Upregulation of human cytomegalovirus by HIV type 1 in human lymphoid tissue ex vivo

HIV-1 copathogens are believed to play a critical role in progression to AIDS. Human cytomegalovirus (HCMV) has a high prevalence in the general population and is a common copathogen in HIV-1-infected individuals. Important events in copathogen interactions with HIV-1 take place in lymphoid tissue where critical events in HIV-1 disease occur. Here, we used an experimental system of human lymphoid tissue ex vivo to investigate interactions of HCMV with HIV-1. We inoculated ex vivo blocks of human lymphoid tissue with a recombinant strain of HCMV, expressing the green fluorescent protein, and HIV-1 and monitored viral replication and the phenotype of productively infected cells. HCMV readily replicated in tissue blocks as revealed by the release of HCMV viral DNA and an increasing number of viral-positive cells. Immunophenotyping of HCMV-infected cells showed a preferential infection of activated lymphocytes. The number of these cells significantly increased in HIV-1-coinfected tissues. Accordingly, HCMV replication was enhanced 2- to-3 fold. This upregulation occurred in tissues infected with either CXCR4- or CCR5-utilizing HIV-1. Thus, HIV-1 creates new targets for HCMV, which may explain the strong association of HCMV with HIV-1 infection in vivo. Ex vivo-infected human lymphoid tissue constitutes a model to study the mechanisms of HCMV tissue pathogenesis and its interactions with HIV-1 and this model may provide new targets for anti-HIV-1 therapy.     

Dominant expansion of human T cells in non-obese diabetic/severe combined immunodeficiency mice implanted with human bone fragments

OBJECTIVE: To establish an in vivo animal model in which human T cells develop and function normally, a step toward developing new vaccines or chemical compounds that modulate immune functions and toward understanding T-cell immunity in humans. MATERIALS AND METHODS: Human bone fragments were implanted into non-obese diabetes/severe combined immunodeficiency (NOD/SCID) mice. The presence of human blood cells in the peripheral blood of these mice was monitored periodically by immunostaining and fluorescence-activated cell sorting. RESULTS: After implantation of bone fragments, dominant expansion of human T lymphocytes, rather than myeloid and B cells, was observed over a 3-month period. In some cases, the proportion of human T cells rose to 40% of the peripheral blood mononuclear cells. These T cells showed CD4/CD8 ratios similar to those observed in human peripheral blood lymphocytes and had a broad repertoire of rearranged T-cell receptor genes. Graft-versus-host reaction was not noted in any organ analyzed. To assess the suitability of NOD/SCID mice implanted with human bone fragments (hu-bone-NOD/SCID mice) as an in vivo model for HIV infection, the mice were infected with a T-lymphotropic strain of HIV-1 (NL4-3) at 7 weeks posttransplant. Serum p24 gag was detected at 2 weeks after inoculation, after which total CD4-positive cell numbers declined, as seen clinically in patients infected with HIV. CONCLUSION: Although the precise mechanism is yet to be determined by which predominant expansion of human T cells occurs in hu-bone-NOD/SCID mice, such mice appear likely to serve as a useful and versatile model for studies involving human T-cell immunity.     

Oral activity of ether lipid ester prodrugs of cidofovir against experimental human cytomegalovirus infection

Infection with human cytomegalovirus (HCMV) can cause serious complications in bone-marrow and solid-organ transplant recipients, and current therapies are not optimal. We evaluated 2 orally active ether lipid ester analogues of cidofovir (CDV)--hexadecyloxypropyl-CDV (HDP-CDV) and octadecyloxyethyl-CVD (ODE-CDV)--in severe combined immunodeficient mice in which either human fetal retinal tissue or human fetal thymus and liver tissue had been implanted and was later infected with HCMV. Our results indicate that orally administered treatment with either HDP-CDV or ODE-CDV is 4-8-fold more active, on a molar basis, than is intraperitoneally administered CDV. These data suggest that HDP-CDV and ODE-CDV should be further evaluated as potential antiviral agents for treatment of HCMV infection.     

