Literature DB >> 22837095

Characterization of a therapeutic model of inhalational anthrax using an increase in body temperature in New Zealand white rabbits as a trigger for treatment.

Jason E Comer1, Bryan D Ray, Lisa N Henning, Gregory V Stark, Roy E Barnewall, Jason M Mott, Gabriel T Meister.   

Abstract

The development of an appropriate animal therapeutic model is essential to assess the potential efficacy of therapeutics for use in the event of a Bacillus anthracis exposure. We conducted a natural history study that showed New Zealand White rabbits exhibited a significant increase in body temperature (SIBT), changes in hematologic parameters, and increases in C-reactive protein and succumbed to disease with an average time to death of approximately 73 h following aerosol challenge with B. anthracis Ames spores. The SIBT was used as a trigger to treat with a fully human monoclonal antibody directed at protective antigen (PA). Ninety percent (9/10) of the treated rabbits survived the lethal inhalational challenge of B. anthracis. Further characterization investigated the protective window of opportunity for anti-PA antibody administration up to 12 h post-onset of SIBT. Eighty-three percent (5/6) of the rabbits treated at SIBT and 100% (6/6) of those treated at 6 h after SIBT survived challenge. Only 67% (4/6) of the rabbits treated at 12 h after SIBT survived. The increase in body temperature corresponded with both bacteremia and antigenemia (PA in the blood), indicating that SIBT is a suitable trigger to initiate treatment in a therapeutic model of inhalational anthrax.

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Year:  2012        PMID: 22837095      PMCID: PMC3428381          DOI: 10.1128/CVI.00292-12

Source DB:  PubMed          Journal:  Clin Vaccine Immunol        ISSN: 1556-679X


  31 in total

1.  A high-affinity monoclonal antibody to anthrax protective antigen passively protects rabbits before and after aerosolized Bacillus anthracis spore challenge.

Authors:  Nehal Mohamed; Michelle Clagett; Juan Li; Steven Jones; Steven Pincus; Giovanni D'Alia; Linda Nardone; Michael Babin; George Spitalny; Leslie Casey
Journal:  Infect Immun       Date:  2005-02       Impact factor: 3.441

Review 2.  Anthrax toxin: a tripartite lethal combination.

Authors:  Paolo Ascenzi; Paolo Visca; Giuseppe Ippolito; Andrea Spallarossa; Martino Bolognesi; Cesare Montecucco
Journal:  FEBS Lett       Date:  2002-11-20       Impact factor: 4.124

3.  Aerosolized Bacillus anthracis infection in New Zealand white rabbits: natural history and intravenous levofloxacin treatment.

Authors:  Steven B Yee; Joshua M Hatkin; David N Dyer; Steven A Orr; M Louise M Pitt
Journal:  Comp Med       Date:  2010-12       Impact factor: 0.982

Review 4.  Pathology of inhalational anthrax animal models.

Authors:  N A Twenhafel
Journal:  Vet Pathol       Date:  2010-07-23       Impact factor: 2.221

5.  Human monoclonal antibodies that neutralize anthrax toxin by inhibiting heptamer assembly.

Authors:  Fei Wang; Paul Ruther; Ivy Jiang; Ritsuko Sawada-Hirai; Shu Man Sun; Rebecca Nedellec; Phillip R Morrow; Angray S Kang
Journal:  Hum Antibodies       Date:  2004

6.  Defining a serological correlate of protection in rabbits for a recombinant anthrax vaccine.

Authors:  S F Little; B E Ivins; P F Fellows; M L M Pitt; S L W Norris; G P Andrews
Journal:  Vaccine       Date:  2004-01-02       Impact factor: 3.641

7.  Anthrax toxin edema factor: a bacterial adenylate cyclase that increases cyclic AMP concentrations of eukaryotic cells.

Authors:  S H Leppla
Journal:  Proc Natl Acad Sci U S A       Date:  1982-05       Impact factor: 11.205

8.  Anthrax protective antigen forms oligomers during intoxication of mammalian cells.

Authors:  J C Milne; D Furlong; P C Hanna; J S Wall; R J Collier
Journal:  J Biol Chem       Date:  1994-08-12       Impact factor: 5.157

9.  Bioterrorism-related inhalational anthrax: the first 10 cases reported in the United States.

Authors:  J A Jernigan; D S Stephens; D A Ashford; C Omenaca; M S Topiel; M Galbraith; M Tapper; T L Fisk; S Zaki; T Popovic; R F Meyer; C P Quinn; S A Harper; S K Fridkin; J J Sejvar; C W Shepard; M McConnell; J Guarner; W J Shieh; J M Malecki; J L Gerberding; J M Hughes; B A Perkins
Journal:  Emerg Infect Dis       Date:  2001 Nov-Dec       Impact factor: 6.883

10.  Human anti-anthrax protective antigen neutralizing monoclonal antibodies derived from donors vaccinated with anthrax vaccine adsorbed.

