Christianson S W, Shultz L D, Leiter E H
Jackson Laboratory, Bar Harbor, ME 04609.
Diabetes. 1993 Jan;42(1):44-55. doi: 10.2337/diab.42.1.44.
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)
由于内源性T细胞可能被招募,精确界定NOD小鼠的CD4和CD8 T细胞亚群在糖尿病过继转移中的作用变得复杂。两种新培育的NOD同源品系,NOD.NON-Thy-1a和NOD/LtSz-scid,已分别用作T细胞供体和受体,以消除内源性T细胞的影响,从而根据NOD供体潜在的糖尿病发展情况来确定对转移T细胞亚群的需求。从糖尿病前期或糖尿病NOD.NON-Thy-1a供体制备的总T细胞和T细胞亚群被过继转移到6周龄的NOD-scid/scid受体中,并监测糖尿病的发展情况。过继转移后,对受体脾脏和胰腺进行流式细胞术和组织学分析,结果显示仅存在供体(Thy1.1+)来源的淋巴细胞。来自糖尿病和年轻糖尿病前期供体的总T细胞和富集的CD4+ T细胞制剂都将糖尿病转移给了NOD-scid/scid受体。然而,当从糖尿病前期供体与糖尿病供体中分离CD4+淋巴细胞时,糖尿病发病的平均时间增加了一倍,并且随着时间的推移,这些转移因少量但显著数量的CD8+细胞的产生而变得复杂。单独的富集CD8+群体无法转移疾病。通过对富集CD4+细胞受体进行体内抗CD8单克隆抗体治疗更严格地排除CD8+细胞,结果显示来自糖尿病供体与非糖尿病供体的CD4+淋巴细胞在致糖尿病效力上存在显著差异。糖尿病被过继转移到58%接受来自糖尿病供体的富集CD4+淋巴细胞的受体中。相比之下,接受来自年轻糖尿病前期供体的富集CD4+淋巴细胞的受体在体内接受单克隆抗体治疗后均未患糖尿病。T细胞群体在NOD-scid/scid T细胞受体中引发严重胰岛炎和涎腺炎的能力与其诱导糖尿病的能力密切相关。为了通过抑制巨噬细胞向胰岛的迁移来抑制胰岛炎,NOD-scid/scid小鼠在接受来自糖尿病供体的T细胞过继转移的同时接受二氧化硅治疗。慢性二氧化硅治疗未能耗尽组织巨噬细胞,也未能阻止未分级T细胞转移后糖尿病的发展。文中讨论了相关证据,表明在不存在CD8+ T细胞亚群的情况下,CD4+ T细胞过继转移糖尿病的能力与年龄相关的差异是CD4+淋巴细胞先前长期暴露于供体中的β细胞抗原的结果。(摘要截选至400字)
