ABSTRACT
Endosomal sorting complex required for transport (ESCRT) system drives various cellular processes, including endosome sorting, organelle biogenesis, vesicle transport, maintenance of plasma membrane integrity, membrane fission during cytokinesis, nuclear membrane reformation after mitosis, closure of autophagic vacuoles, and enveloped virus budding. Increasing evidence suggests that the ESCRT system can be hijacked by different family viruses for their proliferation. At different stages of the virus life cycle, viruses can interfere with or exploit ESCRT-mediated physiological processes in various ways to maximize their chance of infecting the host. In addition, many retroviral and RNA viral proteins possess "late domain" motifs, which can recruit host ESCRT subunit proteins to assist in virus endocytosis, transport, replicate, budding and efflux. Therefore, the "late domain" motifs of viruses and ESCRT subunit proteins could serve as promising drug targets in antiviral therapy. This review focuses on the composition and functions of the ESCRT system, the effects of ESCRT subunits and virus "late domain" motifs on viral replication, and the antiviral effects mediated by the ESCRT system, aiming to provide a reference for the development and utilization of antiviral drugs.
Subject(s)
Endosomal Sorting Complexes Required for Transport/metabolism , Viruses/metabolism , Protein Transport , Virus Replication , Endosomes/metabolism , Virus ReleaseABSTRACT
Coelhos são susceptíveis à infecção pelo herpes-vírus bovino tipo 5 (BHV-5) e freqüentemente desenvolvem enfermidade neurológica aguda fatal após inoculação intranasal. A cinética da invasão do sistema nervoso central (SNC) de coelhos pelo BHV-5 foi estudada através de pesquisa de vírus em secções do SNC a diferentes intervalos pós-inoculação. Após inoculação intranasal, o vírus foi inicialmente detectado no bulbo olfatório às 48h, seguido do córtex olfatório às 48/72h. Às 72/96h o vírus foi detectado também no gânglio trigêmeo, ponte e córtex cerebral. Dois experimentos foram realizados para avaliar a importância do sistema olfatório na invasão do SNC de coelhos pelo BHV-5. No primeiro experimento, coelhos foram inoculados com duas amostras do BHV-5 no saco conjuntival. Coelhos inoculados por essa via também desenvolveram a enfermidade neurológica, porém com menor freqüência com curso clínico tardio. No segundo experimento, doze coelhos foram submetidos à ablação cirúrgica do bulbo olfatório e posteriormente inoculados com o BHV-5 pela via intranasal. Onze de 12 coelhos controle (91,6 por cento), não submetidos à cirurgia, desenvolveram a doença neurológica, contra quatro de 12 (33,3 por cento) dos animals submetidos à remoção cirúrgica do bulbo olfatório. Esses resultados demonstram que o sistema olfatório constitui-se na principal via de acesso do BHV-5 ao encéfalo de coelhos após inoculação intranasal. No entanto, o desenvolvimento de infecção neurológica em coelhos inoculados pela via conjuntival e em coelhos sem o bulbo olfatório indica que o BHV-5 pode utilizar outras vias para invadir o SNC, provavelmente as fibras sensoriais e autonômicas que compõe o nervo trigêmeo. Os efeitos da imunização com vírus homólogo (BHV-5) e heterólogo (BHV-1) na proteção à infecção neurológica foram investigados. Cinco entre 10 coelhos (50 por cento) imunizados com o BHV-5 apresentaram sinais neurológicos discretos e transitórios e um morreu após o desafio...
Rabbits are susceptible to bovine herpesvirus type 5 (BHV-5) infection and often develop an acute and fatal neurological disease upon intranasal inoculation. The kinetics of viral infection of the central nervous system (CNS) was investigated by testing serial brain sections for infectivity at intervals after virus inoculation. The virus was first detected in the main olfactory bulb at 48h, followed by the olfactory cortex at 48/72h. At 72/96h infectivity was also detected in the trigeminal ganglia, pons and cerebral cortex. Two experiments were conducted to investigate the role of the olfactory system in the invasion of the rabbits' CNS by BHV-5. In the first experiment, rabbits were inoculated with two BHV-5 isolates in the conjunctival sac. Rabbits inoculated by this route developed the neurological disease, yet with a reduced frequency and delayed clinical course. In a second experiment, twelve rabbits were submitted to surgical removal of the olfactory bulb and subsequently inoculated intranasally with BHV-5. Eleven out of 12 (91.6 percent) of the control rabbits developed the disease, against four out of 12 (33.3 percent) of the animals lacking the olfactory bulb. These results suggest that the olfactory system is the main pathway utilized by BHV-5 to reach the CNS of rabbits after intranasal inoculation. Nevertheless, the development of neurological infection in rabbits inoculated in the conjunctival sac and in rabbits lacking the olfactory bulb indicate that BHV-5 may utilize an alternative route to invade the CNS, probably the sensory and autonomic fibers of the trigeminal nerve. The effects of immunization with homologous (BHV-5) and heterologous (BHV-1) strains in prevention of neurological disease by BHV-5 were investigated. Five out of 10 rabbits (50 percent) immunized with BHV-5 showed mild and transient neurological signs and one died upon challenge. Interestingly, the degree of protection against BHV-5 challenge was higher in rabbits immunized with BHV-1: only...