Subversion of Programed Cell Death by Poxviruses.

3区 医学 Q2 Medicine
Heather S Koehler, Bertram L Jacobs
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引用次数: 0

Abstract

Poxviruses have been long regarded as potent inhibitors of apoptotic cell death. More recently, they have been shown to inhibit necroptotic cell death through two distinct strategies. These strategies involve either blocking virus sensing by the host pattern recognition receptor, ZBP1 (also called DAI) or by influencing receptor interacting protein kinase (RIPK)3 signal transduction by inhibition of activation of the executioner of necroptosis, mixed lineage kinase-like protein (MLKL). Vaccinia virus E3 specifically blocks ZBP1 → RIPK3 → MLKL necroptosis, leaving virus-infected cells susceptible to the TNF death-receptor signaling (e.g., TNFR1 → FADD → RIPK1 → RIPK3 → MLKL), and, potentially, TLR3 → TRIF → RIPK3 → MLKL necroptosis. While E3 restriction of necroptosis appears to be common to many poxviruses that infect vertebrate hosts, another modulatory strategy not observed in vaccinia or variola virus manifests through subversion of MLKL activation. Recently described viral mimics of MLKL in other chordopoxviruses inhibit all three modes of necroptotic cell death. As with inhibition of apoptosis, the evolution of potentially redundant viral mechanisms to inhibit programmed necroptotic cell death emphasizes the importance of this pathway in the arms race between pathogens and their hosts.

痘病毒对程序性细胞死亡的颠覆
长期以来,痘病毒一直被认为是细胞凋亡的有效抑制剂。最近的研究表明,痘病毒通过两种不同的策略抑制坏死细胞的死亡。这些策略要么是阻断宿主模式识别受体 ZBP1(也称 DAI)对病毒的感应,要么是通过抑制坏死执行者混合系激酶样蛋白(MLKL)的活化来影响受体相互作用蛋白激酶(RIPK)3 的信号转导。Vaccinia 病毒 E3 能特异性阻断 ZBP1 → RIPK3 → MLKL 的坏死,使病毒感染细胞易受 TNF 死亡受体信号转导(如 TNFR1 → FADD → RIPK1 → RIPK3 → MLKL)的影响,并有可能阻断 TLR3 → TRIF → RIPK3 → MLKL 的坏死。虽然 E3 限制坏死似乎是许多感染脊椎动物宿主的痘病毒的共同特点,但在疫苗或水痘病毒中没有观察到的另一种调节策略是通过颠覆 MLKL 的激活来实现的。最近描述的其他脊索痘病毒中的 MLKL 病毒模拟物抑制了细胞坏死的所有三种模式。与抑制细胞凋亡一样,抑制程序性坏死细胞死亡的病毒机制也可能是多余的,这种进化强调了这一途径在病原体与其宿主之间军备竞赛中的重要性。
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来源期刊
CiteScore
5.60
自引率
0.00%
发文量
26
审稿时长
>12 weeks
期刊介绍: The review series Current Topics in Microbiology and Immunology provides a synthesis of the latest research findings in the areas of molecular immunology, bacteriology and virology. Each timely volume contains a wealth of information on the featured subject. This review series is designed to provide access to up-to-date, often previously unpublished information.
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