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Encapsulin protein MAV2054 enhances Mycobacterium avium virulence by promoting Cdc42-dependent epithelial cell invasion
Dong Ho Kim, I Jeong Jo, Min Ju Kang, Yi Seol Kim, Duyen Do Tran Huong, Kyungho Woo, Ho-Sung Park, Hwa-Jung Kim, Chul Hee Choi
J. Microbiol. 2025;63(11):e2506008.   Published online November 30, 2025
DOI: https://doi.org/10.71150/jm.2506008
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AbstractAbstract PDF

Mycobacterium avium complex (MAC) organisms are widespread environmental pathogens associated with chronic pulmonary infections. Although M. avium is known to invade epithelial cells, the molecular mechanisms underlying this process remain incompletely understood. In this study, we identified a novel role for MAVRS09815 (formerly MAV2054), a family 2A encapsulin nanocompartment shell protein, in mediating bacterial adhesion, epithelial cell invasion, and in vivo virulence. We engineered a recombinant M. smegmatis strain expressing MAV2054 (Ms_2054) and an M. avium MAV2054 deletion mutant (Δ2054). Ms_2054 exhibited enhanced epithelial invasion, whereas Δ2054 showed reduced intracellular survival. Recombinant MAV2054 protein was bound directly to human epithelial cells in a dose-dependent manner. Pretreatment of host cells with cytochalasin D or vinblastine significantly inhibited bacterial internalization, indicating that MAV2054-mediated invasion is cytoskeleton-dependent. Confocal and scanning electron microscopy revealed MAV2054-dependent membrane rearrangements during infection. Pull-down assays demonstrated that MAV2054 activates Cdc42, a key regulator of actin polymerization, with reduced activation observed in Δ2054-infected cells. In a murine intratracheal infection model, the Δ2054 exhibited significantly reduced bacterial burdens and lung inflammation compared to the wild type. These findings demonstrate that MAV2054 enhances M. avium virulence by promoting epithelial cell invasion through Cdc42-dependent cytoskeletal remodeling. This study reveals a previously unrecognized role for an encapsulin-like protein in host-pathogen interactions and highlights its potential as a therapeutic target in MAC infections.
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The osmotic stress response operon betIBA is under the functional regulation of BetI and the quorum-sensing regulator AnoR in Acinetobacter nosocomialis
Bindu Subhadra , Surya Surendran , Bo Ra Lim , Jong Sung Yim , Dong Ho Kim , Kyungho Woo , Hwa-Jung Kim , Man Hwan Oh , Chul Hee Choi
J. Microbiol. 2020;58(6):519-529.   Published online May 27, 2020
DOI: https://doi.org/10.1007/s12275-020-0186-1
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  • 16 Web of Science
  • 15 Crossref
AbstractAbstract PDF
Adaptation to changing environmental conditions is crucial for the survival of microorganisms. Bacteria have evolved various mechanisms to cope with osmotic stress. Here, we report the identification and functional characterization of the osmotic stress response operon, betIBA, in Acinetobacter nosocomialis. The betIBA operon encodes enzymes that are important for the conversion of choline to the osmoprotectant, glycine betaine. The betIBA operon is polycistronic and is under the regulation of the first gene, betI, of the same operon. A bioinformatics analysis revealed the presence of a BetI-binding motif upstream of the betIBA operon, and electrophoretic mobility shift assays confirmed the specific binding of BetI. An mRNA expression analysis revealed that expression of betI, betB, and betA genes is elevated in a betIeletion mutant compared with the wild type, confirming that the autorepressor BetI represses the betIBA operon in A. nosocomialis. We further found that the betIBA operon is under the transcriptional control of the quorum-sensing (QS) regulator, AnoR in, A. nosocomialis. A subsequent analysis of the impact of BetI on expression of the QS genes, anoR and anoI, demonstrated that BetI acts as a repressor of anoR and anoI. In addition, it was noticed that the osmotic stress response regulator, OmpR might play an important role in controlling the expression of betIBA operon in A. nosocomialis. Collectively, these data demonstrate that QS and osmotic stress-response systems are correlated in A. nosocomialis and that the expression of genes in both systems is finely tuned by various feedback loops depending on osmolarity conditions.

