Dr Claire Chewapreecha
Contact information
Podcast interview
Genetic investigations into melioidosis, profiling both bacteria and patients, help understand disease acquisition and outcomes. Furthermore, identifying prevalent harmful bacterial genes supports vaccine development, and the development of CRISPR-Cas-based tests responds to an urgent need for rapid diagnosis that can reduce the detection time to under three hours with higher sensitivity. Applications developed in resource-limited settings show improved global applicability and impact on patients’ outcomes.
Research groups
Claire Chewapreecha
Wellcome International Intermediate Fellow
Genetic research on melioidosis
Our works centre on the use of genomics to understand the evolution and dissemination of bacterial pathogens that cause a global burden. We have been particularly interested in melioidosis, a rapidly fatal infectious disease that endemic in many tropical regions. My Sir Henry Wellcome postdoctoral fellowship (2015-2019) facilitated my transition from UK to Thailand, my home country and an endemic area where the mortality from melioidosis is among the highest in the world (40%), and brought me closer to where the problem is.
Melioidosis is caused by the bacterium Burkholderia pseudomallei (Bp). Human can acquire Bp through contact with contaminated soil or water, yet not all exposure results in disease. We are testing the hypothesise that genetic variations in Bp and host, may contribute to whether individuals would develop the disease and how severe the infection is. Building upon a previous dataset from Northeast Thailand, our team is collecting and sequencing Bp genomes and patient blood transcriptomes to identify markers that lead to poorer outcomes. Moreover, people with diabetes are more susceptible to develop melioidosis. For each Bp and host markers, we will investigate how patient diabetic status would modulate disease severity. We will construct a model predicting the likely disease outcomes. This will inform strategic vaccine design by targeting the most harmful bacteria and individuals at greatest risk.
Recent publications
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Genetic diversity, determinants, and dissemination of Burkholderia pseudomallei lineages implicated in melioidosis in Northeast Thailand.
Journal article
Seng R. et al, (2024), Nature communications, 15
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Monitoring pathogens in wastewater.
Journal article
Wongprommoon A. et al, (2024), Nature reviews. Microbiology, 22
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Benchmarking CRISPR-BP34 for point-of-care melioidosis detection in low-income and middle-income countries: a molecular diagnostics study.
Journal article
Pakdeerat S. et al, (2024), The Lancet. Microbe, 5, e379 - e389
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Melioidosis in Patients with COVID-19 Exposed to Contaminated Tap Water, Thailand, 2021.
Journal article
Tantirat P. et al, (2024), Emerging infectious diseases, 30, 791 - 794
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BurkHostGEN: a study protocol for evaluating variations in the Burkholderia pseudomallei and host genomes associated with melioidosis infection
Journal article
Angchagun K. et al, (2023), Wellcome Open Research, 8, 347 - 347