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基于哺乳的母体教育性免疫跨越主要组织相容性复合体I类屏障,并能将Th1免疫赋予Th2偏向的受体。

Lactation-Based Maternal Educational Immunity Crosses MHC Class I Barriers and Can Impart Th1 Immunity to Th2-Biased Recipients.

作者信息

Ghosh Mrinal K, Muller H Konrad, Walker Ameae M

机构信息

Division of Biomedical Sciences, School of Medicine, University of California, Riverside, Riverside, CA 92521; and.

School of Medicine, University of Tasmania, Hobart 7000, Tasmania, Australia.

出版信息

J Immunol. 2017 Sep 1;199(5):1729-1736. doi: 10.4049/jimmunol.1601375. Epub 2017 Jul 26.

Abstract

We have previously demonstrated lactational transfer of T cell-based immunity from dam to foster pup. In the short term, a significant part of transferred immunity is passive cellular immunity. However, as time progresses, this is replaced by what we have described as maternal educational immunity such that by young adulthood, all immune cells responding to a foster dam immunogen are the product of the foster pup's thymus. To reduce confounding factors, this original demonstration used congenic/syngeneic dam and foster pup pairs. In this study, we investigated lactational transfer of immunity to in MHC class I-mismatched animals, as well as from Th1-biased dams to Th2-biased foster pups. Using immunized C57BL/6J dams, lactational transfer to nonimmunized BALB/cJ foster pups resulted in much greater immunity than direct immunization in 5-wk-old pups (ex vivo assay of pup splenocytes). At this age, 82% of immunogen-responding cells in the pup spleen were produced through maternal educational immunity. FVB/NJ nonimmunized foster recipients had a greater number of maternal cells in the spleen and thymus but a much larger percentage was Foxp3, resulting in equivalent immunity to direct immunization. Depletion of maternal Foxp3 cells from pup splenocytes illustrated a substantial role for lactationally transferred dam regulatory T cells in suppression of the ex vivo response in FVB/NJ, but not BALB/cJ, recipients. We conclude that lactational transfer of immunity can cross MHC class I barriers and that Th1 immunity can be imparted to Th2-biased offspring; in some instances, it can be greater than that achieved by direct immunization.

摘要

我们之前已经证明了基于T细胞的免疫从母鼠向寄养幼崽的哺乳期转移。短期内,转移免疫的很大一部分是被动细胞免疫。然而,随着时间的推移,这被我们称为母体教育免疫所取代,以至于到成年早期,所有对寄养母鼠免疫原产生反应的免疫细胞都是寄养幼崽胸腺的产物。为了减少混杂因素,最初的这项证明使用了同基因/同系的母鼠和寄养幼崽配对。在本研究中,我们调查了在MHC I类不匹配动物中免疫的哺乳期转移,以及从Th1偏向的母鼠到Th2偏向的寄养幼崽的免疫转移。使用免疫的C57BL/6J母鼠,向未免疫的BALB/cJ寄养幼崽的哺乳期转移在5周龄幼崽中产生的免疫力比直接免疫要强得多(幼崽脾细胞的体外试验)。在这个年龄,幼崽脾脏中82%对免疫原产生反应的细胞是通过母体教育免疫产生的。未免疫的FVB/NJ寄养受体在脾脏和胸腺中有更多的母体细胞,但Foxp3的比例要大得多,从而产生与直接免疫相当的免疫力。从幼崽脾细胞中耗尽母体Foxp3细胞表明,哺乳期转移的母鼠调节性T细胞在抑制FVB/NJ(而非BALB/cJ)受体的体外反应中起重要作用。我们得出结论,免疫的哺乳期转移可以跨越MHC I类屏障,并且Th1免疫可以赋予Th2偏向的后代;在某些情况下,它可以比直接免疫所获得的免疫力更强。

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