Citations

Citations to this article as recorded by  
  • Comamonas halotolerans sp. nov., isolated from the faecal sample of a zoo animal, Naemorhedus caudatus
    Yerim Park, Bitnara Kim, Jihyeon Min, Woojun Park
    International Journal of Systematic and Evolutionary Microbiology .2025;[Epub]     CrossRef
  • Plant Growth-Promoting Effect and Complete Genomic Sequence Analysis of the Beneficial Rhizosphere Streptomyces sp. GD-4 Isolated from Leymus secalinus
    Wanru Xu, Yimeng Liu, Yiping Cheng, Jie Zhang
    Microorganisms.2025; 13(2): 286.     CrossRef
  • Comparative genomic analysis of 255 Oenococcus oeni isolates from China: unveiling strain diversity and genotype-phenotype associations of acid resistance
    Wei Chi, Hanwen Zhang, Xinyi Li, Yeqin Zhou, Qiang Meng, Ling He, Yafan Yang, Shuwen Liu, Kan Shi, Feng Gao
    Microbiology Spectrum.2025;[Epub]     CrossRef
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    Asmaâ Agoussar, Julien Tremblay, Étienne Yergeau
    ISME Communications.2025;[Epub]     CrossRef
  • A Novel Phosphorus-Recovering Bacterium Pelagibacterium mangrovi sp. nov., Isolated from Mangrove Sediment
    Shang Yang, Guohong Liu, Ruili Li, Wei Yu, Yuefei Huang, Xiaofeng Wu, Shungui Zhou, Bing Li
    Current Microbiology.2025;[Epub]     CrossRef
  • Novel regulatory mechanism of choline-O-sulfate and choline catabolism by two BetIs in Alphaproteobacteria
    Jia-Rong Liu, Zhen-Kun Li, Ming-Chen Wang, Na Wang, Zhi-Qing Wang, Fei-Fei Li, Yin Chen, Yu-Zhong Zhang, Hui-Hui Fu, Arpita Bose
    Applied and Environmental Microbiology.2025;[Epub]     CrossRef
  • Metabolome analysis revealed the critical role of betaine for arsenobetaine biosynthesis in the marine medaka (Oryzias melastigma)
    Qianyu Zhao, Qiao-Guo Tan, Wen-Xiong Wang, Peng Zhang, Zijun Ye, Liping Huang, Wei Zhang
    Environmental Pollution.2024; 359: 124612.     CrossRef
  • The atypical organization of the luxI/R family genes in AHL-driven quorum-sensing circuits
    Yuyuan Cai, Xuehong Zhang, Michael J. Federle
    Journal of Bacteriology.2024;[Epub]     CrossRef
  • The Transcriptomic Response of Cells of the Thermophilic Bacterium Geobacillus icigianus to Terahertz Irradiation
    Sergey Peltek, Svetlana Bannikova, Tamara M. Khlebodarova, Yulia Uvarova, Aleksey M. Mukhin, Gennady Vasiliev, Mikhail Scheglov, Aleksandra Shipova, Asya Vasilieva, Dmitry Oshchepkov, Alla Bryanskaya, Vasily Popik
    International Journal of Molecular Sciences.2024; 25(22): 12059.     CrossRef
  • Mycobacterium smegmatis MraZ Regulates Multiple Genes within and Outside of the dcw Operon during Hypoxia
    Ismail Mohamed Suleiman, Huang Yu, Junqi Xu, Junfeng Zhen, Hongxiang Xu, Abulimiti Abudukadier, Amina Rafique Hafiza, Jianping Xie
    ACS Infectious Diseases.2024; 10(12): 4301.     CrossRef
  • Online Omics Platform Expedites Industrial Application of Halomonas bluephagenesis TD1.0
    Helen Park, Matthew Faulkner, Helen S Toogood, Guo-Qiang Chen, Nigel Scrutton
    Bioinformatics and Biology Insights.2023;[Epub]     CrossRef
  • The Effect of Proline on the Freeze-Drying Survival Rate of Bifidobacterium longum CCFM 1029 and Its Inherent Mechanism
    Shumao Cui, Wenrui Zhou, Xin Tang, Qiuxiang Zhang, Bo Yang, Jianxin Zhao, Bingyong Mao, Hao Zhang
    International Journal of Molecular Sciences.2022; 23(21): 13500.     CrossRef
  • Regulator of RNase E activity modulates the pathogenicity of Salmonella Typhimurium
    Jaejin Lee, Eunkyoung Shin, Ji-Hyun Yeom, Jaeyoung Park, Sunwoo Kim, Minho Lee, Kangseok Lee
    Microbial Pathogenesis.2022; 165: 105460.     CrossRef
  • The Flagellar Transcriptional Regulator FtcR Controls Brucella melitensis 16M Biofilm Formation via a betI-Mediated Pathway in Response to Hyperosmotic Stress
    Jia Guo, Xingmei Deng, Yu Zhang, Shengnan Song, Tianyi Zhao, Dexin Zhu, Shuzhu Cao, Peter Ivanovic Baryshnikov, Gang Cao, Hugh T. Blair, Chuangfu Chen, Xinli Gu, Liangbo Liu, Hui Zhang
    International Journal of Molecular Sciences.2022; 23(17): 9905.     CrossRef
  • Stressed out: Bacterial response to high salinity using compatible solute biosynthesis and uptake systems, lessons from Vibrionaceae
    Gwendolyn J. Gregory, E. Fidelma Boyd
    Computational and Structural Biotechnology Journal.2021; 19: 1014.     CrossRef
