Clise-Dwyer Karen, Huston Gail E, Buck Amanda L, Duso Debra K, Swain Susan L
Trudeau Institute, Saranac Lake, NY 12983, USA.
J Immunol. 2007 Feb 1;178(3):1321-31. doi: 10.4049/jimmunol.178.3.1321.
Naive CD4 cells from aged mice respond inefficiently to Ag, but the factors that underlie the age-associated defects remain unclear. We have used two approaches to isolate recent thymic emigrants (RTE) in young and aged mice and have compared their capacity to respond to antigenic stimulation ex vivo. An in situ intrathymic CFSE injection labeled developing thymocytes and allowed the identification of RTE in secondary lymphoid tissues. Analysis of CFSE-labeled RTE and control unlabeled naive CD4 cells indicated that cells from aged mice were defective in their ability to increase intracellular Ca(2+) concentration following TCR cross-linking. Aged naive and RTE CD4 also secreted less IL-2 and proliferated less than that of comparable young CD4 populations. Defects in effector generation in aged RTE were overcome by the addition of IL-2 to cultures. RTE from both polyclonal and TCR transgenic mice were compromised, indicating that defects were independent of TCR specificity. In the second model, the cotransfer of congenic marker-labeled young and aged BM cells into young and aged syngeneic hosts revealed that hyporesponsiveness in aged RTE was caused by a combination of defects intrinsic to CD4 progenitors and defects induced by the aged environment. Depletion of peripheral CD4 cells in aged mice led to production of new RTE that were not defective. The results of this study suggest that defects induced by environmental and lineage intrinsic factors act together to reduce responses to Ag in aged naive CD4 cells and that these defects can be overcome in aged CD4 cells produced during recovery from lymphopenia.
老年小鼠的初始CD4细胞对抗原的反应效率低下,但与年龄相关的缺陷背后的因素仍不清楚。我们采用了两种方法来分离年轻和老年小鼠中的近期胸腺迁出细胞(RTE),并比较了它们在体外对抗抗原刺激的能力。胸腺内原位注射CFSE标记发育中的胸腺细胞,并能够在二级淋巴组织中鉴定出RTE。对CFSE标记的RTE和未标记的对照初始CD4细胞的分析表明,老年小鼠的细胞在TCR交联后增加细胞内Ca(2+)浓度的能力存在缺陷。老年初始和RTE CD4细胞分泌的IL-2也较少,增殖能力也低于同龄年轻CD4细胞群体。在培养物中添加IL-2可克服老年RTE效应子生成的缺陷。来自多克隆和TCR转基因小鼠的RTE均受到损害,表明缺陷与TCR特异性无关。在第二个模型中,将同基因标记的年轻和老年骨髓细胞共同移植到年轻和老年同基因宿主中,结果显示老年RTE反应低下是由CD4祖细胞固有的缺陷和老年环境诱导的缺陷共同导致的。老年小鼠外周CD4细胞的耗竭导致产生无缺陷的新RTE。本研究结果表明,环境和谱系内在因素诱导的缺陷共同作用,降低了老年初始CD4细胞对抗原的反应,并且这些缺陷在淋巴细胞减少恢复过程中产生的老年CD4细胞中可以得到克服。
