Regulation of human cell engraftment and development of EBV-related lymphoproliferative disorders in Hu-PBL-scid mice.

Human PBMC engraft in mice homozygous for the severe combined immunodeficiency (Prkdcscid) mutation (Hu-PBL-scid mice). Hu-PBL-NOD-scid mice generate 5- to 10-fold higher levels of human cells than do Hu-PBL-C.B-17-scid mice, and Hu-PBL-NOD-scid beta2-microglobulin-null (NOD-scid-B2mnull) mice support even higher levels of engraftment, particularly CD4+ T cells. The basis for increased engraftment of human PBMC and the functional capabilities of these cells in NOD-scid and NOD-scid-B2mnull mice are unknown. We now report that human cell proliferation in NOD-scid mice increased after in vivo depletion of NK cells. Human cell engraftment depended on CD4+ cells and required CD40-CD154 interaction, but engrafted CD4+ cells rapidly became nonresponsive to anti-CD3 Ab stimulation. Depletion of human CD8+ cells led to increased human CD4+ and CD20+ cell engraftment and increased levels of human Ig. We further document that Hu-PBL-NOD-scid mice are resistant to development of human EBV-related lymphoproliferative disorders. These disorders, however, develop rapidly following depletion of human CD8+ cells and are prevented by re-engraftment of CD8+ T cells. These data demonstrate that 1) murine NK cells regulate human cell engraftment in scid recipients; 2) human CD4+ cells are required for human CD8+ cell engraftment; and 3) once engrafted, human CD8+ cells regulate human CD4+ and CD20+ cell expansion, Ig levels, and outgrowth of EBV-related lymphoproliferative disorders. We propose that the Hu-PBL-NOD-scid model is suitable for the in vivo analysis of immunoregulatory interactions between human CD4+ and CD8+ cells.

Role of natural killer cells on engraftment of human lymphoid cells and on metastasis of human T-lymphoblastoid leukemia cells in C57BL/6J-scid mice and in C57BL/6J-scid bg mice.

The severe combined immunodeficiency (scid) mutation was backcrossed onto the C57BL/6J strain background in order to study the role of natural killer (NK) cells in rejection of normal and malignant human lymphohematopoietic cells. C57BL/6J-scid/scid mice showed severe loss of mature T and B cells accompanied by increased percentages of NK1.1+ cells and myeloid cells. Although little or no serum immunoglobulin was detectable prior to 2 months of age, all mice tested had circulating immunoglobulin by 7.5 months of age. C57BL/6J-scid/scid mice had markedly elevated levels of both hemolytic complement activity and NK cell activity compared with C57BL/6J - (+/+) controls. Weekly injections with anti-NK1.1 antibody resulted in elimination of NK cell activity in C57BL/6J-scid/scid mice throughout 8 weeks of treatment. Although human CEM-C7 T lymphoblastoid tumor cells grew slowly in unmanipulated C57BL/6J-scid/scid mice, anti-NK1.1 treatment resulted in increased growth accompanied by metastasis of human lymphoma cells to the brain, liver, and kidney. In contrast to T lymphoblastoid tumor cells, nonmalignant human peripheral blood mononuclear cells engrafted at low levels in anti-NK1.1-treated as well as in unmanipulated C57BL/6-scid/scid mice. Backcrossing of the beige (bgJ) mutation onto the C57BL/6-scid/scid genetic stock caused decreased NK cell activity accompanied by granulocyte defects. C57BL/6-scid/scid bgJ)/bgJ) mice showed metastasis of human CEM-C7 cells to the brain and other organs but supported only low levels of engraftment with human peripheral blood mononuclear cells. These results demonstrate that NK cells, in the absence of an adaptive immune system, function in resistance to metastasis of human lymphomas and suggest that innate immune factors in addition to NK cell function mediate resistance to engraftment of normal human peripheral blood leukocytes.

Improved engraftment of human cord blood stem cells in NOD/LtSz-scid/scid mice after irradiation or multiple-day injections into unirradiated recipients.