Regulation of the AcrAB efflux system by the quorum-sensing regulator AnoR in Acinetobacter nosocomialis
Bindu Subhadra , Surya Surendran , Bo Ra Lim , Jong Sung Yim , Dong Ho Kim , Kyungho Woo , Hwa-Jung Kim , Man Hwan Oh , Chul Hee Choi
J. Microbiol. 2020;58(6):507-518.   Published online May 27, 2020
DOI: https://doi.org/10.1007/s12275-020-0185-2
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  • 13 Web of Science
  • 11 Crossref
AbstractAbstract PDF
Multidrug efflux pumps play an important role in antimicrobial resistance and pathogenicity in bacteria. Here, we report the functional characterization of the RND (resistance-nodulation- division) efflux pump, AcrAB, in Acinetobacter nosocomialis. An in silico analysis revealed that homologues of the AcrAB efflux pump, comprising AcrA and AcrB, are widely distributed among different bacterial species. Deletion of acrA and/or acrB genes led to decreased biofilm/pellicle formation and reduced antimicrobial resistance in A. nosocomialis. RNA sequencing and mRNA expression analyses showed that expression of acrA/B was downregulated in a quorum sensing (QS) regulator (anoR)-deletion mutant, indicating transcriptional activation of the acrAB operon by AnoR in A. nosocomialis. Bioassays showed that secretion of N-acyl homoserine lactones (AHLs) was unaffected in acrA and acrB deletion mutants; however, AHL secretion was limited in a deletion mutant of acrR, encoding the acrAB regulator, AcrR. An in silico analysis indicated the presence of AcrR-binding motifs in promoter regions of anoI (encoding AHL synthase) and anoR. Specific binding of AcrR was confirmed by electrophoretic mobility shift assays, which revealed that AcrR binds to positions -214 and -217 bp upstream of the translational start sites of anoI and anoR, respectively, demonstrating transcriptional regulation of these QS genes by AcrR. The current study further addresses the possibility that AcrAB is controlled by the osmotic stress regulator, OmpR, in A. nosocomialis. Our data demonstrate that the AcrAB efflux pump plays a crucial role in biofilm/pellicle formation and antimicrobial resistance in A. nosocomialis, and is under the transcriptional control of a number of regulators. In addition, the study emphasizes the interrelationship of QS and AcrAB efflux systems in A. nosocomialis.

Citations

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  • Types and Mechanisms of Efflux Pump Systems and the Potential of Efflux Pump Inhibitors in the Restoration of Antimicrobial Susceptibility, with a Special Reference to Acinetobacter baumannii
    Kira M. Zack, Trent Sorenson, Suresh G. Joshi
    Pathogens.2024; 13(3): 197.     CrossRef
  • Lysine Trimethylation in Planktonic and Pellicle Modes of Growth in Acinetobacter baumannii
    Nicolas Nalpas, Takfarinas Kentache, Emmanuelle Dé, Julie Hardouin
    Journal of Proteome Research.2023; 22(7): 2339.     CrossRef
  • The Mechanism of Tigecycline Resistance in Acinetobacter baumannii Revealed by Proteomic and Genomic Analysis
    Cunwei Liu, Lei Wang, Ping Wang, Di Xiao, Qinghua Zou
    International Journal of Molecular Sciences.2023; 24(10): 8652.     CrossRef
  • Antimicrobial photodynamic therapy against oral biofilm: influencing factors, mechanisms, and combined actions with other strategies
    Yijun Li, Guanwen Sun, Jingchan Xie, Suli Xiao, Chen Lin
    Frontiers in Microbiology.2023;[Epub]     CrossRef
  • The multifaceted genusAcinetobacter: from infection to bioremediation
    Ujwal Dahal, Karan Paul, Shelly Gupta
    Journal of Applied Microbiology.2023;[Epub]     CrossRef
  • Efflux pumps and microbial biofilm formation
    Mahdyeh Neghabi Hajiagha, Hossein Samadi Kafil
    Infection, Genetics and Evolution.2023; 112: 105459.     CrossRef
  • Targeting the Holy Triangle of Quorum Sensing, Biofilm Formation, and Antibiotic Resistance in Pathogenic Bacteria
    Ronit Vogt Sionov, Doron Steinberg
    Microorganisms.2022; 10(6): 1239.     CrossRef
  • Evidence for Complex Interplay between Quorum Sensing and Antibiotic Resistance in Pseudomonas aeruginosa
    Rakesh Sikdar, Mikael H. Elias, Giordano Rampioni
    Microbiology Spectrum.2022;[Epub]     CrossRef
  • Update on Multidrug Resistance Efflux Pumps in Acinetobacter spp.