Functional profiling of a human cytomegalovirus genome

Human cytomegalovirus (HCMV), a ubiquitous herpesvirus, causes a lifelong subclinical infection in healthy adults but leads to significant morbidity and mortality in neonates and immunocompromised individuals. Its ability to grow in different cell types is responsible for HCMV-associated diseases, including mental retardation and retinitis, and vascular disorders. To globally assess viral gene function for replication in cells, we determined the genomic sequence of a bacterial artificial chromosome (BAC)-based clone of HCMV Towne strain and used this information to delete each of its 162 unique ORFs and generate a collection of viral mutants. The growth of these mutants in different cultured cells was examined to systematically investigate the necessity of each ORF for replication. Our results showed that 45 ORFs are essential for viral replication in fibroblasts and 117 are nonessential. Some genes were found to be required for viral replication in retinal pigment epithelial cells and microvascular endothelial cells, but not in fibroblasts, indicating their role as tropism factors. Interestingly, several viral mutants grew 10- to 500-fold better than the parental strain in different cell types, suggesting that the deleted ORFs encode replication temperance or repressing functions. Thus, HCMV encodes supportive and suppressive growth regulators for optimizing its replication in human fibroblasts, epithelial, and endothelial cells. Suppression of viral replication by virus-encoded temperance factors represents a novel mechanism for regulating the growth of an animal virus, and may contribute to HCMV's optimal infection of different tissues and successful proliferation among the human population.     

Differential outcomes of human cytomegalovirus infection in primitive hematopoietic cell subpopulations

The cellular reservoir for latent human cytomegalovirus (HCMV) in the hematopoietic compartment, and the mechanisms governing a latent infection and reactivation from latency are unknown. Previous work has demonstrated that HCMV infects CD34+ progenitors and expresses a limited subset of viral genes. The outcome of HCMV infection may depend on the cell subpopulations infected within the heterogeneous CD34+ compartment. We compared HCMV infection in well-defined CD34+ cell subpopulations. HCMV infection inhibited hematopoietic colony formation from CD34+/CD38- but not CD34+/c-kit+ cells. CD34+/CD38- cells transiently expressed a large subset of HCMV genes that were not expressed in CD34+/c-kit+ cells or cells expressing more mature cell surface phenotypes. Although viral genomes were present in infected cells, viral gene expression was undetectable by 10 days after infection. Importantly, viral replication could be reactivated by coculture with permissive fibroblasts only from the CD34+/CD38- population. Strikingly, a subpopulation of CD34+/CD38- cells expressing a stem cell phenotype (lineage-/Thy-1+) supported a productive HCMV infection. These studies demonstrate that the outcome of HCMV infection in the hematopoietic compartment is dependent on the nature of the cell subpopulations infected and that CD34+/CD38- cells support an HCMV infection with the hallmarks of latency.     

Hepatocytes are permissive for human cytomegalovirus infection in human liver cell culture and In vivo.

The cytopathic potential of human cytomegalovirus (HCMV) in human liver cells was analyzed in cell culture and in tissue sections from patients with HCMV hepatitis. Liver cell cultures, consisting of hepatocytes, bile duct epithelial cells, and stromal cells were infected by various HCMV strains. Cytopathic effects, viral gene expression, and virus production were detected. Infected cell types were identified by immunocytochemical double labeling. Hepatocytes were the predominant target cells of HCMV infection in liver tissues and in cell culture. Late-stage infected cultured hepatocytes produced infectious progeny virus, and infectious virus was propagated from liver tissue specimens. HCMV infection in cultured liver cells closely resembled in vivo infection of the liver with regard to the target cell spectrum and the permissive course of infection. It is concluded that HCMV can cause direct liver parenchyma damage by efficient cytolytic infection of hepatocytes.     

