Capsaicin inhibits the biofilm of Klebsiella pneumoniae by targeting the transcriptional regulator SdiA

Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable pathogen in healthcare-associated infections, leading to severe conditions such as urinary tract infections, pneumonia, and the bloodstream...

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Published inMicrobial pathogenesis Vol. 207; p. 107860
Main Authors Xue, Yang, Yan, An
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.10.2025
Subjects
Anti-Bacterial Agents - pharmacology
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biofilm
Biofilms - drug effects
Biofilms - growth & development
Capsaicin
Capsaicin - pharmacology
Gene Expression Regulation, Bacterial - drug effects
Humans
Hydrophobic and Hydrophilic Interactions - drug effects
Klebsiella pneumoniae
Klebsiella pneumoniae - drug effects
Klebsiella pneumoniae - genetics
Klebsiella pneumoniae - growth & development
Microbial Sensitivity Tests
Microscopy
Molecular docking
Molecular Docking Simulation
Polysaccharides, Bacterial - metabolism
Reactive Oxygen Species - metabolism
SdiA
Trans-Activators - genetics
Trans-Activators - metabolism
Biofilm
Microscopy
Capsaicin
Klebsiella pneumoniae
SdiA
Molecular docking
Online AccessGet full text
ISSN0882-4010
1096-1208
1096-1208
DOI10.1016/j.micpath.2025.107860

