Bioorthogonal Correlative Light-Electron Microscopy of in Macrophages Reveals the Effect of Antituberculosis Drugs on Subcellular Bacterial Distribution.

Bioorthogonal correlative light-electron microscopy (B-CLEM) can give a detailed overview of multicomponent biological systems. It can provide information on the ultrastructural context of bioorthogonal handles and other fluorescent signals, as well as information about subcellular organization. We have here applied B-CLEM to the study of the intracellular pathogen () by generating a triply labeled through combined metabolic labeling of the cell wall and the proteome of a DsRed-expressing strain. Study of this pathogen in a B-CLEM setting was used to provide information about the intracellular distribution of the pathogen, as well as its response to various clinical antibiotics, supported by flow cytometric analysis of the bacteria, after recovery from the host cell (). The RNA polymerase-targeting drug rifampicin displayed the most prominent effect on subcellular distribution, suggesting the most direct effect on pathogenicity and/or viability, while the cell wall synthesis-targeting drugs isoniazid and ethambutol effectively rescued bacterial division-induced loss of metabolic labels. The three drugs combined did not give a more pronounced effect but rather an intermediate response, whereas gentamicin displayed a surprisingly strong additive effect on subcellular distribution.