected with HHV-8. Multiplex ISPCR revealed that a significantly higher percentage of semen cells were infected with HHV-8 than HIV-1 (p>0.001). Rare (less than one in a 100,000) sperm cells were co-infected with both viruses. A co-culture of HHV-8 infected sperm with uninfected 293 or Sup-T1 cell lines resulted in an abortive infection of these cells with HHV-8. DNA isolation by NaI yielded 73% of the positive sperm, whereas the standard phenol/chloroform method resulted in significantly lower positives (45%) from the same specimens.Conclusions: Design and methods: Our data strongly suggest a potential sexual/horizontal route of transmission of HHV-8, via the HHV-8 infected sperm and other semen cells, where a large percentage of HIV-1 infected men’s sperm and other semen cells are infected with HHV-8. Co-culture studies have further supported the observations that HHV-8 in the sperm cells is infectious and capable of transmission of the virus to uninfected cells.     

In vitro activity evaluation of Parkia pendula seed lectin against human cytomegalovirus and herpes virus 6.

Human cytomegalovirus (HCMV) in vitro infectivity was inhibited by Parkia pendula seed lectin (PpeL) in contrast to human herpes virus 6 (HHV-6) which was not affected. The antiviral activity was detected for HCMV in human embryo lung (HEL) cells using a microtechnique in culture plates. The assay showed a reduction of cellular infectivity from approximately 95%, at a concentration of 150microg/mL with minimal cytotoxicity (25%). Also, a reduction of 75% was observed in HEL cells at a concentration of 75microg/mL without toxic effect. The reduction on infectivity was observed even after virus pre-adsorption to cells suggesting that this action should occur after virus penetration, in the intracellular replication phase. MT4 lymphocytes and cord blood mononuclear cells (CBMC) were used to evaluate the lectin effect on HHV-6 following the same technique. Lectin concentrations with few or no toxic effects on lymphocytes did not show inhibitory action of HHV-6 cytopathic effect. The results obtained with PpeL demonstrate that it may have an impact in the design of pharmacological strategies to infection of cytomegalovirus.     

Predominant CD4 T-lymphocyte tropism of human herpesvirus 6-related virus.

Human herpesvirus 6 (HHV-6)-related virus was isolated from CD4+ CD8- and CD3+ CD4+ mature T lymphocytes but could not be isolated from CD4- CD8+, CD4- CD8-, and CD3- T cells in the peripheral blood of exanthem subitum patients. HHV-6-related virus predominantly infected CD4+ CD8+, CD4+ CD8-, and CD3+ CD4+ cells with mature phenotypes and rarely infected CD4- CD8+ cells from cord blood mononuclear cells, which suggested predominant CD4 mature T-lymphocyte tropism of HHV-6-related virus.     

Correlation between human herpesvirus 6 and 7 infections after living related liver transplantation

Human herpesvirus 6 (HHV-6) and human herpesvirus 7 (HHV-7) are closely related to each other. Interaction between the two viruses at the time of primary HHV-7 infection is suggested by in vivo and in vitro studies. However, interaction between the two viruses in organ transplant recipients has not been analyzed. We analyzed serially collected plasma samples obtained from 40 living related liver transplant recipients by serological assay (indirect immunofluorescence assay, IFA) and polymerase chain reaction (PCR). Significant increase or seroconversion of HHV-6 IgG and HHV-7 IgG antibody titers were observed in 45% and 58% of recipients respectively. Positive rate of IgM HHV-6 antibody increased up to 35% at 4 weeks after transplantation. However, no remarkable peak in the positive rate of HHV-7 IgM antibody was demonstrated. HHV-6 and HHV-7 DNA were detected in plasma in 15 (38%) and 16 (40%) of the 40 recipients respectively. HHV-6 DNA was detected in 10 (26%) of the 38 recipients at 2 weeks after transplantation. The positive rate of the virus genome in plasma gradually decreased after that time. HHV-7 DNA was detected in 5 (14%) of the 37 recipients at 2 weeks after transplantation; no obvious peak in the positive rate of HHV-7 DNA was demonstrated. Antibody responses involving both HHV-6 and HHV-7, including either a significant increase in IgG antibody titers or positive identification of IgM antibody were observed in 17 (43%) of the 40 recipients. Thirteen out of the 17 recipients demonstrated concurrent antibody response against both viruses. HHV-7 antibody response preceded the HHV-6 antibody response in 2 of the remaining 4 recipients, whereas the opposite was true in the other 2 recipients. Both HHV-6 and HHV-7 DNA were detected in 7 (18%) of the 40 recipients. In 4 of those 7 recipients, DNA from both viruses was concurrently detected, 3 of whom had HHV-7 DNA repeatedly detected after first detection of the virus DNA. The detection of HHV-7 DNA preceded the detection of HHV-6 DNA in 2 recipients, whereas HHV-6 DNA appeared first in 1 recipient.     