Cytomegalovirus infection and trans-activation of HIV-1 and HIV-2 LTRs in human astrocytoma cells

Susceptibility of a human astrocytoma cell line to human cytomegalovirus (HCMV) infection was investigated. Infection of U-373MG astrocytoma cells with two strains of HCMV resulted in both production of extracellular, infectious virus and expression of immediate early and early antigens within 18 hours and late antigens after 72 hours of infection. The kinetics of infection in U-373MG cells were the same as in human diploid fibroblasts (MRC-5). Since HCMV and human immunodeficiency virus (HIV) have reportedly been found in astrocytic cells in vivo, we studied the possible interaction between HCMV and HIV long terminal repeat (LTR) elements in this cellular environment. HCMV infection transactivated the LTR of HIV-1 and HIV-2 to similar levels. Interestingly, transfection of these cells with infectious HIV-1 provirus did not result in expression of gag, env, or F proteins detectable by immunofluorescence. However, provirus gene expression was not completely silent, since it transactivated HIV-1 LTR. The level of this transactivation was similar to that seen following cotransfection with a tat expression vector. These results suggest that opportunistic infection with HCMV may reactivate latent HIV genomes in glial cells.     

A new model for rheumatoid arthritis generated by engraftment of rheumatoid synovial tissue and normal human cartilage into scid mice

Objective. A new animal model was used to study the interaction between rheumatoid synovial cells and cartilage and to explore the cellular basis of rheumatoid joint destruction. Methods. Fresh synovial tissue derived from patients with rheumatoid arthritis was implanted with normal human cartilage into SCID mice, either subcutaneously or under the renal capsule, for up to 304 days. The implants were analyzed by light and electron microscopy, as well as by immunohistochemistry and in situ hybridization. Results. Human synovial tissue and cartilage implanted in SCID mice are maintained by the animals for up to 304 days. After 35 days, focal erosions occur at the site of attachment of synovial lining cells to the cartilage. After 105 days, a pannus-like formation, consisting of proliferating synovial fibroblast-like cells invading the cartilage, is observed. The fibroblast nature of these cells was supported by observation of only focal expression of the macrophage markers CD14 and CD68. Cells at the immediate site of cartilage destruction express messenger RNA for cathepsin L, whereas cathepsin D messenger RNA was detected in subsynovial regions away from the site of destruction. The human origin of the tissue involved in cartilage destruction was demonstrated using monoclonal antibodies to HLA-ABC and human type IV collagen. Conclusion. The present approach introduces a novel in vivo model of rheumatoid arthritis for the study of the molecular and cellular mechanisms of rheumatoid joint destruction at sites of synovial attachment to cartilage. In this model, the SCID mouse acts as a useful host for studying the properties of rheumatoid synovium in the absence of circulating human blood components.     

Dynamic tracking of human hematopoietic stem cell engraftment using in vivo bioluminescence imaging

The standard approach to assess hematopoietic stem cell (HSC) engraftment in experimental bone marrow transplantation models relies on detection of donor hematopoietic cells in host bone marrow following death; this approach provides data from only a single time point after transplantation for each animal. In vivo bioluminescence imaging was therefore explored as a method to gain a dynamic, longitudinal profile of human HSC engraftment in a living xenogeneic model. Luciferase expression using a lentiviral vector allowed detection of distinctly different patterns of engraftment kinetics from human CD34+ and CD34+CD38- populations in the marrow NOD/SCID/beta 2mnull mice. Imaging showed an early peak (day 13) of engraftment from CD34+ cells followed by a rapid decline in signal. Engraftment from the more primitive CD34+CD38- population was relatively delayed but by day 36 increased to significantly higher levels than those from CD34+ cells (P <.05). Signal intensity from CD34+CD38-engrafted mice continued to increase during more than 100 days of analysis. Flow cytometry analysis of bone marrow from mice after death demonstrated that levels of 1% donor cell engraftment could be readily detected by bioluminescence imaging; higher engraftment levels corresponded to higher image signal intensity. In vivo bioluminescence imaging provides a novel method to track the dynamics of engraftment of human HSC and progenitors in vivo.     

Metabolic activation of the nucleoside analog 9-[( 2-hydroxy-1-(hydroxymethyl)ethoxy]methyl)guanine in human diploid fibroblasts infected with human cytomegalovirus.