Human lymphoematopoietic stem cells engraft in irradiated immunodeficient mice that are homozygous for the severe combined immunodeficiency (scid) mutation. Engraftment levels in C.B-17-scid/scid mice, however, have been low and transient, decreasing the utility of this model for investigation of the development potential and function of human stem cells. In the present study, we have used NOD/LtSz-scid/scid mice as recipients and human cord blood as a source of donor stem cells. Our results demonstrate that NOD/LtSz-scid/scid mice support approximately fivefold higher levels of human stem cell marrow engraftment than do C.B-17-scid/scid mice. Human CD34+ cells are present in the marrow of recipient mice, and the engrafted cells readily peripheralize to the circulation of the host. Terminal differentiation of the stem and progenitor cells into mature progeny is limited. Using a multiple-day injection protocol developed in mice, which allows engraftment of stem cells between congenic mice in the absence of irradiation preconditioning, we observed high levels of human cell engraftment in unirradiated NOD/LtSz-scid/scid recipients after three or five consecutive-day injections. These results demonstrate that NOD/LtSz-scid/scid mice support high levels of human stem cell engraftment and that xenogeneic lymphohematopoietic stem cells can engraft in unirradiated hosts without the need for ablative reconditioning. This model will be useful for the in vivo investigation of human stem cells and for the preclinical analysis of human stem cells for transplantation.

HIV-1 infectivity of human T cells in a human/murine chimeric fetal thymic organ culture system.

Human cord blood (HuCB) can colonize a murine fetal thymus organ culture (FTOC) and generate phenotypically immature (CD4+ CD8+) and mature (CD4+ CD8-; CD4- CD8+) T cells. We have used this model system to demonstrate that the human T cells that develop in this culture system can be infected with HIV-1. A cytopathic and non-cytopathic patient isolate of HIV-1 were used to infect FTOC established using C.B-17 or NOD/LtSz.scid/scid strain fetal thymic lobes colonized with HuCB. At 13-15 days after infection, FTOC were placed in co-culture with human PHA-blasts. These co-cultures demonstrated the presence of replicating HIV-1. Few human CD45+ cells were detectable in the thymic lobes that were infected with HIV-1, while high numbers of human CD45+ T cells were present in the uninfected cultures. These results demonstrate the cytopathicity of HIV-1 on human T lymphocytes that have developed in a HuCB colonized FTOC system.

Emv30null NOD-scid mice. An improved host for adoptive transfer of autoimmune diabetes and growth of human lymphohematopoietic cells.

When used as hosts in passive transfer experiments, a stock of NOD/Lt mice congenic for the severe combined immunodeficiency (scid) mutation have provided great insight to the contributions of various T-cell populations in the pathogenesis of autoimmune insulin-dependent diabetes mellitus (IDDM). Moreover, NOD-scid mice support higher levels of human lymphohematopoietic cell growth than the C.B-17-scid strain in which the mutation originated. However, the ability to perform long-term lymphohematopoietic repopulation studies in the NOD-scid stock has been limited by the fact that most of these mice develop lethal thymic lymphomas beginning at 20 weeks of age. These thymic lymphomas are characterized by activation and subsequent genomic reintegrations of Emv30, an endogenous murine ecotropic retrovirus unique to the NOD genome. To test the role of this endogenous retrovirus in thymomagenesis, we produced a stock of Emv30null NOD-scid mice by congenic replacement of the proximal end of chromosome 11 with genetic material derived from the closely related NOR/Lt strain. Thymic lymphomas still initiate in Emv30null NOD-scid females, but their rate of progression is significantly retarded since the frequency of tumors weighing between 170 and 910 mg at 25 weeks of age was reduced to 20.8% vs. 76.2% in Emv30% segregants. The thymic lymphomas that did develop in Emv30null NOD-scid mice were not characterized by a compensatory increase in mink cell focus-forming proviral integrations, which initiate thymomagenesis in other susceptible mouse strains. Significantly, the ability of standard NOD T-cells to transfer IDDM to the Emv30null NOD-scid stock was not impaired.(ABSTRACT TRUNCATED AT 250 WORDS)

High levels of human peripheral blood mononuclear cell engraftment and enhanced susceptibility to human immunodeficiency virus type 1 infection in NOD/LtSz-scid/scid mice.