Detection of human herpesvirus 7 infection in young children presenting with exanthema subitum

In this study, we assessed the prevalence of human herpesvirus-7 (HHV-7) in 141 serum samples from children less than four years of age with exanthematic disease. All samples were negative for measles, rubella, dengue fever and parvovirus B19 infection. Testing for the presence of human herpesvirus-6 (HHV-6)-specific high avidity IgG antibodies by indirect immunofluorescence assay (IFA) revealed two main groups: one composed of 57 patients with recent primary HHV-6 infection and another group of 68 patients showing signs of past HHV-6 infection. Another 16 samples had indeterminate primary HHV-6 infection, by both IgG IFA and IgM IFA. Serum samples were subjected to a nested polymerase chain reaction to detect the presence of HHV-7 DNA. Among patients with a recent primary HHV-6 infection, HHV-7 DNA was present in 1.7% of individuals; however, 5.8% of individuals tested positive for HHV-7 DNA in the group with past primary HHV-6 infection. Among the 16 samples with indeterminate diagnosis, 25% (4/16) had HHV-7 DNA (p < 0.002). We hypothesise that HHV-7 might be the agent that causes exanthema. However, a relationship between clinical manifestations and the detection of virus DNA does not always exist. Therefore, a careful interpretation is necessary to diagnose a primary infection or a virus-associated disease. In conclusion, we detected HHV-7 DNA in young children from the state of Rio de Janeiro, Brazil.     

Prevalence of human herpesvirus 8 DNA in peripheral blood mononuclear cells of acute and chronic leukemia patients in Taiwan

Human herpesvirus 8 (HHV-8) is associated with the development of Kaposi's sarcoma and several other human malignancies. The prevalence of HHV-8 DNA in peripheral blood mononuclear cells (PBMCs) in Taiwanese leukemia populations has not been investigated. In this study, HHV-8 DNA was extracted from PBMCs, and detected in 10.29% of the leukemia cases and 8.94% of the relatives' cases. In addition, the prevalence of HHV-8 DNA in PBMCs was nonsignificantly associated with gender, age and leukemia subtypes. The study examines the prevalence of HHV-8 DNA in PBMCs in Taiwanese leukemia and can be applied in further epidemiological studies.     

GP96 Interacts with HHV-6 during Viral Entry and Directs It for Cellular Degradation

CD46 and CD134 mediate attachment of Human Herpesvirus 6A (HHV-6A) and HHV-6B to host cell, respectively. But many cell types interfere with viral infection through rapid degradation of viral DNA. Hence, not all cells expressing these receptors are permissive to HHV-6 DNA replication and production of infective virions suggesting the involvement of additional factors that influence HHV-6 propagation. Here, we used a proteomics approach to identify other host cell proteins necessary for HHV-6 binding and entry. We found host cell chaperone protein GP96 to interact with HHV-6A and HHV-6B and to interfere with virus propagation within the host cell. In human peripheral blood mononuclear cells (PBMCs), GP96 is transported to the cell surface upon infection with HHV-6 and interacts with HHV-6A and -6B through its C-terminal end. Suppression of GP96 expression decreased initial viral binding but increased viral DNA replication. Transient expression of human GP96 allowed HHV-6 entry into CHO-K1 cells even in the absence of CD46. Thus, our results suggest an important role for GP96 during HHV-6 infection, which possibly supports the cellular degradation of the virus.     