    Vanessa Kornelsen, Ayush Kumar
    Antimicrobial Agents and Chemotherapy.2021;[Epub]     CrossRef
  • Orthopedic Implant-Related Biofilm Pathophysiology: A Review of the Literature
    Meletis Rozis, Dimitrios S Evangelopoulos, Spyros G Pneumaticos
    Cureus.2021;[Epub]     CrossRef
  • The impact of cell structure, metabolism and group behavior for the survival of bacteria under stress conditions
    Xinyi Zhang, Zhendong Li, Shengmei Pang, Boyu Jiang, Yang Yang, Qiangde Duan, Guoqiang Zhu
    Archives of Microbiology.2021; 203(2): 431.     CrossRef
Research Support, Non-U.S. Gov'ts
Lithium Inhibits Growth of Intracellular Mycobacterium kansasii through Enhancement of Macrophage Apoptosis
Hosung Sohn , Kwangwook Kim , Kil-Soo Lee , Han-Gyu Choi , Kang-In Lee , A-Rum Shin , Jong-Seok Kim , Sung Jae Shin , Chang-Hwa Song , Jeong-Kyu Park , Hwa-Jung Kim
J. Microbiol. 2014;52(4):299-306.   Published online February 17, 2014
DOI: https://doi.org/10.1007/s12275-014-3469-6
  • 380 View
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  • 7 Crossref
AbstractAbstract PDF
Mycobacterium kansasii (Mk) is an emerging pathogen that causes a pulmonary disease similar to tuberculosis. Macrophage apoptosis contributes to innate host defense against mycobacterial infection. Recent studies have suggested that lithium significantly enhances the cytotoxic activity of death stimuli in many cell types. We examined the effect of lithium on the viability of host cells and intracellular Mk in infected macrophages. Lithium treatment resulted in a substantial reduction in the viability of intracellular Mk in macrophages. Macrophage cell death was significantly enhanced after adding lithium to Mk-infected cells but not after adding to uninfected macrophages. Lithium-enhanced cell death was due to an apoptotic response, as evidenced by augmented DNA fragmentation and caspase activation. Reactive oxygen species were essential for lithium-induced apoptosis. Intracellular scavenging by N-acetylcysteine abrogated the lithiummediated decrease in intracellular Mk growth as well as apoptosis. These data suggest that lithium is associated with control of intracellular Mk growth through modulation of the apoptotic response in infected macrophages.