Inbred C.B-17-scid/scid mice accept human peripheral blood mononuclear cell (PBMC) xenografts and are susceptible to human immunodeficiency virus type 1 (HIV-1) infection, but low levels of PBMC engraftment impede use of this system in HIV research. This report describes the effect of host strain background on human PBMC engraftment and HIV infectivity in scid mice. Back-crossing the scid mutation to the NOD/Lt strain (designated NOD/LtSz-scid/scid) increased the percentage of engrafted human PBMC in recipient spleens by 5- to 10-fold compared with that in C.B-17-scid/scid stock. Four weeks after human PBMC-injected mice were infected with HIV-1, 79% of NOD/LtSz-scid/scid spleens harbored replicating virus compared with only 39% of spleens in C.B-17-scid/scid mice. The NOD/LtSz-scid/scid mouse may provide a useful small animal model for studies of HIV-1.

Improved engraftment of human spleen cells in NOD/LtSz-scid/scid mice as compared with C.B-17-scid/scid mice.

T and B lymphocyte-deficient mice homozygous for the severe combined immunodeficiency (SCID) mutation can be immunologically engrafted with human lymphocytes. However, low levels of human peripheral blood mononuclear cell engraftment are commonly observed, impeding full use of this model. We now demonstrate that strain background in mice homozygous for the scid mutation is a strong determinant of levels of human lymphocyte engraftment. NOD/LtSz-scid/scid mice support higher levels of engraftment of both human spleen and peripheral blood mononuclear cells than do C.B-17-scid/scid mice. We observed, using human spleen cell injected scid mice, 1), high levels of engraftment of the host peripheral lymphoid tissues with human CD45+ (leukocytes), CD3+ (T cells), CD4+ (helper/inducer), and CD8+ (suppressor/cytotoxic) lymphoid cells for up to 24 weeks in NOD/LtSz-scid/scid mice; 2), migration of high numbers of human lymphocytes to peripheral lymphoid and nonlymphoid organs in NOD/LtSz-scid/scid, but not in C.B-17-scid/scid mice; 3), higher levels of serum immunoglobulin of human origin in NOD/LtSz-scid/scid mice than in C.B-17-scid/scid mice; 4), histological lesions characteristic of human anti-mouse xenoreactivity in NOD/LtSz-scid/scid mice; and 5), human origin antibodies against filarial antigens after engraftment with native human spleen cells. The use of NOD/LtSz-scid/scid mice as recipients to achieve significantly enhanced human lymphopoietic cell engraftment will now enable human immunity to be more easily studied in animal models.

Normal immune function and inability to isolate virus in culture in an individual with long-term human immunodeficiency virus type 1 infection.

A detailed, longitudinal study was undertaken to investigate the immunological and virological features of an individual with hemophilia infected with human immunodeficiency virus type-1 (HIV-1) for 10 years without disease. Methods applied to serial samples of peripheral blood included Western blot analysis, neutralizing antibody assays, antibody-dependent cell-mediated cytotoxicity (ADCC) titration, HIV-1 specific cytotoxic T lymphocyte (CTL) assays, viral cultures, and PCR with sequence analysis of viral regulatory genes. Strong antibody responses against HIV-1 antigens as measured by Western blot and ADCC assays have persisted throughout infection. Repeated attempts to isolate HIV-1 using sensitive culture techniques and to demonstrate viremia with standard PCR methods have failed. Using the "booster" PCR technique, a period of viremia in peripheral blood mononuclear cells was demonstrated. Concurrent with detection of circulating virus, titers of neutralizing antibodies and circulating HIV-1-specific CTLs became measurable. Sequencing studies of a portion of the viral genome showed no significant abnormalities of the regulatory genes. In this individual, the combination of low viral load in the peripheral blood and a strong, responsive immune system is associated with long-term, disease-free coexistence with HIV-1 infection.

Quantitative assessment of human immunodeficiency virus type 1 replication in human xenografts of acutely infected Hu-PBL-SCID mice.

Replication of the IIIB strain of human immunodeficiency virus type 1 (HIV-1IIIB) in CB.17 scid/scid mice reconstituted with human peripheral blood lymphocytes (Hu-PBL-SCID) was investigated. Hu-PBL-SCID mice could be infected, in a dose-dependent manner, when HIV-1IIIB was injected intraperitoneally. Replication-competent HIV-1 could be recovered from spleen, peripheral blood, bone marrow, thymus, lymph node, and peritoneal cavity, indicating the ability of the infection to spread to human tissue throughout the chimeric animals. HIV-1 infection was quantitated using p24 determination, end-point dilution culture, and polymerase chain reaction amplification. The level of HIV-1 replication in Hu-PBL-SCID mice was found to approximate the level reported in human infection. No HIV-1-specific immune response was generated to this infection, but nonspecific immune activation did occur, as also reported in human infection. Similarities therefore exist between HIV-1 infection of humans and Hu-PBL-SCID mice, which makes the latter an in vivo model in which to study HIV-1 replication.