9-[( 2-Hydroxy-1-(hydroxymethyl)ethoxy]-methyl)guanine (BW B759U) is a more potent inhibitor of human cytomegalovirus (HCMV) in vitro than is the related nucleoside analog acyclovir (ACV). BW B759U was selectively activated to the 5'-triphosphate (BW B759U-triphosphate) in cells infected with HCMV to levels at least 10-fold higher than those measured for ACV-triphosphate and up to as much as 100-fold higher than the levels found in uninfected cells. BW B759U-triphosphate accumulated in HCMV-infected cells with time; the rate of this increase was dependent upon the drug dose and virus multiplicity of infection. Enzyme activities that catalyzed the phosphorylation of thymidine and 2'-deoxycytidine increased 3- to 7-fold in extracts of cells early after HCMV infection but thereafter declined. No concomitant increase in the rate of BW B759U phosphorylation was detected under these assay conditions. Maximal rate of accumulation of both BW B759U-triphosphate and ACV-triphosphate after a short exposure to drug occurred in the late phase of the infective cycle, as the titer of extracellular virus reached a peak in untreated cultures, but after the decline of stimulated host deoxypyrimidine kinase activities. Once formed, the BW B759U-triphosphate pool decreased very slowly and thus it persisted for several days in both HCMV-infected and uninfected cells.     

An in vivo model of human skin acute graft-versus-host disease: transplantation of cultured human epidermal cells and dermal fibroblasts with human lymphocytes into SCID mice

The ability of mixed epidermal cell-lymphocyte reactions to detect allogeneic reactivities in an in vivo model was investigated by developing an in vivo model of acute graft-versus-host disease (GVHD), using SCID mice with a C.B-17 background in which human skin structures were generated by transplantation of cultured human epidermal cells (HEC) with dermal fibroblasts (HDFC). Suspensions containing cultured HEC and HDFC from a single donor were mixed with autologous peripheral blood mononuclear cells (PBMNC) or with PBMNC from unrelated individuals, and were injected into the flanks of C.B-17-SCID mice. Ten and 21 days after injection, subcutaneous nodules generated in the mice were examined histologically and immunohistochemically. Cystic structures developing after injection of HEC and HDFC without human PBMNC showed normal epidermislike tissue. Human skin generated in SCID mice injected with HEC and HDFC with auto-PBMNC showed no graft-versus-host reaction (GVHR) histologically, whereas those mice injected with PBMNC from siblings that shared an HLA haplotype showed mild GVHR. Human skin in SCID mice injected with HEC and HDFC with histoincompatible unrelated PBMNC showed moderate to severe GVHR. The severity of GVHR paralleled the dose of unrelated PBMNC, and GVHR was prevented by peroral treatment with cyclosporine A. Immunohistochemically, inflammatory cells infiltrating human cutaneous tissue formed in the SCID mice were stained by an anti-human CD45RO antibody that reacts with human T cells but not with murine lymphocytes, and most T cells were stained by an anti-human CD8 antibody recognizing HLA class I antigens. These findings are similar to those in clinical skin graft-versus host disease (GVHD) observed in patients undergoing allogeneic bone marrow transplantation. This experimental system should be useful as an in vivo model of human skin GVHD.     

Infection of hematopoietic progenitor cells by human cytomegalovirus.

The susceptibility of hematopoietic progenitor cells to infection by human cytomegalovirus (HCMV) was investigated using several strains of HCMV, including the recombinant strain RC256. RC256 is derived from the laboratory strain Towne and contains the Escherichia coli LacZ gene coding for beta-galactosidase (beta-gal) regulated by an early HCMV promoter. Expression of LacZ allowed the detection of HCMV in individual hematopoietic cells. Clonogeneic bone marrow (BM) progenitors, including CD34+ cells, could be infected with HCMV and would then form normal hematopoietic colonies. By polymerase chain reaction (PCR) amplification of DNA, HCMV could be detected in both erythroid and myeloid colonies. LacZ activity was observed predominantly in cells of myelomonocytic lineage. When cells derived from HCMV-infected progenitors were cocultivated with permissive human fibroblasts, infectious virus expressing LacZ was recovered. Although no characteristic HCMV cytopathology was observed in BM colonies, high virus to cell ratios resulted in a moderate inhibition of colony formation. Since infected hematopoietic progenitors can harbor HCMV for weeks and through several differentiation steps in culture, we postulate that in vivo these cells may serve as a reservoir of latent virus and contribute to HCMV dissemination.     

