Shankar Vidya, Bowen Richard A, Davis April D, Rupprecht Charles E, O'shea Thomas J
Department of Biomedical Sciences, Colorado State University, Fort Collins, Colorado 80523, USA.
J Wildl Dis. 2004 Jul;40(3):403-13. doi: 10.7589/0090-3558-40.3.403.
Our research has focused on the ecology of commensal populations of big brown bats (Eptesicus fuscus) in Fort Collins, Colorado (USA), in relation to rabies virus (RV) transmission. We captured 35 big brown bats (Eptesicus fuscus) in late summer 2001 and held them captive for 4.8 mo. The bats were initially placed in an indoor cage for 1 mo then segregated into groups of two to six per cage. Two of the bats succumbed to rabies virus (RV) within the first month of capture. Despite group housing, all of the remaining bats were healthy over the course of the investigation; none developed rabies, although one of the rabid bats was observed to bite her cage mates. Reverse transcription-polymerase chain reaction (RT-PCR) and Taqman real-time PCR analysis of the RNA derived from the brain tissue, salivary glands, and oral swab samples confirmed RV infection in the dead bats. Rabies virus was also isolated from the brain tissue upon passage in mouse neuroblastoma cells. Nucleotide sequence analysis of the RV nucleoprotein (N) gene showed 100% identity with the N gene sequence of a 1985 E. fuscus isolate from El Paso County, Colorado. Bat sera obtained six times throughout the study were assayed for RV neutralizing antibodies using the rapid fluorescent focus inhibition test. The RV neutralizing activity in the serum was associated with the IgG component, which was purified by binding to protein G Sepharose. Five bats were RV seropositive prior to their capture and maintained titers throughout captivity. Two adult bats seroconverted during captivity. Two volant juvenile bats had detectable RV antibody titers at the first serum collection but were negative thereafter. Four seronegative bats responded to a RV vaccine administration with high titers of RV antibodies. A serologic survey of big brown bats in the roost from which one of the captive rabid bats had originated showed a significant rise in seroprevalence during 2002.
我们的研究聚焦于美国科罗拉多州柯林斯堡大棕蝠(棕蝠)的共生种群生态学,以及与狂犬病病毒(RV)传播的关系。2001年夏末,我们捕获了35只大棕蝠,并将它们圈养了4.8个月。这些蝙蝠最初被安置在室内笼子里1个月,然后每笼分成2至6只一组。其中两只蝙蝠在捕获后的第一个月内死于狂犬病病毒(RV)。尽管是群居,但在调查过程中,其余所有蝙蝠都很健康;没有一只感染狂犬病,不过观察到其中一只患狂犬病的蝙蝠咬了同笼的伙伴。对取自脑组织、唾液腺和口腔拭子样本的RNA进行逆转录-聚合酶链反应(RT-PCR)和Taqman实时PCR分析,证实死亡蝙蝠感染了RV。将脑组织接种到小鼠神经母细胞瘤细胞后,也从中分离出了狂犬病病毒。RV核蛋白(N)基因的核苷酸序列分析显示,与1985年从科罗拉多州埃尔帕索县分离的棕蝠分离株的N基因序列100%相同。在整个研究过程中,六次采集蝙蝠血清,使用快速荧光灶抑制试验检测RV中和抗体。血清中的RV中和活性与IgG成分有关,该成分通过与蛋白G琼脂糖结合进行纯化。五只蝙蝠在捕获前RV血清呈阳性,并在整个圈养期间保持抗体滴度。两只成年蝙蝠在圈养期间血清转化。两只飞行中的幼年蝙蝠在首次采集血清时可检测到RV抗体滴度,但此后呈阴性。四只血清阴性的蝙蝠接种RV疫苗后产生了高滴度的RV抗体。对圈养的患狂犬病蝙蝠之一的栖息地中的大棕蝠进行的血清学调查显示,2002年血清阳性率显著上升。
