Department of Biological Sciences, The State University of New York at Buffalo, Buffalo, NY 14260, USA.
BMC Evol Biol. 2010 Jun 22;10:193. doi: 10.1186/1471-2148-10-193.
Hemorrhagic diseases from Ebolavirus and Marburgvirus (Filoviridae) infections can be dangerous to humans because of high fatality rates and a lack of effective treatments or vaccine. Although there is evidence that wild mammals are infected by filoviruses, the biology of host-filovirus systems is notoriously poorly understood. Specifically, identifying potential reservoir species with the expected long-term coevolutionary history of filovirus infections has been intractable. Integrated elements of filoviruses could indicate a coevolutionary history with a mammalian reservoir, but integration of nonretroviral RNA viruses is thought to be nonexistent or rare for mammalian viruses (such as filoviruses) that lack reverse transcriptase and replication inside the nucleus. Here, we provide direct evidence of integrated filovirus-like elements in mammalian genomes by sequencing across host-virus gene boundaries and carrying out phylogenetic analyses. Further we test for an association between candidate reservoir status and the integration of filoviral elements and assess the previous age estimate for filoviruses of less than 10,000 years.
Phylogenetic and sequencing evidence from gene boundaries was consistent with integration of filoviruses in mammalian genomes. We detected integrated filovirus-like elements in the genomes of bats, rodents, shrews, tenrecs and marsupials. Moreover, some filovirus-like elements were transcribed and the detected mammalian elements were homologous to a fragment of the filovirus genome whose expression is known to interfere with the assembly of Ebolavirus. The phylogenetic evidence strongly indicated that the direction of transfer was from virus to mammal. Eutherians other than bats, rodents, and insectivores (i.e., the candidate reservoir taxa for filoviruses) were significantly underrepresented in the taxa with detected integrated filovirus-like elements. The existence of orthologous filovirus-like elements shared among mammalian genera whose divergence dates have been estimated suggests that filoviruses are at least tens of millions of years old.
Our findings indicate that filovirus infections have been recorded as paleoviral elements in the genomes of small mammals despite extranuclear replication and a requirement for cooption of reverse transcriptase. Our results show that the mammal-filovirus association is ancient and has resulted in candidates for functional gene products (RNA or protein).
埃博拉病毒和马尔堡病毒(丝状病毒科)引起的出血性疾病对人类来说很危险,因为它们的致死率很高,而且缺乏有效的治疗方法或疫苗。尽管有证据表明野生哺乳动物感染了丝状病毒,但宿主-丝状病毒系统的生物学却鲜为人知。具体来说,确定具有丝状病毒感染长期共同进化史的潜在储存物种一直是一个难题。丝状病毒的整合元素可以表明与哺乳动物储存库的共同进化史,但缺乏核内逆转录酶和复制的哺乳动物病毒(如丝状病毒)的非逆转录病毒 RNA 病毒的整合被认为是不存在的或很少见的。在这里,我们通过跨宿主-病毒基因边界测序并进行系统发育分析,提供了哺乳动物基因组中整合的丝状病毒样元件的直接证据。此外,我们还测试了候选储存库状态与丝状病毒元件整合之间的关联,并评估了丝状病毒不到 10000 年的先前年龄估计。
来自基因边界的系统发育和测序证据与哺乳动物基因组中丝状病毒的整合一致。我们在蝙蝠、啮齿动物、鼩鼱、针鼹和有袋动物的基因组中检测到整合的丝状病毒样元件。此外,一些丝状病毒样元件被转录,并且检测到的哺乳动物元件与丝状病毒基因组的一个片段同源,该片段的表达已知会干扰埃博拉病毒的组装。系统发育证据强烈表明,转移的方向是从病毒到哺乳动物。除蝙蝠、啮齿动物和食虫目动物(即丝状病毒的候选储存库类群)以外的真兽类在检测到整合的丝状病毒样元件的分类群中代表性明显不足。在估计有分化日期的哺乳动物属中共享的同源丝状病毒样元件的存在表明,丝状病毒至少有几千万年的历史。
我们的研究结果表明,尽管丝状病毒在外核中进行复制并且需要逆转录酶的共选择,但丝状病毒感染已作为古病毒元件记录在小型哺乳动物的基因组中。我们的研究结果表明,哺乳动物-丝状病毒的关联是古老的,并且已经产生了功能基因产物(RNA 或蛋白质)的候选者。