Expression of angiogenic factors in juvenile rheumatoid arthritis: correlation with revascularization of human synovium engrafted into SCID mice

OBJECTIVE: Although increased vascularity was noted in early histopathologic studies of juvenile rheumatoid arthritis (JRA) synovium, the available data on angiogenesis in JRA are very limited. The main purposes of this study were to assess expression of the key angiogenic factors in JRA synovium, and to evaluate a SCID mouse model of JRA as an approach to study in vivo regulation of the expression of these factors in JRA. METHODS: RNase protection assay was used to assess the expression of the key angiogenic factors in fresh JRA synovium and in JRA synovial tissue fragments that had been minced and then implanted into SCID mice. Vascularity of the samples was assessed by immunohistochemical staining for von Willebrand factor. Synovial specimens obtained from patients with osteoarthritis (OA) or other noninflammatory arthropathies were used as controls. RESULTS: Detectable levels of messenger RNA for vascular endothelial growth factor and angiopoietin 1 and their respective receptors, as well as endoglin and thrombin receptors, were present in all JRA tissue specimens studied. The levels of expression of these factors in JRA tissues were significantly higher than those in tissues obtained from patients with OA or other noninflammatory arthropathies. Furthermore, increased expression of the key angiogenic factors in the fresh JRA tissues correlated with the exuberant revascularization of JRA minced tissue fragments implanted into SCID mice. This was in sharp contrast to the poor revascularization of implanted OA tissues. CONCLUSION: JRA synovium is characterized by high angiogenic activity. SCID mouse-human JRA synovium chimeras may provide a good approach to study the in vivo regulation of angiogenesis in JRA.     

巨细胞病毒感染参与动脉粥样硬化发生的机制

探讨巨细胞病毒感染与动脉粥样硬化的相关性及其可能机制。酶联免疫吸附试验检测一个大样本病人血清中的抗人巨细胞病毒的IgG抗体以及C 反应蛋白 ,同时用聚合酶链式反应检测动脉粥样硬化病变中人巨细胞病毒特异性的即时早期基因 ,探讨巨细胞病毒感染和动脉粥样硬化的关系 ;采用反转录聚合酶链式反应检测人巨细胞病毒感染对内皮细胞趋化因子表达的影响。结果发现动脉粥样硬化组血清中的人巨细胞病毒的阳性率显著高于非动脉粥样硬化组 (分别为 82 .2 %和 6 1.0 % ,P =0 .0 2 ) ;动脉粥样硬化患者血清中的C 反应蛋白水平显著高于无动脉粥样硬化的对照组病人 (5 .912± 3.795mg L比 2 .871± 1.76 1mg L ,P =0 .0 0 0 ) ;而且动脉粥样硬化斑块中人巨细胞病毒基因出现率显著高于正常血管组织 (13 15比 2 7,P =0 .0 1)。人巨细胞病毒感染还可上调内皮细胞ECV 30 4表达单核细胞趋化蛋白 1和不规则趋化因子。表明人巨细胞病毒感染参与动脉粥样硬化的形成和发生 ,可能与人巨细胞病毒上调内皮细胞趋化因子表达有关。     

Inhibition of acute in vivo human immunodeficiency virus infection by human interleukin 10 treatment of SCID mice implanted with human fetal thymus and liver.

To improve the usefulness of in vivo mode for the investigation of the pathophysiology of human immunodeficiency virus (HIV) infection, we modified the construction of SCID mice implanted with human fetal thymus and liver (thy/liv-SCID-hu mice) so that the peripheral blood of the mice contained significant numbers of human monocytes and T cells. After inoculation with HIV-1(59), a primary patient isolate capable of infecting monocytes and T cells, the modified thy/liv-SCID-hu mice developed disseminated HIV infection that was associated with plasma viremia. The development of plasma viremia and HIV infection in thy/liv-SCID-hu mice inoculated with HIV-1(59) was inhibited by acute treatment with human interleukin (IL) 10 but not with human IL-12. The human peripheral blood mononuclear cells in these modified thy/liv-SCID-hu mice were responsive to in vivo treatment with exogenous cytokines. Human interferon gamma expression in the circulating human peripheral blood mononuclear cells was induced by treatment with IL-12 and inhibited by treatment with IL-10. Thus, these modified thy/liv-SCID-hu mice should prove to be a valuable in vivo model for examining the role of immunomodulatory therapy in modifying HIV infection. Furthermore, our demonstration of the vivo inhibitory effect of IL-10 on acute HIV infection suggests that further studies may be warranted to evaluate whether there is a role for IL-10 therapy in preventing HIV infection in individuals soon after exposure to HIV such as for children born to HIV-infected mothers.     

