Centre de Recerca en Infeccions Víriques, Illes Balears (CRIVIB), Fundació d'Investigació Sanitària de les Illes Balears, Conselleria de Salut i Consum, Govern de les Illes Balears, Palma de Mallorca, Spain.
PLoS One. 2013 May 20;8(5):e64467. doi: 10.1371/journal.pone.0064467. Print 2013.
Bats have been proposed as major reservoirs for diverse emerging infectious viral diseases, with rabies being the best known in Europe. However, studies exploring the ecological interaction between lyssaviruses and their natural hosts are scarce. This study completes our active surveillance work on Spanish bat colonies that began in 1992. Herein, we analyzed ecological factors that might affect the infection dynamics observed in those colonies. Between 2001 and 2011, we collected and tested 2,393 blood samples and 45 dead bats from 25 localities and 20 bat species. The results for dead confirmed the presence of EBLV-1 RNA in six species analyzed (for the first time in Myotis capaccinii). Samples positive for European bat lyssavirus-1 (EBLV-1)-neutralizing antibodies were detected in 68% of the localities sampled and in 13 bat species, seven of which were found for the first time (even in Myotis daubentonii, a species to date always linked to EBLV-2). EBLV-1 seroprevalence (20.7%) ranged between 11.1 and 40.2% among bat species and seasonal variation was observed, with significantly higher antibody prevalence in summer (July). EBLV-1 seroprevalence was significantly associated with colony size and species richness. Higher seroprevalence percentages were found in large multispecific colonies, suggesting that intra- and interspecific contacts are major risk factors for EBLV-1 transmission in bat colonies. Although bat-roosting behavior strongly determines EBLV-1 variability, we also found some evidence that bat phylogeny might be involved in bat-species seroprevalence. The results of this study highlight the importance of life history and roost ecology in understanding EBLV-1-prevalence patterns in bat colonies and also provide useful information for public health officials.
蝙蝠被认为是多种新兴传染性病毒疾病的主要宿主,其中狂犬病在欧洲最为知名。然而,探索狂犬病毒与其自然宿主之间生态相互作用的研究却很少。本研究完成了我们自 1992 年开始对西班牙蝙蝠群体进行的主动监测工作。在此,我们分析了可能影响这些群体中观察到的感染动态的生态因素。在 2001 年至 2011 年期间,我们从 25 个地点和 20 种蝙蝠中收集和测试了 2393 份血液样本和 45 只死亡蝙蝠。对死亡样本的结果证实了六种分析物种中存在 EBLV-1 RNA(首次在 Myotis capaccinii 中发现)。在采样的 68%的地点和 13 种蝙蝠中检测到对欧洲蝙蝠狂犬病毒-1(EBLV-1)中和抗体呈阳性的样本,其中有七种是首次发现(甚至在 Myotis daubentonii 中发现,这是一种迄今为止一直与 EBLV-2 相关的物种)。EBLV-1 血清阳性率(20.7%)在蝙蝠物种之间的范围为 11.1%至 40.2%,并且观察到季节性变化,夏季(7 月)的抗体阳性率显著更高。EBLV-1 血清阳性率与群体大小和物种丰富度显著相关。在大型多物种群体中发现了更高的血清阳性率百分比,这表明蝙蝠群体中 EBLV-1 的传播主要与种内和种间接触有关。尽管蝙蝠栖息地行为强烈决定了 EBLV-1 的变异性,但我们也发现了一些证据表明蝙蝠系统发育可能与蝙蝠物种的血清阳性率有关。本研究的结果强调了生活史和栖息地生态在理解蝙蝠群体中 EBLV-1 流行率模式方面的重要性,也为公共卫生官员提供了有用的信息。