Authors:  Ritsuko Sawada-Hirai; Ivy Jiang; Fei Wang; Shu Man Sun; Rebecca Nedellec; Paul Ruther; Alejandro Alvarez; Diane Millis; Phillip R Morrow; Angray S Kang
Journal:  J Immune Based Ther Vaccines       Date:  2004-05-12
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  16 in total

1.  Using Telemetry Data to Refine Endpoints for New Zealand White Rabbits Challenged with Bacillus anthracis.

Authors:  David G Dawson; Kristin A Bower; Candace N Burnette; Rebecca K Holt; James R Swearengen; Paul A Dabisch; Angelo Scorpio
Journal:  J Am Assoc Lab Anim Sci       Date:  2017-11-01       Impact factor: 1.232

Review 2.  Antitoxin Treatment of Inhalation Anthrax: A Systematic Review.

Authors:  Eileen Huang; Satish K Pillai; William A Bower; Katherine A Hendricks; Julie T Guarnizo; Jamechia D Hoyle; Susan E Gorman; Anne E Boyer; Conrad P Quinn; Dana Meaney-Delman
Journal:  Health Secur       Date:  2015 Nov-Dec

3.  Modeling Rabbit Responses to Single and Multiple Aerosol Exposures of Bacillus anthracis Spores.

Authors:  Margaret E Coleman; Harry M Marks; Timothy A Bartrand; Darrell W Donahue; Stephanie A Hines; Jason E Comer; Sarah C Taft
Journal:  Risk Anal       Date:  2017-01-25       Impact factor: 4.000

4.  In Vitro and In Vivo Characterization of Tebipenem (TBP), an Orally Active Carbapenem, against Biothreat Pathogens.

Authors:  Nicholas P Clayton; Akash Jain; Stephanie A Halasohoris; Lisa M Pysz; Sanae Lembirik; Steven D Zumbrun; Christopher D Kane; Michael J Hackett; Denise Pfefferle; M Autumn Smiley; Michael S Anderson; Henry Heine; Gabriel T Meister; Michael J Pucci
Journal:  Antimicrob Agents Chemother       Date:  2021-02-16       Impact factor: 5.191

5.  Targeted silencing of anthrax toxin receptors protects against anthrax toxins.

Authors:  Maria T Arévalo; Ashley Navarro; Chenoa D Arico; Junwei Li; Omar Alkhatib; Shan Chen; Diana Diaz-Arévalo; Mingtao Zeng
Journal:  J Biol Chem       Date:  2014-04-17       Impact factor: 5.157

6.  Rapid homogenous time-resolved fluorescence (HTRF) immunoassay for anthrax detection.

Authors:  Noam Cohen; Adva Mechaly; Ohad Mazor; Morly Fisher; Eran Zahavy
Journal:  J Fluoresc       Date:  2014-02-12       Impact factor: 2.217

7.  Efficacy and safety of AVP-21D9, an anthrax monoclonal antibody, in animal models and humans.

Authors:  Nina V Malkevich; Robert J Hopkins; Edward Bernton; Gabriel T Meister; Eric M Vela; George Atiee; Virginia Johnson; Gary S Nabors; Ronald T Aimes; Boris Ionin; Mario H Skiadopoulos
Journal:  Antimicrob Agents Chemother       Date:  2014-04-14       Impact factor: 5.191

8.  Transient lipopolysaccharide-induced resistance to aerosolized Bacillus anthracis in New Zealand white rabbits.

Authors:  Steven B Yee; David N Dyer; Nancy A Twenhafel; M Louise M Pitt
Journal:  Comp Med       Date:  2013-06       Impact factor: 0.982

9.  Evaluation of intravenous anthrax immune globulin for treatment of inhalation anthrax.

Authors:  Nutan Mytle; Robert J Hopkins; Nina V Malkevich; Subhendu Basu; Gabriel T Meister; Daniel C Sanford; Jason E Comer; Kristopher E Van Zandt; Mohamed Al-Ibrahim; William G Kramer; Cris Howard; Nancy Daczkowski; Ajoy C Chakrabarti; Boris Ionin; Gary S Nabors; Mario H Skiadopoulos
Journal:  Antimicrob Agents Chemother       Date:  2013-08-26       Impact factor: 5.191

10.  Protective-antigen (PA) based anthrax vaccines confer protection against inhalation anthrax by precluding the establishment of a systemic infection.

Authors:  Tod J Merkel; Pin-Yu Perera; Gloria M Lee; Anita Verma; Toyoko Hiroi; Hiroyuki Yokote; Thomas A Waldmann; Liyanage P Perera
Journal:  Hum Vaccin Immunother       Date:  2013-06-20       Impact factor: 3.452
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