Вопросы вирусологии. 2017; 62: 149-153
ГЕМОРРАГИЧЕСКАЯ ЛИХОРАДКА ЛУЙО
https://doi.org/10.18821/0507-4088-2017-62-4-149-153Аннотация
Список литературы
1. Paweska J.T., Sewlall N.H., Ksiazek T.G., Blumberg L.H., Hale M.J., lan Lipkin W., et al. Nosocomial outbreak of novel arenavirus infection, Southern Africa. Emerg. Inf. Dis. 2009; 15(10): 1596-602.
2. Briese T., Paweska J.T., McMullan L.K., Hutchison S.K., Street C., Palacios G., et al. Genetic detection and characterization of Lujo virus, a new hemorrhagic fever - associated arenavirus from Southern Africa. PLoS Pathog. 2009; 5(5): 1-8.
3. Buchmeier M.J, Peters C.J., de la Torre J.C. Arenavirdae: the viruses and their replication. In: Knipe D.M.H., Howley P.M., eds. Fields Virology. 5 th ed. Philadelphia: Lappincott, Williams and Wilkins; 2007: 1791-827.
4. McLay L., Liang Y., Ly H. Comparative analysis of disease pathogenesis and molecular mechanisms of New World and Old World arenavirus infection. J. Gen. Virol. 2014; 95(10): 1-15.
5. Igonet S., Vaney M.C., Vonrhein C., Bricogne G., Stura E.A., Hengartner H., et al. X- raystructure of the arenavirus glycoprotein GP2 in its postfusion hairpin conformation. PNAS. 2011; 108(50): 19967-72.
6. Lenz O., ter Meulen J., Feldman H., Klenk H. Garten W. Identification of a novel consensus sequence at the cleavage site of the Lassa virus glycoprotein. J. Virol. 2000; 74: 11418-21.
7. York J., Nunberg J.H. A novel zinc-binding domain is essential for formation of the functional Junin virus envelope glycoprotein complex. J. Virol. 2007; 81(24): 13385-91.
8. Bederka L.H., Bonhomme C.J., Ling E.L., Buchmeier M.J. Arenavirus stable signal peptide is the keystone subunit for glycoprotein coplex organization. MBio. 2014; 5(6): 1-14.
9. Cajimat M.N.B. Genetic diversity and taxonomical relationships among the Tacaribe serocomplex viruses (family arenaviridae): Diss. Texas; 2007.
10. Львов Д.К., Щелканов М.Ю. Аренавирусы. В кн.: Львов Д.К., ред. Руководство по вирусологии. Вирусы и вирусные инфекции человека и животных. М.: Медицинское информационное агентство; 2013: 271-4
11. Bergeron E., Chakrabarti A.K., Bird B.H., Dodd K.A., McMullan L.K., Spiropoulou C.F., et al. Reverse genetics recovery of Lujo virus and role of virus RNA secondary structures in efficient virus growth. J. Virol. 2012; 86(19): 10759-65.
12. Atkinson B., Chamberlain J., Dowall S.D., Cook N., Bruce C., Hewson R. Rapid molecular detection of Lujo virus RNA. J. Virol. Methods. 2014; 195: 170-3.
13. Ishii A., Thomas Y., Moongra L., Nakamura I., Ohnuma A. Novel arenavirus Zambia Emerging. Inf. Dis. 2011; 17(10): 1921-4.
14. Tani H. Analyses of entry mechanisms of novel emerging viruses using pseudotype VSV system. Trop. Med. Health. 2014; 42(2): 71-82.
15. Vela E. Animal models, profilaxis, and therapeutics for arenavirus infection. Viruses. 2012; 4(9): 1802-29.
16. Bird B.H., Dodd K.A., Erickson B.R., Albarino C.G., Chakrabarti A.K., McMullan L.K., et al. Severe hemorrhagic fever in strain 13/N guinea pigs infected with Lujo virus. PLoS Negl. Trop. Dis. 2012; 6(8): 1-13.
17. Rasmussen A.L., Safronetz D., Proll S.C., Belisle S.E., Bryan J.T., Carter V.S., et al. Transcriptional signatures of lethality in Macaca fascicularis models of Lujo virus and Lassa virus infection. 5th International Conference on Primate Genomics. Human Genome Sequencing Center Baylor College of Medicine. Available at: http://www.primategenomics2012.com
18. Rasmussen A.L., Tchitchek N., Safronetz D., Carter V.S., Williams C.M., Haddock E., et al. Delayed inflammatory and cell death responses are associated with reduced pathogenicity in Lujo virus-infected Cynomolgus Macaques. J. Virol. 2015; 89(5): 2543-52.
19. Sewlall N.H., Richards G., Duse A., Swanepoel R., Paweska J., Blumberg L., et al. Clinical features and patient management of Lujo hemorrhagic fever. PLoS Negl. Trop. Dis. 2014; 8(11): 1-11.
20. Tani H., Iha K., Shimojima M., Fukushi S., Taniguchi S., Yochikawa T., et al. Analysis of Lujo virus cell Entry using pseudotype vesicular stomatitis virus. J. Virol. 2014; 88(13): 7317-30.
21. Zapata J.C., Cox D., Salvato M. The role of platelets in the pathogenesis of viral hemorrhagic fever. PLoS Negl. Trop. Dis. 2014; 8(6): 1-12.
