Inhibition mechanism of potential antituberculosis compound lansoprazole sulfide.

Inhibition mechanism of potential antituberculosis compound lansoprazole sulfide.

Publication date: Nov 19, 2024

Tuberculosis is one of the most common causes of death worldwide, with a rapid emergence of multi-drug-resistant strains underscoring the need for new antituberculosis drugs. Recent studies indicate that lansoprazole-a known gastric proton pump inhibitor and its intracellular metabolite, lansoprazole sulfide (LPZS)-are potential antituberculosis compounds. Yet, their inhibitory mechanism and site of action still remain unknown. Here, we combine biochemical, computational, and structural approaches to probe the interaction of LPZS with the respiratory chain supercomplex IIIIV of Mycobacterium smegmatis, a close homolog of Mycobacterium tuberculosis supercomplex. We show that LPZS binds to the Q cavity of the mycobacterial supercomplex, inhibiting the quinol substrate oxidation process and the activity of the enzyme. We solve high-resolution (2. 6 A) cryo-electron microscopy (cryo-EM) structures of the supercomplex with bound LPZS that together with microsecond molecular dynamics simulations, directed mutagenesis, and functional assays reveal key interactions that stabilize the inhibitor, but also how mutations can lead to the emergence of drug resistance. Our combined findings reveal an inhibitory mechanism of LPZS and provide a structural basis for drug development against tuberculosis.

Concepts Keywords
Lansoprazole Antitubercular Agents
Mycobacterium Antitubercular Agents
Proton cryo-EM
Tuberculosis Cryoelectron Microscopy
Unknown drug target
Lansoprazole
Lansoprazole
Molecular Dynamics Simulation
molecular simulations
Mycobacterium smegmatis
Mycobacterium tuberculosis
respiratory chain
tuberculosis

Semantics

Type Source Name
drug DRUGBANK Lansoprazole
disease MESH Tuberculosis
pathway KEGG Tuberculosis
disease MESH causes of death
disease IDO site
drug DRUGBANK Hydroquinone
disease IDO process

Original Article

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