Ashley K. Johnson scite author profile

Without an approved vaccine or treatment, Ebola outbreak management has been limited to palliative care and barrier methods to prevent transmission. These approaches, however, have yet to end the 2014 outbreak of Ebola after its prolonged presence in West Africa. Here we show that a combination of monoclonal antibodies (ZMapp™), optimized from two previous antibody cocktails, is able to rescue 100% of rhesus macaques when treatment is initiated up to 5 days post-challenge. High fever, viremia, and abnormalities in blood count and chemistry were evident in many animals before ZMapp™ intervention. Advanced disease, as indicated by elevated liver enzymes, mucosal hemorrhages and generalized petechia could be reversed, leading to full recovery. ELISA and neutralizing antibody assays indicate that ZMapp™ is cross-reactive with the Guinean variant of Ebola. ZMapp™ currently exceeds all previous descriptions of efficacy with other therapeutics, and results warrant further development of this cocktail for clinical use.

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Delayed treatment of Ebola virus infection with plant-derived monoclonal antibodies provides protection in rhesus macaques

Olinger

Pettitt

Kim

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

353

344

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Filovirus infections can cause a severe and often fatal disease in humans and nonhuman primates, including great apes. Here, three anti-Ebola virus mouse/human chimeric mAbs (c13C6, h-13F6, and c6D8) were produced in Chinese hamster ovary and in whole plant (Nicotiana benthamiana) cells. In pilot experiments testing a mixture of the three mAbs (MB-003), we found that MB-003 produced in both manufacturing systems protected rhesus macaques from lethal challenge when administered 1 h postinfection. In a pivotal followup experiment, we found significant protection (P < 0.05) when MB-003 treatment began 24 or 48 h postinfection (four of six survived vs. zero of two controls). In all experiments, surviving animals that received MB-003 experienced little to no viremia and had few, if any, of the clinical symptoms observed in the controls. The results represent successful postexposure in vivo efficacy by a mAb mixture and suggest that this immunoprotectant should be further pursued as a postexposure and potential therapeutic for Ebola virus exposure.passive immunization | therapy

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Therapeutic Intervention of Ebola Virus Infection in Rhesus Macaques with the MB-003 Monoclonal Antibody Cocktail

et al. 2013

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Ebola virus (EBOV) remains one of the most lethal transmissible infections and is responsible for high fatality rates and substantial morbidity during sporadic outbreaks. With increasing human incursions into endemic regions and the reported possibility of airborne transmission, EBOV is a high-priority public health threat for which no preventive or therapeutic options are currently available. Recent studies have demonstrated that cocktails of monoclonal antibodies are effective at preventing morbidity and mortality in nonhuman primates (NHPs) when administered as a post-exposure prophylactic within 1 or 2 days of challenge. To test whether one of these cocktails (MB-003) demonstrates efficacy as a therapeutic (after the onset of symptoms), we challenged NHPs with EBOV and initiated treatment upon confirmation of infection according to a diagnostic protocol for U.S. Food and Drug Administration Emergency Use Authorization and observation of a documented fever. Of the treated animals, 43% survived challenge, whereas both the controls and all historical controls with the same challenge stock succumbed to infection. These results represent successful therapy of EBOV infection in NHPs. INTRODUCTIONSince its discovery and initial characterization in the mid-1970s, Ebola virus (EBOV; formerly known as Zaire ebolavirus; genus: Ebolavirus, family: Filoviridae) has remained one of the most virulent and deadly pathogens known. With mortality rates approaching 90%, the virus quickly overwhelms the host, inducing a severe hemorrhagic fever and often death during sporadic outbreaks (1, 2). There are currently no licensed vaccines or therapeutics to prevent or treat infection with EBOV or any filovirus. With the increasing ease and speed of global travel and the potential for viral spread via the aerosol route (3), EBOV is a potential public health threat (4). Classification by the Centers for Disease Control as a category A agent also designates EBOV as a bioterrorism threat, making this virus a biodefense research priority (5).Research has identified phosphorodiamidate morpholino oligomers (PMOs), small interfering RNAs (siRNAs), and a vesicular stomatitis virus (VSV)-based vaccine as potential candidates for post-exposure treatment (6-8). These candidates have shown promising efficacy in reducing mortality when administered to nonhuman primates (NHPs) up to 1 hour after exposure. More recently, antibodies were demonstrated to be highly effective in post-exposure prophylaxis of NHPs against EBOV. Passive transfer of macaque hyperimmune globulin was shown to protect rhesus macaques when dosing began 2 days after exposure (9). Similarly, a cocktail of three murine monoclonal antibodies (mAbs) provided 100 and 50% efficacy in cynomolgus macaques when dosing began 1 or 2 days after exposure, respectively (10). Finally, a cocktail of three mAbs with human constant regions (MB-003) manufactured in Nicotiana benthamiana (11) provided 100 or 67% protection in the rhesus macaque model when treatment began 1 hour or 2 days after expo...

