Precise definition of the role of both CD4 and CD8 T-cell subsets from NOD mice in the adoptive transfer of diabetes has been complicated by the possibility that endogenous T-cells may be recruited. Two newly created NOD congenic stocks, NOD.NON-Thy-1a and NOD/LtSz-scid, have been used as T-cell donors and recipients, respectively, to eliminate contributions from endogenous T-cells and thus to define the requirement for transferred T-cell subsets as a function of underlying diabetes development in the NOD donor. Total T-cells and T-cell subsets prepared from either prediabetic or diabetic NOD.NON-Thy-1a donors were adoptively transferred into 6-wk-old NOD-scid/scid recipients that were monitored for diabetes development. Both flow cytometric and histological analysis of recipient spleen and pancreas after adoptive transfer showed lymphocytes of donor (Thy1.1+) origin exclusively. Total T-cell and enriched CD4+ T-cell preparations from both diabetic and young prediabetic donors transferred diabetes to NOD-scid/scid recipients. However, the mean time to diabetes onset was doubled when CD4+ lymphocytes were isolated from prediabetic versus diabetic donors, and these transfers were complicated by the generation of small but significant numbers of CD8+ cells over time. Enriched CD8+ populations alone were unable to transfer disease. More rigorous exclusion of CD8+ cells by means of anti-CD8 MoAb treatment in vivo of the recipients of enriched CD4+ cells demonstrated a significant difference in the diabetogenic potency of CD4+ lymphocytes from diabetic versus nondiabetic donors. Diabetes was adoptively transferred to 58% of the recipients of enriched CD4+ lymphocytes from diabetic donors. In contrast, none of the recipients of enriched CD4+ lymphocytes from young prediabetic donors developed diabetes after MoAb treatment in vivo. The ability of a T-cell population to produce severe insulitis and sialitis in NOD-scid/scid recipients of T-cells closely paralleled its ability to induce diabetes. In an effort to suppress insulitis by suppression of macrophage migration to the islets, NOD-scid/scid mice were treated with silica in conjunction with adoptive transfer of T-cells from diabetic donors. Chronic silica treatment failed to deplete tissue macrophages and did not prevent diabetes development after transfer of unfractionated T-cells. Evidence is discussed indicating that the age-associated differences in ability of CD4+ T-cells to adoptively transfer diabetes in the absence of the CD8+ T-cells subset is a function of prior, chronic exposure of the CD4+ lymphocytes to beta-cell antigens in the donor.(ABSTRACT TRUNCATED AT 400 WORDS)
Development of a small animal model for the in vivo study of human immunity and infectious disease remains an important goal, particularly for investigations of HIV vaccine development. NOD/Lt mice homozygous for the severe combined immunodeficiency (Prkdcscid) mutation readily support engraftment with high levels of human hematolymphoid cells. However, NOD/LtSz-scid mice are highly radiosensitive, have short life spans, and a small number develop functional lymphocytes with age. To overcome these limitations, we have backcrossed the null allele of the recombination-activating gene (Rag1) for 10 generations onto the NOD/LtSz strain background. Mice deficient in RAG1 activity are unable to initiate V(D)J recombination in Ig and TCR genes and lack functional T and B lymphocytes. NOD/LtSz-Rag1null mice have an increased mean life span compared with NOD/LtSz-scid mice due to a later onset of lymphoma development, are radioresistant, and lack serum Ig throughout life. NOD/LtSz-Rag1null mice were devoid of mature T or B cells. Cytotoxic assays demonstrated low NK cell activity. NOD/LtSz-Rag1null mice supported high levels of engraftment with human lymphoid cells and human hemopoietic stem cells. The engrafted human T cells were readily infected with HIV. Finally, NOD/LtSz-Rag1null recipients of adoptively transferred spleen cells from diabetic NOD/Lt+/+ mice rapidly developed diabetes. These data demonstrate the advantages of NOD/LtSz-Rag1null mice as a radiation and lymphoma-resistant model for long-term analyses of engrafted human hematolymphoid cells or diabetogenic NOD lymphoid cells.
The scid mutation was backcrossed ten generations onto the NOD/Lt strain background, resulting in an immunodeficient stock (NOD/LtSz-scid/scid) with multiple defects in adaptive as well as nonadaptive immunologic function. NOD/LtSz-scid/scid mice lack functional lymphoid cells and show little or no serum Ig with age. Although NOD/(Lt-)+/+ mice develop T cell-mediated autoimmune, insulin-dependent diabetes mellitus, NOD/LtSz-scid/scid mice are both insulitis- and diabetes-free throughout life. However, because of a high incidence of thymic lymphomas, the mean lifespan of this congenic stock is only 8.5 mo under specific pathogen-free conditions. After i.v. injection of human CEM T-lymphoblastoid cells, splenic engraftment of these cells was fourfold greater in NOD/LtSz-scid/scid mice than in C.B17/Sz-scid/scid mice. Although C.B-17Sz-scid/scid mice exhibit robust NK cell activity, this activity is markedly reduced in both NOD/(Lt-)+/+ and NOD/LtSz-scid/scid mice. Presence of a functionally less mature macrophage population in NOD/LtSz-scid/scid vs C.B-17Sz-scid/scid mice is indicated by persistence in the former of the NOD/Lt strain-specific defect in LPS-stimulated IL-1 secretion by marrow-derived macrophages. Although C.B-17Sz-scid/scid and C57BL/6Sz-scid/scid mice have elevated serum hemolytic complement activity compared with their respective +/+ controls, both NOD/(LtSz-)+/+ and NOD/LtSz-scid/scid mice lack this activity. Age-dependent increases in serum Ig levels (> 1 micrograms/ml) were observed in only 2 of 30 NOD/LtSz-scid/scid mice vs 21 of 29 C.B-17/Sz-scid/scid animals. The multiple defects in innate and adaptive immunity unique to the NOD/LtSz-scid/scid mouse provide an excellent in vivo environment for reconstitution with human hematopoietic cells.
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