体内小鼠肝炎冠状病毒感染的I型干扰素受体非依赖性和依赖性宿主转录反应
Type I interferon receptor-independent and -dependent host transcriptional responses to mouse hepatitis coronavirus infection in vivo.
作者信息
Raaben Matthijs, Groot Koerkamp Marian J A, Rottier Peter J M, de Haan Cornelis A M
机构信息
Virology Division, Department of Infectious Diseases and Immunology, Faculty of Veterinary Medicine, Utrecht University, Utrecht, The Netherlands.
出版信息
BMC Genomics. 2009 Aug 3;10:350. doi: 10.1186/1471-2164-10-350.
BACKGROUND
The role of type I IFNs in protecting against coronavirus (CoV) infections is not fully understood. While CoVs are poor inducers of type I IFNs in tissue culture, several studies have demonstrated the importance of the type I IFN response in controlling MHV infection in animals. The protective effectors against MHV infection are, however, still unknown.
RESULTS
In order to get more insight into the antiviral gene expression induced in the brains of MHV-infected mice, we performed whole-genome expression profiling. Three different mouse strains, differing in their susceptibility to infection with MHV, were used. In BALB/c mice, which display high viral loads but are able to control the infection, 57 and 121 genes were significantly differentially expressed (> or = 1.5 fold change) upon infection at 2 and 5 days post infection, respectively. Functional association network analyses demonstrated a strong type I IFN response, with Irf1 and Irf7 as the central players. At 5 days post infection, a type II IFN response also becomes apparent. Both the type I and II IFN response, which were more pronounced in mice with a higher viral load, were not observed in 129SvEv mice, which are much less susceptible to infection with MHV. 129SvEv mice lacking the type I interferon receptor (IFNAR-/-), however, were not able to control the infection. Gene expression profiling of these mice identified type I IFN-independent responses to infection, with IFN-gamma as the central player. As the BALB/c and the IFNAR-/- 129SvEv mice demonstrated very similar viral loads in their brains, we also compared their gene expression profiles upon infection with MHV in order to identify type I IFN-dependent transcriptional responses. Many known IFN-inducible genes were detected, several of which have previously been shown to play an important protective role against virus infections. We speculate that the additional type I IFN-dependent genes that we discovered may also be important for protection against MHV infection.
CONCLUSION
Transcriptional profiling of mice infected with MHV demonstrated the induction of a robust IFN response, which correlated with the viral load. Profiling of IFNAR-/- mice allowed us to identify type I IFN-independent and -dependent responses. Overall, this study broadens our present knowledge of the type I and II IFN-mediated effector responses during CoV infection in vivo.
背景
I型干扰素在预防冠状病毒(CoV)感染中的作用尚未完全明确。虽然CoV在组织培养中是I型干扰素的弱诱导剂,但多项研究已证明I型干扰素反应在控制动物体内MHV感染方面的重要性。然而,针对MHV感染的保护性效应分子仍不清楚。
结果
为了更深入了解感染MHV的小鼠脑中诱导的抗病毒基因表达,我们进行了全基因组表达谱分析。使用了三种对MHV感染易感性不同的小鼠品系。在BALB/c小鼠中,其病毒载量高但能够控制感染,感染后第2天和第5天分别有57个和121个基因显著差异表达(≥1.5倍变化)。功能关联网络分析显示出强烈的I型干扰素反应,其中Irf1和Irf7是核心因子。感染后第5天,II型干扰素反应也变得明显。I型和II型干扰素反应在病毒载量较高的小鼠中更为明显,而在对MHV感染敏感性低得多的129SvEv小鼠中未观察到。然而,缺乏I型干扰素受体(IFNAR-/-)的129SvEv小鼠无法控制感染。对这些小鼠的基因表达谱分析确定了对感染的I型干扰素非依赖性反应,其中IFN-γ是核心因子。由于BALB/c小鼠和IFNAR-/- 129SvEv小鼠在脑中显示出非常相似的病毒载量,我们还比较了它们感染MHV后的基因表达谱,以确定I型干扰素依赖性转录反应。检测到许多已知的干扰素诱导基因,其中一些先前已被证明在抵抗病毒感染中起重要保护作用。我们推测,我们发现的额外的I型干扰素依赖性基因可能对抵抗MHV感染也很重要。
结论
感染MHV的小鼠的转录谱分析显示出强烈的干扰素反应的诱导,这与病毒载量相关。对IFNAR-/-小鼠的谱分析使我们能够确定I型干扰素非依赖性和依赖性反应。总体而言,本研究拓宽了我们目前对体内CoV感染期间I型和II型干扰素介导的效应反应的认识。
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