期刊
FRONTIERS IN CELLULAR AND INFECTION MICROBIOLOGY
卷 11, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fcimb.2021.613149
关键词
Mycobacterium tuberculosis; rabbit; guinea pig; non-human primate; drug development; zebrafish; chemotherapy; animal model
资金
- NIAID
- Bill and Melinda Gates Foundation [OPP1162695]
- NSFC [31772709, 31572485]
- Bill and Melinda Gates Foundation [OPP1162695] Funding Source: Bill and Melinda Gates Foundation
Tuberculosis remains a global health problem due to issues such as lack of diagnosis and incomplete treatment, as well as drug-resistant strains of Mycobacterium tuberculosis. The development of new drugs for TB has accelerated in recent years, with a focus on addressing resistance and shortening treatment duration. Animal models are essential for predicting drug efficacy and studying disease pathology, with a variety of models offering insights into bacterial burden and lesion-specific drug concentrations. Incorporating medical imaging and drug distribution measurements in animal models is crucial for advancing drug development and improving treatment regimens.
Tuberculosis (TB) remains a global health problem despite almost universal efforts to provide patients with highly effective chemotherapy, in part, because many infected individuals are not diagnosed and treated, others do not complete treatment, and a small proportion harbor Mycobacterium tuberculosis (Mtb) strains that have become resistant to drugs in the standard regimen. Development and approval of new drugs for TB have accelerated in the last 10 years, but more drugs are needed due to both Mtb's development of resistance and the desire to shorten therapy to 4 months or less. The drug development process needs predictive animal models that recapitulate the complex pathology and bacterial burden distribution of human disease. The human host response to pulmonary infection with Mtb is granulomatous inflammation usually resulting in contained lesions and limited bacterial replication. In those who develop progressive or active disease, regions of necrosis and cavitation can develop leading to lasting lung damage and possible death. This review describes the major vertebrate animal models used in evaluating compound activity against Mtb and the disease presentation that develops. Each of the models, including the zebrafish, various mice, guinea pigs, rabbits, and non-human primates provides data on number of Mtb bacteria and pathology resolution. The models where individual lesions can be dissected from the tissue or sampled can also provide data on lesion-specific bacterial loads and lesion-specific drug concentrations. With the inclusion of medical imaging, a compound's effect on resolution of pathology within individual lesions and animals can also be determined over time. Incorporation of measurement of drug exposure and drug distribution within animals and their tissues is important for choosing the best compounds to push toward the clinic and to the development of better regimens. We review the practical aspects of each model and the advantages and limitations of each in order to promote choosing a rational combination of them for a compound's development.
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