Problems of Virology. 2017; 62: 149-153
LUJO HEMORRHAGIC FEVER
https://doi.org/10.18821/0507-4088-2017-62-4-149-153Abstract
References
1. Paweska J.T., Sewlall N.H., Ksiazek T.G., Blumberg L.H., Hale M.J., lan Lipkin W., et al. Nosocomial outbreak of novel arenavirus infection, Southern Africa. Emerg. Inf. Dis. 2009; 15(10): 1596-602.
2. Briese T., Paweska J.T., McMullan L.K., Hutchison S.K., Street C., Palacios G., et al. Genetic detection and characterization of Lujo virus, a new hemorrhagic fever - associated arenavirus from Southern Africa. PLoS Pathog. 2009; 5(5): 1-8.
3. Buchmeier M.J, Peters C.J., de la Torre J.C. Arenavirdae: the viruses and their replication. In: Knipe D.M.H., Howley P.M., eds. Fields Virology. 5 th ed. Philadelphia: Lappincott, Williams and Wilkins; 2007: 1791-827.
4. McLay L., Liang Y., Ly H. Comparative analysis of disease pathogenesis and molecular mechanisms of New World and Old World arenavirus infection. J. Gen. Virol. 2014; 95(10): 1-15.
5. Igonet S., Vaney M.C., Vonrhein C., Bricogne G., Stura E.A., Hengartner H., et al. X- raystructure of the arenavirus glycoprotein GP2 in its postfusion hairpin conformation. PNAS. 2011; 108(50): 19967-72.
6. Lenz O., ter Meulen J., Feldman H., Klenk H. Garten W. Identification of a novel consensus sequence at the cleavage site of the Lassa virus glycoprotein. J. Virol. 2000; 74: 11418-21.
7. York J., Nunberg J.H. A novel zinc-binding domain is essential for formation of the functional Junin virus envelope glycoprotein complex. J. Virol. 2007; 81(24): 13385-91.
8. Bederka L.H., Bonhomme C.J., Ling E.L., Buchmeier M.J. Arenavirus stable signal peptide is the keystone subunit for glycoprotein coplex organization. MBio. 2014; 5(6): 1-14.
9. Cajimat M.N.B. Genetic diversity and taxonomical relationships among the Tacaribe serocomplex viruses (family arenaviridae): Diss. Texas; 2007.
10. L'vov D.K., Shchelkanov M.Yu. Arenavirusy. V kn.: L'vov D.K., red. Rukovodstvo po virusologii. Virusy i virusnye infektsii cheloveka i zhivotnykh. M.: Meditsinskoe informatsionnoe agentstvo; 2013: 271-4
11. Bergeron E., Chakrabarti A.K., Bird B.H., Dodd K.A., McMullan L.K., Spiropoulou C.F., et al. Reverse genetics recovery of Lujo virus and role of virus RNA secondary structures in efficient virus growth. J. Virol. 2012; 86(19): 10759-65.
12. Atkinson B., Chamberlain J., Dowall S.D., Cook N., Bruce C., Hewson R. Rapid molecular detection of Lujo virus RNA. J. Virol. Methods. 2014; 195: 170-3.
13. Ishii A., Thomas Y., Moongra L., Nakamura I., Ohnuma A. Novel arenavirus Zambia Emerging. Inf. Dis. 2011; 17(10): 1921-4.
14. Tani H. Analyses of entry mechanisms of novel emerging viruses using pseudotype VSV system. Trop. Med. Health. 2014; 42(2): 71-82.
15. Vela E. Animal models, profilaxis, and therapeutics for arenavirus infection. Viruses. 2012; 4(9): 1802-29.
16. Bird B.H., Dodd K.A., Erickson B.R., Albarino C.G., Chakrabarti A.K., McMullan L.K., et al. Severe hemorrhagic fever in strain 13/N guinea pigs infected with Lujo virus. PLoS Negl. Trop. Dis. 2012; 6(8): 1-13.
17. Rasmussen A.L., Safronetz D., Proll S.C., Belisle S.E., Bryan J.T., Carter V.S., et al. Transcriptional signatures of lethality in Macaca fascicularis models of Lujo virus and Lassa virus infection. 5th International Conference on Primate Genomics. Human Genome Sequencing Center Baylor College of Medicine. Available at: http://www.primategenomics2012.com
18. Rasmussen A.L., Tchitchek N., Safronetz D., Carter V.S., Williams C.M., Haddock E., et al. Delayed inflammatory and cell death responses are associated with reduced pathogenicity in Lujo virus-infected Cynomolgus Macaques. J. Virol. 2015; 89(5): 2543-52.
19. Sewlall N.H., Richards G., Duse A., Swanepoel R., Paweska J., Blumberg L., et al. Clinical features and patient management of Lujo hemorrhagic fever. PLoS Negl. Trop. Dis. 2014; 8(11): 1-11.
20. Tani H., Iha K., Shimojima M., Fukushi S., Taniguchi S., Yochikawa T., et al. Analysis of Lujo virus cell Entry using pseudotype vesicular stomatitis virus. J. Virol. 2014; 88(13): 7317-30.
21. Zapata J.C., Cox D., Salvato M. The role of platelets in the pathogenesis of viral hemorrhagic fever. PLoS Negl. Trop. Dis. 2014; 8(6): 1-12.