Human peripheral blood xenografts in the SCID mouse: characterization of immunologic reconstitution.

Immune reconstitutions (hu-PBL-SCID mice) resulting from adoptive transfer of human peripheral blood mononuclear cells into 1800 C.B-17 scid-/scid-mice were characterized. Over 90% of reconstitutions were successful as evidenced by human immunoglobulin production. Variability was noted with donor, cell number, and cell type. Human cells (T lymphocytes, few B cells) could be recovered by 5 days after engraftment. High levels of soluble CD8 and interleukin-2 receptors were detected in sera of hu-PBL-SCID mice. Cells recovered from 17 mice proliferated in response to antigens to which the donor had been primed; responses to nonboosted antigen also increased in some animals. After reconstitution, lymphocytes were found in the spleen and lymph nodes without full restoration of normal architecture. The hu-PBL-SCID mouse shows promise as a model system for a variety of immunologic studies. The inherent variation in the system must be minimized for appropriate use of the model.

Immune responses to Herpesvirus sylvilagus infection in cottontail rabbits.

Immunologic changes produced by Herpesvirus sylvilagus infection of cottontail rabbits were investigated to evaluate this virus infection system as an animal model for EBV infection in humans. H. sylvilagus neutralizing antibodies appeared as early as 7 days after infection, peaked 2 to 4 wk postinfection and decreased to low levels by 8 to 10 wk postinfection. Complement-dependent antibodies mediating the protection of in vitro infection of monocytes and Con A-stimulated lymphoblasts with H. sylvilagus were observed as were complement-dependent cytotoxic antibodies against H. sylvilagus-infected cells. No cytolytic activity was present in sera taken either before or 3 days after infection; cytolysis was first observed 7 days after infection. The development of cytolytic antibodies appeared to be biphasic during an infection course of 12 to 16 wk. In vivo induction of a primary cytotoxic lymphocyte response to H. sylvilagus was also investigated. Splenic lymphocytes from infected animals lysed H. sylvilagus-infected skin fibroblasts; however, similar activity was not observed when PBMC or mesenteric lymph node lymphocytes were used as effector cells. H. sylvilagus-infected autologous skin fibroblasts were preferentially lysed as compared to heterologous skin fibroblasts. This virus-specific cytotoxic activity appeared 5 days postinfection and peaked 7 days postinfection. By 28 days postinfection, only low levels of cytotoxic activity were detected in spleen cells. Herpesvirus sylvilagus infection of cottontail rabbits provides an animal model for the study of lymphoproliferative disorders induced by herpesviruses.

Pathogenesis of Herpesvirus sylvilagus infection in cottontail rabbits.

Experimental infection with Herpesvirus sylvilagus produces clinical and histopathologic changes in its natural host, the cottontail rabbit (Sylvilagus floridanus), similar to those observed in humans acutely infected with Epstein-Barr virus (EBV). Twenty-seven seronegative cottontail rabbits were infected with Herpesvirus sylvilagus and all developed antibodies within 10 days. Neutralizing antibody was detected as early as 7 days after infection. Virus was isolated from blood mononuclear cells, spleen, bone marrow, thymus, lymph nodes, kidneys, lung, and liver as early as 3 days after infection. Infected animals showed leucocytosis, monocytosis, and lymphocytosis with the appearance of atypical lymphocytes. Peripheral blood abnormalities peaked at 10-14 days after infection, and returned to normal by 28 days after infection, with the exception of atypical lymphocytosis that persisted in some animals for more than 2 years after experimental infection. More severe histopathologic changes were seen in virus-infected juvenile rabbits than adult rabbits; these changes included viral myocarditis, interstitial pneumonia, and lymphocytic myositis. Reactive hyperplasia and subsequent lymphocytic depletion of spleen and lymph nodes were reminiscent of that seen in virus-associated hemophagocytosis syndrome. Prominent lymphoid hyperplasia of many nonlymphoid organs, most notably the kidney and lungs, was observed. The development of these lymphoproliferative lesions and other lymphoid changes during H. sylvilagus infection suggest that this system may be a model to study similar lesions induced by EBV infection in humans.