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[转移贴]PNAS:T细胞通过参与天然免疫应答而抑制肝炎病毒急性感染导致的炎性反应

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发表于 2015-8-17 17:23:43 | 只看该作者 回帖奖励 |倒序浏览 |阅读模式
原贴由rojjer发表于 2008-5-30 21:34:

5月19日《国家科学院院刊》(PNAS)上刊登了中科院生物物理所科学家有关新生小鼠病毒性肝炎的研究进展。此项研究是在他们率先提出的“天然免疫反应需要T细胞参与”的理论指导下开展的(见Nature Medicine, 2007;评述见Nature Medicine, 2007; Nature Reviews Immunology, 2007; Nature China, 2008)。

      通常认为新生儿的天然免疫系统和获得性免疫系统尚未发育成熟,由此导致新生儿不能有效控制和清除病原微生物的感染,从而呈现临床上常见的新生儿尤其是早产儿感染的高致病率和高死亡率。研究人员发现,相对于成年鼠,注射脂多糖(LPS)、合成RNA(polyIC)以及肝炎病毒感染激活天然免疫系统后,新生鼠产生更强烈的炎症反应,而这种过激的炎症反应正是导致新生鼠死亡的直接原因。通过进一步研究发现,虽然新生鼠的T细胞具有和成年鼠一样的抑制炎症反应能力,但由于缺乏足够数量的T细胞,新生鼠在控制炎症反应的能力方面比成年鼠明显降低。新生鼠在补充了T细胞或者基因敲除炎性因子的受体(TNFR)后,可以显著降低感染后的炎性反应和死亡率。这一新的发现进一步证实了研究人员早先提出的“T细胞通过参与天然免疫应答而抑制肝炎病毒急性感染导致的炎性反应”的理论,并提出了T细胞数目而非T细胞功能参与调节天然免疫炎症反应的新思路,T细胞数目的不足可能导致新生儿/新生鼠感染后呈现高死亡率。该发现将为新生儿,尤其是早产儿急性感染的诊断与治疗提供新的理论指导.

PNAS,doi:10.1073/pnas.0800152105,Yang-Xin Fu,Hong Tang

Hyper innate responses in neonates lead to increased morbidity and mortality after infection

Jie Zhao*, Kwang Dong Kim,, Xuanming Yang*, Sogyong Auh, Yang-Xin Fu*,,, and Hong Tang*,

*Center for Infection and Immunity and National Laboratory of Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, 15 Datun Road, Chaoyang District, Beijing 100101, China; Department of Pathology, University of Chicago, Chicago, IL 60637; and Division of Applied Life Science, Gyeongsang National University, Jinju, 660-701, Korea

Edited by Philippa Marrack, National Jewish Medical and Research Center, Denver, CO, and approved April 11, 2008 (received for review January 7, 2008)



Neonates suffer high morbidity and mortality in infection, presumably because of the lack of a fully developed adaptive and innate immune system. Evidence of poor innate responses in neonates has been shown by using a model that sensitizes the host to Toll-like receptor (TLR)-mediated inflammation with D-galactosamine (D-GalN). However, we show that neonatal mice demonstrate much stronger inflammatory responses than adult mice in response to LPS stimulation, and such hypersensitivity extends to other TLR agonists including actual viral infection. Our study reveals that the ensuing inflammatory reaction after D-GalN sensitization reflects preferential toxicity of D-GalN to adult liver cells, rather than accurately reflecting the TLR response to LPS. We show further that an uncontrolled proinflammatory innate response due to inadequate T cells makes neonates more vulnerable to TLR agonists or viral infection. Remarkably, through transfer of T cells into neonates or depletion of T cells in adult mice, we show that T cells are sufficient and necessary to control the early inflammatory response to LPS. Therefore, neonates might suffer from the unleashed innate responses caused by an insufficient number of T cells, which leads to increased morbidity and mortality.
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