Gene-Specific Countermeasures Against Ebola Virus Based on Antisense Phosphorodiamidate Morpholino Oligomers

Gene-Specific Countermeasures Against Ebola Virus Based on Antisense Phosphorodiamidate Morpholino Oligomers

The filoviruses Marburg virus and Ebola virus (EBOV) quickly outpace host immune responses and cause hemorrhagic fever, resulting in case fatality rates as high as 90% in humans and nearly 100% in nonhuman primates. The development of an effective therapeutic for EBOV is a daunting public health cha...

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Bibliographische Detailangaben
Hauptverfasser: Warfield, Kelly L, Swenson, Dana L, Olinger, Gene G, Nicholas, Donald K, Pratt, William D, Blouch, Robert, Stein, David A, Aman, M J, Iversen, Patrick L, Bavari, Sina
Format: Report
Sprache:eng
Schlagworte:
ANIMALS
ANTISENSE PHOSPHORODIAMIDATE ANTIVIRAL
ANTISENSE THERAPY
ARBOVIRUSES
Biochemistry
CASUALTIES
Countermeasures
EBOLA VIRUS
FILOVIRUS
HEMORRHAGIC FEVERS
HOSTS(BIOLOGY)
HUMANS
IMMUNITY
INFECTIOUS DISEASES
MACAQUE MONKEYS
MARBURG VIRUS
Medicine and Medical Research
Microbiology
MORTALITY RATE
OLIGOMERS
PATHOGENESIS
PATHOGENIC MICROORGANISMS
PUBLIC HEALTH
RESPONSE(BIOLOGY)
RHESUS MONKEYS
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Beschreibung
Zusammenfassung:The filoviruses Marburg virus and Ebola virus (EBOV) quickly outpace host immune responses and cause hemorrhagic fever, resulting in case fatality rates as high as 90% in humans and nearly 100% in nonhuman primates. The development of an effective therapeutic for EBOV is a daunting public health challenge and is hampered by a paucity of knowledge regarding filovirus pathogenesis. This report describes a successful strategy for interfering with EBOV infection using antisense phosphorodiamidate morpholino oligomers (PMOs). A combination of EBOV-specific PMOs targeting sequences of viral mRNAs for the viral proteins (VPs) VP24, VP35, and RNA polymerase L protected rodents in both pre- and post-exposure therapeutic regimens. In a prophylactic proof-of-principal trial, the PMOs also protected 75% of rhesus macaques from lethal EBOV infection. The work described here may contribute to development of designer, druggable countermeasures for filoviruses and other microbial pathogens. Pub. in PLoS Pathogens, v2 i1, p0005-0013, Jan 2006.