Expression dynamics of human cytomegalovirus immune evasion genes US3, US6, and US11 in the blood of lung transplant recipients.

Delayed elimination of human cytomegalovirus (HCMV)-infected cells by the host immune system may contribute to viral dissemination and pathogenesis of HCMV infection. The mRNA expression dynamics of HCMV-encoded immune evasion genes US3, US6, and US11 expressed after active HCMV infection were analyzed in blood samples of lung transplant recipients by means of quantitative nucleic acid sequence-based amplification. The results were compared with the expression dynamics of IE1 mRNA and pp67 late mRNA, levels of pp65 antigenemia, and antiviral treatment. During acute infection, high levels of US3 and US6 RNA were detected before antigenemia, which were detected simultaneously with IE1 RNA. US11 RNA was detected simultaneously with antigenemia but before late pp67 RNA. These data suggest an active role of viral immune evasion during HCMV infection in vivo. Interestingly, immune evasion RNA remained detectable after clinical recovery, often independently of IE1 RNA expression, indicating persistent viral activity, which may have implications for long-term control of HCMV.     

Circulation of human hematopoietic cells in severe combined immunodeficient mice after Cl2MDP-liposome-mediated macrophage depletion

Intravenous injection of dichloromethylene diphosphonate (Cl2MDP) encapsulated in liposomes results in specific elimination of macrophages in the spleen and liver of normal mice. Severe combined immunodeficient (SCID) mice were treated with Cl2MDP-liposomes followed by injection of human peripheral blood leukocytes. Control SCID mice had no detectable human cells within 72 hours as determined by fluorescence-activated cell sorting (FACS) analysis. However, Cl2MDP- liposome-treated animals maintained a large proportion (%) of human cells in peripheral blood and spleen for at least 12 days. Cl2MDP- liposome-injected SCID mice that had previously been implanted with human fetal thymus and liver showed a transient increase in human cell content in peripheral blood, and an accumulation of human cells specific to the white pulp of the spleen. These results indicate that murine mononuclear phagocytic cells may play an important role in the clearance of human cells injected intravenously or generated endogenously in SCID mice and that Cl2MDP-liposome-mediated macrophage depletion allows human hematopoietic cells to circulate and survive in SCID mice, thereby expanding the potential for studying human cellular processes in vivo.     

HIV type 1 infection of human fetal bone marrow cells induces apoptotic changes in hematopoietic precursor cells and suppresses their in vitro differentiation and capacity to engraft SCID mice

To investigate the mechanism of HIV-1-induced hematopoietic abnormalities, we examined the effect of HIV-1 infection on the in vitro and in vivo behavior of precursor cells obtained from human fetal bone marrow (HFBM). After infection with the monocyte-tropic isolate HIV-1(ADA), HFBM cells displayed a significant decrease in their subsequent in vitro production of precursor cell colonies and a marked impairment in their engraftment of the bone marrow of irradiated SCID mice. By injecting retrovirally tagged, purified human CD34+ cells into HIV-1(ADA)-infected or uninfected human thymic tissue implanted in SCID mice, we demonstrated that HIV-1 infection also inhibited the in vivo differentiation of CD34+ cells into T cells. To determine the mechanism by which HIV-1 suppressed hematopoietic activity, we investigated whether HIV-1 infection induced apoptotic cell death in hematopoietic cells. Multiparameter flow cytometry with FITC-labeled annexin V and propidium iodide demonstrated that infection of the HFBM with monocyte-tropic, but not T cell line-tropic HIV-1, stimulated apoptosis in the CD34+ hematopoietic precursor population. The presence of a TNF-alpha inhibitor during exposure of the HFBM cells to HIV-1 substantially reduced the level of apoptosis of CD34+ cells and significantly decreased the repression of in vitro colony formation induced by HIV-1. However, inhibition of TNF-alpha during HFBM cell culture with HIV-1 did not restore their capacity to engraft SCID mice. Taken together, these results indicated that HIV-1 suppression of human hematopoietic cell maturation is a multifactoral phenomenon, a crucial element of which may be HIV-1-induced apoptosis of precursor cells mediated by TNF-alpha production.     

