Imaging Sensitive and Drug-Resistant Bacterial Infection with [11C]-TMP: In Vitro and First-in-Human Evaluation

Author:

Lee Iris K.,Jacome Daniel A.,Cho Joshua K.,Tu Vincent,Young Anthony,Dominguez Tiffany,Northrup Justin D.,Etersque Jean M.,Lee Hsiaoju,Ruff Andrew,Aklilu Ouniol,Bittinger Kyle,Glaser Laurel,Dorgan Daniel,Hadjiliadis Denis,Kohli Rahul M.ORCID,Mach Robert H.,Mankoff David A.,Doot Robert,Sellmyer Mark A.ORCID

Abstract

AbstractRecently, several molecular imaging strategies have developed to image bacterial infections in humans. Nuclear approaches, specifically positron emission tomography (PET), affords sensitive detection and the ability to non-invasively locate infections deep within the body. Two key radiotracer classes have arisen: metabolic approaches targeting bacterial specific biochemical transformations, and antibiotic-based approaches that have inherent selectivity for bacteria over mammalian cells. A critical question for clinical application of antibiotic radiotracers is whether resistance to the template antibiotic abrogates specific uptake, thus diminishing the predictive value of the diagnostic test. We recently developed small-molecule PET radiotracers based on the antibiotic trimethoprim (TMP), including [11C]-TMP, and have shown their selectivity for imaging bacteria in preclinical models. Here, we measure the in vitro uptake of [11C]-TMP in pathogenic susceptible and drug-resistant bacterial strains. Both resistant and susceptible bacteria showed similar in vitro uptake, which led us to perform whole genome sequencing of these isolates to identify the mechanisms of TMP resistance that permit retained radiotracer binding. By interrogating these isolate genomes and a broad panel of previously sequenced strains, we reveal mechanisms where uptake or binding of TMP radiotracers can potentially be maintained despite the annotation of genes conferring antimicrobial resistance. Finally, we present several examples of patients with both TMP-sensitive and drug-resistant infections in our first-in-human experience with [11C]-TMP. This work underscores the ability of an antibiotic radiotracer to image bacterial infection in patients, which may allow insights into human bacterial pathogenesis, infection diagnosis, and antimicrobial response monitoring.One Sentence SummaryThe PET radiotracer [11C]-trimethoprim shows high uptake in both TMP-sensitive and -resistant bacteria in vitro, the potential for imaging many different pathogenic strains, and uptake in patients with active infections.

Publisher

Cold Spring Harbor Laboratory

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