Rajcáni J, Kúdelová M
Institute of Microbiology and Immunology, Jessenius Medical Faculty, Martin, Slovakia.
Folia Microbiol (Praha). 2003;48(3):291-318. doi: 10.1007/BF02931360.
Altered cell signaling is the molecular basis for cell proliferation occurring in association with several gamma herpesvirus infections. Three gamma herpesviruses, namely EBV/HHV-4, KSHV/HHV-8 and the MHV-68 (and/or MHV-72) and their unusual cell-pirated gene products are discussed in this respect. The EBV, KSHV as well as the MHV DNA may persist lifelong in an episomal form in the host carrier cells (mainly in lymphocytes but also in macrophages, in non-hornifying squamous epithelium and/or in blood vessel endothelial cells). Under conditions of extremely limited transcription, the EBV-infected cells express EBNA1 (EB nuclear antigen 1), the KSHV infected cells express LANA1 (latent nuclear antigen 1), while the MHV DNA carrier cells express the latency-associated protein M2. With the full set of latency-associated proteins expressed, EBV carrier cells synthesize additional EBNAs and at least one LMP (latent membrane protein 1). The latent KSHV carrier cells, in addition to LANA1, may express a viral cyclin, a viral Fas-DD-like ICE inhibitor protein (vFLIP) and a virus-specific transformation protein called kaposin (K12). In MHV latency with a wide expression of latency-associated proteins, the carrier cells express a LANA analogue (ORF73), the M3 protein, the K3/IE (immediate early) proteins and M11/bcl-2 homologue proteins. During the period of limited gene expression, the latency-associated proteins serve mainly for the maintenance of the latent episomal DNA (a typical example is EBNA1). In contrast, during latency with a broader spectrum gene expression, the virus-encoded products activate transcription of otherwise silenced cellular genes, which leads to the synthesis of enzymes capable of promoting not only viral but also cellular DNA replication. Thus, the latency-associated proteins block apoptosis and drive host cells towards division and immortalization. Proliferation of hemopoetic cells, which had become gamma herpesvirus DNA carriers, can be initiated and strongly enhanced in the presence of inflammatory cytokines and by virus-encoded analogues of interleukins, chemokines and IFN regulator proteins. At early stages of tumor formation, many proliferating hemopoetic and/or endothelium cells, which had became transcriptionally active under the influence of chemokines and cytokines, may not yet be infected. In contrast, at later stages of oncogenesis, the virus-encoded proteins, inducing false signaling and activating the proliferation pathways, bring the previously infected cells into full transformation burst.
细胞信号改变是与几种γ疱疹病毒感染相关的细胞增殖的分子基础。本文讨论了三种γ疱疹病毒,即EBV/HHV - 4、KSHV/HHV - 8和MHV - 68(和/或MHV - 72)及其异常的细胞窃取基因产物。EBV、KSHV以及MHV DNA可能以附加体形式终身存在于宿主载体细胞中(主要在淋巴细胞中,但也存在于巨噬细胞、非角化鳞状上皮和/或血管内皮细胞中)。在转录极其有限的情况下,EBV感染的细胞表达EBNA1(EB核抗原1),KSHV感染的细胞表达LANA1(潜伏核抗原1),而MHV DNA载体细胞表达潜伏相关蛋白M2。当全套潜伏相关蛋白表达时,EBV载体细胞合成额外的EBNAs和至少一种LMP(潜伏膜蛋白1)。潜伏的KSHV载体细胞除了LANA1外,还可能表达一种病毒周期蛋白、一种病毒Fas - DD样ICE抑制剂蛋白(vFLIP)和一种名为卡波辛(K12)的病毒特异性转化蛋白。在具有广泛潜伏相关蛋白表达的MHV潜伏期中,载体细胞表达一种LANA类似物(ORF73)、M3蛋白、K3/IE(立即早期)蛋白和M11/bcl - 2同源蛋白。在基因表达受限期间,潜伏相关蛋白主要用于维持潜伏的附加体DNA(一个典型例子是EBNA1)。相反,在具有更广泛基因表达谱的潜伏期中,病毒编码产物激活原本沉默的细胞基因的转录,这导致合成不仅能够促进病毒而且能够促进细胞DNA复制的酶。因此,潜伏相关蛋白阻断细胞凋亡并驱使宿主细胞走向分裂和永生化。在炎性细胞因子存在下以及通过病毒编码的白细胞介素、趋化因子和IFN调节蛋白类似物,可以启动并强烈增强已成为γ疱疹病毒DNA载体的造血细胞的增殖。在肿瘤形成的早期阶段,许多在趋化因子和细胞因子影响下变得转录活跃的增殖性造血和/或内皮细胞可能尚未被感染。相反,在肿瘤发生的后期阶段,病毒编码的蛋白诱导错误信号并激活增殖途径,使先前感染的细胞进入完全转化爆发状态。