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Abstract Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable pathogen in healthcare-associated infections, leading to severe conditions such as urinary tract infections, pneumonia, and the bloodstream infections, mainly in immunocompromised subjects. The bacterium's ability to resist multiple antibiotics complicates the treatment, posing a major concern in hospital settings. Capsaicin, one the major capsaiciniods present in Capsicum plants, is known for the bacteriostatic and bactericidal properties, though detailed studies on effects of capsaicin on biofilm in K. pneumoniae is not thoroughly investigated. Preliminary analyses indicate that capsaicin can inhibit the growth of K. pneumoniae at MIC (256 μg/ml). Capsaicin effectively inhibits biofilm development (72.65 ± 3.23 %) and reduces the metabolic activity (46.64 ± 4.31 %) of biofilms. Furthermore, exopolysaccharide production was diminished along with the eradication of established biofilm by capsaicin. Treatment of capsaicin decreased the cell surface hydrophobicity and induced the intracellular ROS production. The transcription level of biofilm and QS-related genes were also downregulated in presence of capsaicin. Computational analysis revealed that capsaicin interacts with transcriptional regulator SdiA with binding energy −5.6 kcal/mol. Molecular simulations validated the stability of SdiA-capsaicin complex under physiological conditions. The complex was mainly stabilized by the van der Waals forces. This study shows the potential of capsaicin in managing pneumonia complications, particularly those caused by K. pneumoniae. The findings suggest that capsaicin may serve as a promising agent in development of new therapeutic drug to combat bacterial infections associated with biofilm and antibiotic resistance. •Capsaicin inhibits K. pneumoniae reduces biofilm formation at sub-MIC.•Capsaicin reduced metabolic activity and exopolysaccharide production.•Capsaicin downregulates QS and biofilm-related gene expression in K. pneumoniae.•Capsaicin binds SdiA with −5.6 kcal/mol binding energy and forms stable complex.
AbstractList Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable pathogen in healthcare-associated infections, leading to severe conditions such as urinary tract infections, pneumonia, and the bloodstream infections, mainly in immunocompromised subjects. The bacterium's ability to resist multiple antibiotics complicates the treatment, posing a major concern in hospital settings. Capsaicin, one the major capsaiciniods present in Capsicum plants, is known for the bacteriostatic and bactericidal properties, though detailed studies on effects of capsaicin on biofilm in K. pneumoniae is not thoroughly investigated. Preliminary analyses indicate that capsaicin can inhibit the growth of K. pneumoniae at MIC (256 μg/ml). Capsaicin effectively inhibits biofilm development (72.65 ± 3.23 %) and reduces the metabolic activity (46.64 ± 4.31 %) of biofilms. Furthermore, exopolysaccharide production was diminished along with the eradication of established biofilm by capsaicin. Treatment of capsaicin decreased the cell surface hydrophobicity and induced the intracellular ROS production. The transcription level of biofilm and QS-related genes were also downregulated in presence of capsaicin. Computational analysis revealed that capsaicin interacts with transcriptional regulator SdiA with binding energy -5.6 kcal/mol. Molecular simulations validated the stability of SdiA-capsaicin complex under physiological conditions. The complex was mainly stabilized by the van der Waals forces. This study shows the potential of capsaicin in managing pneumonia complications, particularly those caused by K. pneumoniae. The findings suggest that capsaicin may serve as a promising agent in development of new therapeutic drug to combat bacterial infections associated with biofilm and antibiotic resistance.
Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable pathogen in healthcare-associated infections, leading to severe conditions such as urinary tract infections, pneumonia, and the bloodstream infections, mainly in immunocompromised subjects. The bacterium's ability to resist multiple antibiotics complicates the treatment, posing a major concern in hospital settings. Capsaicin, one the major capsaiciniods present in Capsicum plants, is known for the bacteriostatic and bactericidal properties, though detailed studies on effects of capsaicin on biofilm in K. pneumoniae is not thoroughly investigated. Preliminary analyses indicate that capsaicin can inhibit the growth of K. pneumoniae at MIC (256 μg/ml). Capsaicin effectively inhibits biofilm development (72.65 ± 3.23 %) and reduces the metabolic activity (46.64 ± 4.31 %) of biofilms. Furthermore, exopolysaccharide production was diminished along with the eradication of established biofilm by capsaicin. Treatment of capsaicin decreased the cell surface hydrophobicity and induced the intracellular ROS production. The transcription level of biofilm and QS-related genes were also downregulated in presence of capsaicin. Computational analysis revealed that capsaicin interacts with transcriptional regulator SdiA with binding energy −5.6 kcal/mol. Molecular simulations validated the stability of SdiA-capsaicin complex under physiological conditions. The complex was mainly stabilized by the van der Waals forces. This study shows the potential of capsaicin in managing pneumonia complications, particularly those caused by K. pneumoniae. The findings suggest that capsaicin may serve as a promising agent in development of new therapeutic drug to combat bacterial infections associated with biofilm and antibiotic resistance. •Capsaicin inhibits K. pneumoniae reduces biofilm formation at sub-MIC.•Capsaicin reduced metabolic activity and exopolysaccharide production.•Capsaicin downregulates QS and biofilm-related gene expression in K. pneumoniae.•Capsaicin binds SdiA with −5.6 kcal/mol binding energy and forms stable complex.
Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable pathogen in healthcare-associated infections, leading to severe conditions such as urinary tract infections, pneumonia, and the bloodstream infections, mainly in immunocompromised subjects. The bacterium's ability to resist multiple antibiotics complicates the treatment, posing a major concern in hospital settings. Capsaicin, one the major capsaiciniods present in Capsicum plants, is known for the bacteriostatic and bactericidal properties, though detailed studies on effects of capsaicin on biofilm in K. pneumoniae is not thoroughly investigated. Preliminary analyses indicate that capsaicin can inhibit the growth of K. pneumoniae at MIC (256 μg/ml). Capsaicin effectively inhibits biofilm development (72.65±3.23%) and reduces the metabolic activity (46.64±4.31%) of biofilms. Furthermore, exopolysaccharide production was diminished along with the eradication of established biofilm by capsaicin. Treatment of capsaicin decreased the cell surface hydrophobicity and induced the intracellular ROS production. The transcription level of biofilm and QS-related genes were also downregulated in presence of capsaicin. Computational analysis revealed that capsaicin interacts with transcriptional regulator SdiA with binding energy -5.6 kcal/mol. Molecular simulations validated the stability of capsaicin-SdiA complex under physiological conditions. The complex was mainly stabilized by the Van der Waals forces. This study shows the potential of capsaicin in managing pneumonia complications, particularly those caused by K. pneumoniae. The findings suggest that capsaicin may serve as a promising agent in development of new therapeutic drug to combat bacterial infections associated with biofilm and antibiotic resistance.Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable pathogen in healthcare-associated infections, leading to severe conditions such as urinary tract infections, pneumonia, and the bloodstream infections, mainly in immunocompromised subjects. The bacterium's ability to resist multiple antibiotics complicates the treatment, posing a major concern in hospital settings. Capsaicin, one the major capsaiciniods present in Capsicum plants, is known for the bacteriostatic and bactericidal properties, though detailed studies on effects of capsaicin on biofilm in K. pneumoniae is not thoroughly investigated. Preliminary analyses indicate that capsaicin can inhibit the growth of K. pneumoniae at MIC (256 μg/ml). Capsaicin effectively inhibits biofilm development (72.65±3.23%) and reduces the metabolic activity (46.64±4.31%) of biofilms. Furthermore, exopolysaccharide production was diminished along with the eradication of established biofilm by capsaicin. Treatment of capsaicin decreased the cell surface hydrophobicity and induced the intracellular ROS production. The transcription level of biofilm and QS-related genes were also downregulated in presence of capsaicin. Computational analysis revealed that capsaicin interacts with transcriptional regulator SdiA with binding energy -5.6 kcal/mol. Molecular simulations validated the stability of capsaicin-SdiA complex under physiological conditions. The complex was mainly stabilized by the Van der Waals forces. This study shows the potential of capsaicin in managing pneumonia complications, particularly those caused by K. pneumoniae. The findings suggest that capsaicin may serve as a promising agent in development of new therapeutic drug to combat bacterial infections associated with biofilm and antibiotic resistance.
ArticleNumber 107860
Author Yan, An
Xue, Yang
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  fullname: Yan, An
  organization: Department of Oncology, The Second People Hospital of Dezhou, Dezhou, 253000, China
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Keywords Biofilm
Microscopy
Capsaicin
Klebsiella pneumoniae
SdiA
Molecular docking
Language English
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Snippet Pneumonia, particularly when caused by the bacterium Klebsiella pneumoniae, presents a major global health challenge. This gram-negative bacterium is a notable...
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crossref
elsevier
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StartPage 107860
SubjectTerms Anti-Bacterial Agents - pharmacology
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biofilm
Biofilms - drug effects
Biofilms - growth & development
Capsaicin
Capsaicin - pharmacology
Gene Expression Regulation, Bacterial - drug effects
Humans
Hydrophobic and Hydrophilic Interactions - drug effects
Klebsiella pneumoniae
Klebsiella pneumoniae - drug effects
Klebsiella pneumoniae - genetics
Klebsiella pneumoniae - growth & development
Microbial Sensitivity Tests
Microscopy
Molecular docking
Molecular Docking Simulation
Polysaccharides, Bacterial - metabolism
Reactive Oxygen Species - metabolism
SdiA
Trans-Activators - genetics
Trans-Activators - metabolism
Title Capsaicin inhibits the biofilm of Klebsiella pneumoniae by targeting the transcriptional regulator SdiA
URI https://dx.doi.org/10.1016/j.micpath.2025.107860
https://www.ncbi.nlm.nih.gov/pubmed/40602447
https://www.proquest.com/docview/3226712861
Volume 207
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