婴儿巨细胞病毒感染与自然杀伤细胞C型凝集素受体的表达

目的 探讨自然杀伤(NK)细胞C型凝集素受体表达与婴儿人巨细胞病毒(HCMV)感染的关系.方法 2006年1月至2008年6月HCMV感染患儿79例和母乳性黄疸对照患儿39例.根据外周血中性粒细胞pp65抗原血症结果,分为活动性HCMV感染组48例和非活动性HCMV感染组31例,并对活动性HCMV感染组的48例婴儿进行更昔洛韦治疗2周.应用流式细胞术检测外周血NK细胞C型凝集素受体NKG2A、NKG2C、NKG2D表达.三组数据比较采用Kruskal-Wallis独立样本非参数检验,两组之间比较采用Mann-Whiteney配对样本非参数检验.结果 NK细胞抑制性受体NKG2A表达在活动性HCMV感染组、非活动性HCMV感染组和对照组之间差异无统计学意义(x2=3.95,P＞0.05);NK细胞活化性受体NKG2C、NKG2D表达在活动性HCMV感染组、非活动性HCMV感染组和对照组之间差异有统计学意义(x2=24.91,P＜0.01;x2=47.80,P＜0.01).NK细胞活化性受体NKG2C、NKG2D表达在HCMV感染组较对照组明显升高(Z=-4.72,P＜0.01;Z=-5.15,P＜0.01).NK细胞活化性受体NKG2D表达在活动性HCMV感染组较非活动性HCMV感染组明显升高(Z=-5.08,P＜0.01).更昔洛韦治疗后NK细胞活化性受体NKG2D表达降低(Z=-1.34,P=0.07).结论 在调节NK细胞功能和婴儿抗HCMV免疫方面,NKG2C和NKG2D表达可能起重要作用.     

Growth of primary T-cell non-Hodgkin's lymphomata in SCID-hu mice: requirement for a human lymphoid microenvironment.

We reasoned that the SCID-hu mouse could provide an appropriate lymphoid or stromal microenvironment to support the growth of primary human lymphoma. Heterotransplantation of nine cases of primary T-cell non-Hodgkin's lymphoma (NHL) into untreated SCID mice and SCID mice reconstituted with human fetal thymus, spleen, and liver (SCID-hu) resulted in the development of lymphoid tumors in five (56%) cases. Two clonal T-cell NHL grew after a mean of 90 days after injection of primary lymphoma cell suspensions into the thymus xenografts in SCID-hu mice and failed to grow in a variety of sites in SCID mice, except for small tumors that developed after a long (157-day) latency period after intracranial injection of tumor cell suspensions into weanling SCID mice. Successful serial transplantation of NHL in SCID and SCID-hu mice required the presence of a human lymphoid or tumor microenvironment, and was enhanced by pretreating the SCID mice with 175 rad radiation and antiasialo antisera. Analysis of the primary and transplanted T-cell tumors showed identical patterns of T-cell surface markers by flow cytometry and immunophenotyping of fixed tissue sections, and, in one case, reactivity with a specific monoclonal antibody to V beta 5.1. Genotyping of the transplanted tumors showed T-cell receptor gene rearrangements identical to those present in the primary tumors. In one case, the presence of Epstein-Barr virus-positive B cells in association with the primary tumor resulted in the growth of a lymphoblastoid B-cell neoplasm in addition to the malignant T-cell lymphoma after transplantation of tumor fragments to SCID mice. The data support the hypothesis that a human lymphoid microenvironment enhances the growth of T-cell NHL in SCID mice. The SCID-hu thymus graft provides an apparently unique microenvironment that supports the growth of primary T-cell NHL, and can be used to study the interaction between lymphoma cells, nontransformed lymphoid cells, and the surrounding stromal microenvironment in vivo.