NEW INSECT SYSTEM FOR TESTING ANTIBIOTICS

New and efficient methods to screen antibiotics are needed to counter increased antibiotic resistance in pathogens and the emergence of new diseases. Here we report a new insect model for screening antibiotics in vivo using the grasshopper Romalea microptera. The system is inexpensive, efficient, an...

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Bibliographic Details
Published in:The Journal of parasitology 2007-12, Vol.93 (6), p.1505-1511
Main Authors: Johny, Shajahan, Lange, Carlos E, Solter, Leellen F, Merisko, Amber, Whitman, Douglas W
Format: Article
Language:English
Subjects:
Albendazole
Ampicillin
Analysis of Variance
animal use alternatives
Animals
Anti-Infective Agents - pharmacology
Antibiotic resistance
Antibiotics
Antifungal Agents - pharmacology
Antimicrobials
Biological and medical sciences
Chemical compounds
Chloramphenicol
Chloromycetin
Costs and Cost Analysis
Cyclohexanes - pharmacology
Dosage
Drug dosages
drug evaluation
Drug Evaluation, Preclinical - economics
Drug Evaluation, Preclinical - ethics
Drug Evaluation, Preclinical - methods
Encephalitozoon
Encephalitozoon - drug effects
Encephalitozoon - growth & development
Experiments
Fatty Acids, Unsaturated - pharmacology
Fundamental and applied biological sciences. Psychology
General aspects
General aspects and techniques. Study of several systematic groups. Models
Grasshoppers
Grasshoppers - microbiology
Griseofulvin
In vivo methods and tests
in vivo studies
Infections
Insect colonies
insect models
Insecta
Insects
Invertebrates
Male
methodology
Metronidazole
Microsporidia
Microsporidiosis
Models, Animal
Parasitology
Pathogens
Pharmacology
Physicians
Quinine
Quinine - pharmacology
Reagents
Romalea
Romalea microptera
screening
Sesquiterpenes - pharmacology
spore count
Spores
Streptomycin
Sulfadimethoxine
THERAPEUTICS-DIAGNOSTICS
Thiabendazole
Thiabendazole - pharmacology
Vegetable juices
Vertebrates
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Summary:New and efficient methods to screen antibiotics are needed to counter increased antibiotic resistance in pathogens and the emergence of new diseases. Here we report a new insect model for screening antibiotics in vivo using the grasshopper Romalea microptera. The system is inexpensive, efficient, and flexible, avoids animal-welfare problems, and can be used to test against most major pathogenic groups. We employed this system to test 11 commercial antibiotics against a pathogenic Encephalitozoon species (Microsporidia). Oral treatment with fumagillin or thiabendazole significantly reduced pathogen spore counts, whereas spore counts of grasshoppers fed with albendazole, ampicillin, chloramphenicol, griseofulvin, metronidazole, sulfadimethoxine, or tetracycline were not significantly different from the infected controls. Quinine produced a distinct, but nonsignificant, reduction in spores, and streptomycin a nonsignificant increase in spores. Although 2 antibiotics significantly reduced spore counts, in no case was the pathogen totally eliminated. This study demonstrates the validity of this system as a method to screen antibiotics. It also corroborates the difficulty researchers and physicians have had in treating microsporidia infections, and suggests that quinine and related alkaloid compounds should be further examined as possible therapeutic agents against this group of ubiquitous pathogens. In addition, streptomycin and related compounds should be tested to determine if this widely used antibiotic enhances microsporidiosis.
ISSN:0022-3395
1937-2345
DOI:10.1645/GE-1213.1