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Canonical nucleosides can be utilized by T4 DNA ligase as universal template bases at ligation junctions

Alexander

Johnson

Thorpe

et al. 2003

Nucleic Acids Research

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T4 DNA ligase catalyzes the template-dependent ligation of DNA. Using T4 DNA ligase under specific experimental conditions, we demonstrate that each of the four canonical nucleosides, centrally located on a template molecule such that they flank the site of ligation, can direct the ligation of nucleic acids regardless of the identity of the terminal nucleosides being covalently joined. This universal templating capability extends to those positions adjacent to the ligation junction. This is the first report, irrespective of the ligation method used or the identity of the template nucleosides (including analogs), which shows that nucleosides can act essentially as universal templates at ligation junctions in vitro. The canonical nucleosides do, however, differ in their ability to template sequence- independent ligations, with thymidine and guanosine being equally effective, yet more effective than adenosine and cytidine. Results indicate that hybridization strength surrounding the ligation junction is an important factor. The implications of this previously undiscovered property of T4 DNA ligase with canonical nucleosides are discussed.

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Trans Insertion−Splicing: Ribozyme-Catalyzed Insertion of Targeted Sequences into RNAs

2005

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A group I intron-derived ribozyme from Pneumocystis carinii has been previously shown to bind an exogenous RNA substrate, splice out an internal segment, and then ligate the two ends back together (the trans excision-splicing reaction). We demonstrate that this same ribozyme can perform a trans insertion-splicing (TIS) reaction, where the ribozyme binds two exogenous RNA substrates and inserts one directly into the other. Reactions were optimized for both yield and rate, with optimum reactions carried out in 10 mM MgCl(2) for 2 h. Reaction products are stable, with no visible loss at extended times. The ribozyme recognizes the two substrates primarily through base pairing and requires an omegaG on the ribozyme and an omegaG on the sequence being inserted. We give evidence that the reaction mechanism is not the reverse of the trans excision-splicing reaction, but is composed of three steps, with intermediates attached to the ribozyme. Surprisingly, the internal guide sequence of the ribozyme is utilized to sequentially bind both substrates, forming independent P1 helices. This is an indication that ribozymes with essentially the native intron sequence can catalyze reactions significantly more dynamic and complex than self-splicing. The implications of group I intron-derived ribozymes being able to catalyze this unique reaction, and via this mechanism, are discussed.

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Ashley K. Johnson

Reversion of advanced Ebola virus disease in nonhuman primates with ZMapp

Delayed treatment of Ebola virus infection with plant-derived monoclonal antibodies provides protection in rhesus macaques

Therapeutic Intervention of Ebola Virus Infection in Rhesus Macaques with the MB-003 Monoclonal Antibody Cocktail

Canonical nucleosides can be utilized by T4 DNA ligase as universal template bases at ligation junctions

Trans Insertion−Splicing: Ribozyme-Catalyzed Insertion of Targeted Sequences into RNAs

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