Human herpesvirus 6 infection of CD4+ T-cell subsets

The immune system includes CD4+ regulatory T (T reg) cells that play a role in self-tolerance and demonstrate functional variations that govern immune responses. HHV-6 is an important immunosuppressive virus that completely replicates in vivo and in vitro in only CD4+ T cells. However, there have been no reports of the specific T-cell subpopulation that permits the replication of this virus. Here, we evaluated the infectivity of HHV-6 to specific T-cell populations such as CD4+CD25 high, which includes the majority of T reg cells, and CD4+CD25(-). These cells were isolated from peripheral blood and then expanded. The expanded cell fractions were then infected with the HHV-6 variant B strain, and the spreads of infected cells were evaluated by immunofluorescence. Viral growth was also quantified by real-time PCR. The effects of virus infection on cytokine production from these T-cell subsets were examined using ELISA. Our results revealed that both these fractions permitted complete HHV-6 replication. Virus infection enhanced the production of both Th1- and Th2-type cytokines from CD4+CD25(-) T cells; however, only Th2-type cytokine release was augmented from viral-infected CD4+CD25 high T cells. Further, while virusinfected CD4+CD25 high T cells shift their antiviral immunity toward Th2 dominance by producing IL-10, the role of virus-infected CD4+CD25(-) T cells remains obscure.     

Monitoring of active HHV-6 infection in bone marrow transplant recipients by real time PCR; comparison to detection of viral DNA in plasma by qualitative PCR

Twelve (46%) of the 26 patients had human herpesvirus 6 (HHV-6) viremia after bone marrow transplant (BMT). All isolates were recovered from the samples obtained at 2 weeks after BMT. The sensitivity and the specificity of detection of viral DNA in plasma by qualitative polymerase chain reaction (PCR) for monitoring active virus replication were 92% and 97% respectively. Moreover, the positive (85%) and negative (99%) predictive values were also high. The patients with HHV-6 viremia showed a clear peak in HHV-6 DNA in peripheral blood mononuclear cells (PBMCs) at 2 weeks after BMT, which was measured by real time PCR. The virus DNA level in PBMCs between the two groups (patients with viremia and patients without viremia) was statistically different at 2 weeks after BMT (P = 0.033). In patients with HHV-6 viremia, mean HHV-6 DNA copy number was higher in the samples collected at 2 weeks after BMT than the samples collected at any other time period.     

Human CD4+ T cell response to human herpesvirus 6

Following primary infection, human herpesvirus 6 (HHV-6) establishes a persistent infection for life. HHV-6 reactivation has been associated with transplant rejection, delayed engraftment, encephalitis, muscular dystrophy, and drug-induced hypersensitivity syndrome. The poor understanding of the targets and outcome of the cellular immune response to HHV-6 makes it difficult to outline the role of HHV-6 in human disease. To fill in this gap, we characterized CD4 T cell responses to HHV-6 using peripheral blood mononuclear cell (PBMC) and T cell lines generated from healthy donors. CD4(+) T cells responding to HHV-6 in peripheral blood were observed at frequencies below 0.1% of total T cells but could be expanded easily in vitro. Analysis of cytokines in supernatants of PBMC and T cell cultures challenged with HHV-6 preparations indicated that gamma interferon (IFN-γ) and interleukin-10 (IL-10) were appropriate markers of the HHV-6 cellular response. Eleven CD4(+) T cell epitopes, all but one derived from abundant virion components, were identified. The response was highly cross-reactive between HHV-6A and HHV-6B variants. Seven of the CD4(+) T cell epitopes do not share significant homologies with other known human pathogens, including the closely related human viruses human herpesvirus 7 (HHV-7) and human cytomegalovirus (HCMV). Major histocompatibility complex (MHC) tetramers generated with these epitopes were able to detect HHV-6-specific T cell populations. These findings provide a window into the immune response to HHV-6 and provide a basis for tracking HHV-6 cellular immune responses.     

Identification and analysis of a lytic-phase origin of DNA replication in human herpesvirus 7.

Human herpesvirus 7 (HHV-7) DNA sequences colinear with the HHV-6 lytic-phase origin of DNA replication (oriLyt) were amplified by PCR. Plasmid constructs containing these sequences were replicated in HHV-7-infected cord blood mononuclear cells but not in HHV-6-infected cells. In contrast, plasmids bearing HHV-6 oriLyt were replicated in both HHV-6- and HHV-7-infected cells. Finally, the minimal HHV-7 DNA element necessary for replicator activity was mapped to a 600-bp region which contains two sites with high homology to the consensus binding site for the HHV-6 origin binding protein. At least one of these binding sites was shown to be essential for replicator function of HHV-7 oriLyt.