Citations

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  • Recombinant Rv0753c Protein of Mycobacterium tuberculosis Induces Apoptosis Through Reactive Oxygen Species-JNK Pathway in Macrophages
    Kang-In Lee, Seunga Choi, Han-Gyu Choi, Sintayehu Gurmessa Kebede, Thi Binh Dang, Yong Woo Back, Hye-Soo Park, Hwa-Jung Kim
    Journal of Bacteriology and Virology.2020; 50(4): 246.     CrossRef
  • Investigating the Role of Everolimus in mTOR Inhibition and Autophagy Promotion as a Potential Host-Directed Therapeutic Target in Mycobacterium tuberculosis Infection
    Stephen Cerni, Dylan Shafer, Kimberly To, Vishwanath Venketaraman
    Journal of Clinical Medicine.2019; 8(2): 232.     CrossRef
  • Mycobacterium abscessus glycopeptidolipids inhibit macrophage apoptosis and bacterial spreading by targeting mitochondrial cyclophilin D
    Jake Whang, Yong Woo Back, Kang-In Lee, Nagatoshi Fujiwara, Seungwha Paik, Chul Hee Choi, Jeong-Kyu Park, Hwa-Jung Kim
    Cell Death & Disease.2017; 8(8): e3012.     CrossRef
  • Invasion of Mammalian Cells by Rough Variant ofMycobacterium abscessus
    Jake Whang, Young Woo Back, Gang-In Lee, Hwa-Jung Kim
    Journal of Bacteriology and Virology.2016; 46(4): 193.     CrossRef
  • Mycobacterium tuberculosis effectors interfering host apoptosis signaling
    Minqiang Liu, Wu Li, Xiaohong Xiang, Jianping Xie
    Apoptosis.2015; 20(7): 883.     CrossRef
  • Targeting Batf2 for infectious diseases and cancer
    Reto Guler, Sugata Roy, Harukazu Suzuki, Frank Brombacher
    Oncotarget.2015; 6(29): 26575.     CrossRef
  • Extended stability of cyclin D1 contributes to limited cell cycle arrest at G1-phase in BHK-21 cells with Japanese encephalitis virus persistent infection
    Ji Young Kim, Soo Young Park, Hey Rhyoung Lyoo, Eung Seo Koo, Man Su Kim, Yong Seok Jeong
    Journal of Microbiology.2015; 53(1): 77.     CrossRef
Characterization and Identification of Distinct Mycobacterium massiliense Extracellular Proteins from Those of Mycobacterium abscessus
A-Rum Shin , Hosung Sohn , Choul Jae Won , Byungsoo Lee , Woo Sik Kim , Hyun Bae Kang , Hwa-Jung Kim , Sang Nae Cho , Sung Jae Shin
J. Microbiol. 2010;48(4):502-511.   Published online August 20, 2010
DOI: https://doi.org/10.1007/s12275-010-0038-5
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  • 4 Crossref
AbstractAbstract PDF
Mycobacterium massiliense is an emerging pathogen and very similar to Mycobacterium abscessus of rapidly growing mycobacteria in the phenotype and genotype. Pathogenic bacteria secrete a diversity of factors into extracellular medium which contribute to the bacterial pathogenicity. In the present study, we performed the comparative proteome analysis of culture filtrate proteins from a clinical isolate of M. massiliense and M. abscessus strains using two-dimensional gel electrophoresis and liquid chromatography-electrospray ionization mass spectrometry (LC-ESI-MS). Interestingly, 9 proteins of M. massiliense were distinctly expressed from those of M. abscessus. Bioinformatic analysis of the identified proteins revealed that 3 unique proteins corresponded to serine/arginine rich protein, membrane protein from Streptomyces coelicolor, and one hypothetical protein from Corynebacterium efficiens YS-314, respectively. Culture filtrate proteins from M. massiliense induced the release of pro-inflammatory cytokines from macrophages in a dose-dependent manner but not that from M. abscessus. Taken together, the functional study on the identified proteins uniquely produced from M. massiliense may provide not only the clues for the different pathogensis, but also help develop the diagnostic tools for the differentiation between two mycobacterial species.

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  • Predominantly Orphan Secretome in the Lung Pathogen Mycobacterium abscessus Revealed by a Multipronged Growth-Phase-Driven Strategy
    Harish Chandra, Manish K. Gupta, Ying-Wai Lam, Jagjit S. Yadav
    Microorganisms.2024; 12(2): 378.     CrossRef
  • Secretome characterization of clinical isolates from the Mycobacterium abscessus complex provides insight into antigenic differences
    Fernanda Cornejo-Granados, Thomas A. Kohl, Flor Vásquez Sotomayor, Sönke Andres, Rogelio Hernández-Pando, Juan Manuel Hurtado-Ramirez, Christian Utpatel, Stefan Niemann, Florian P. Maurer, Adrian Ochoa-Leyva
    BMC Genomics.2021;[Epub]     CrossRef
  • Reinstating Mycobacterium massiliense and Mycobacterium bolletii as species of the Mycobacterium abscessus complex
    Toidi Adekambi, Mohamed Sassi, Jakko van Ingen, Michel Drancourt
    International Journal of Systematic and Evolutionary Microbiology .2017; 67(8): 2726.     CrossRef
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    Go-Eun Choi, Youngsuk Jo, Sung Jae Shin
    Journal of Bacteriology and Virology.2012; 42(1): 17.     CrossRef
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