Intracellular invasion potential and pathogenic effects of Corynebacterium striatum clinical isolates in human airway epithelial cells

emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on human airway epithelial cells, since lower airway tract infection was the most frequent type of infection caused by . Whole genome sequencin...

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Published in	Frontiers in microbiology Vol. 16; p. 1647771
Main Authors	Du, Lanna, Guo, Binxin, Wen, Juan, Liu, Hui, Wang, Junrui
Format	Journal Article
Language	English
Published	Switzerland Frontiers Media S.A 2025
Subjects	Corynebacterium striatum human A549 epithelial cells intracellular invasion Microbiology pathogenesis virulence-related genes human A549 epithelial cells intracellular invasion pathogenesis Corynebacterium striatum virulence-related genes
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ISSN	1664-302X 1664-302X
DOI	10.3389/fmicb.2025.1647771

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Abstract	emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on human airway epithelial cells, since lower airway tract infection was the most frequent type of infection caused by . Whole genome sequencing was employed to construct single nucleotide polymorphism (SNP)-based phylogenetic tree of 27 clinical isolates and predict the carriage of virulence related genes. Adherence and invasion capabilities of these isolates toward human A549 epithelial cells were detected using antibiotic protection assay, and the pathogenic effects of to A549 cells was detected by flow cytometry. Twenty-seven clinical isolates were classified into five clades and 62.96% (17/27) isolates belonged to the predominant clade five, all of which carried seven virulence related genes ( , and ). Based on the protocol established for invasion assay in this study, 44.44, 48.15 and 7.41% isolates were classified as strongly invasive (SI), moderately invasive (MI), and weakly invasive (WI) isolates, respectively. All of the isolates could effectively invade into A549 cells during 2h infection, with varying invasion rates from 0.001% to 4.615%. The highest apoptosis rate (30.54%) was observed in A549 cells infected by the representative SI isolates (CS-51), followed by 25.56% for CS-252 (SI), 24.95% for CS-32 (MI), and 17.53% for CS-258 (MI). To our knowledge, this is the first report to characterize the intracellular invasion and pathogenesis of . All of the isolates tested in this study could effectively invade into A549 cells and the representative isolates displayed obvious cytotoxicity with varying degrees. The contribution and mechanism of specific virulence-related genes in mediating intracellular invasion in needs further investigation, especially for .
AbstractList	BackgroundCorynebacterium striatum emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on human airway epithelial cells, since lower airway tract infection was the most frequent type of infection caused by C. striatum.MethodsWhole genome sequencing was employed to construct single nucleotide polymorphism (SNP)-based phylogenetic tree of 27 C. striatum clinical isolates and predict the carriage of virulence related genes. Adherence and invasion capabilities of these isolates toward human A549 epithelial cells were detected using antibiotic protection assay, and the pathogenic effects of C. striatum to A549 cells was detected by flow cytometry.ResultsTwenty-seven C. striatum clinical isolates were classified into five clades and 62.96% (17/27) isolates belonged to the predominant clade five, all of which carried seven virulence related genes (hmuU, irp6B, regX3, groEL, sigA, sodA, and sigH). Based on the protocol established for invasion assay in this study, 44.44, 48.15 and 7.41% isolates were classified as strongly invasive (SI), moderately invasive (MI), and weakly invasive (WI) isolates, respectively. All of the isolates could effectively invade into A549 cells during 2h infection, with varying invasion rates from 0.001% to 4.615%. The highest apoptosis rate (30.54%) was observed in A549 cells infected by the representative SI isolates (CS-51), followed by 25.56% for CS-252 (SI), 24.95% for CS-32 (MI), and 17.53% for CS-258 (MI).ConclusionsTo our knowledge, this is the first report to characterize the in vitro intracellular invasion and pathogenesis of C. striatum. All of the C. striatum isolates tested in this study could effectively invade into A549 cells and the representative isolates displayed obvious cytotoxicity with varying degrees. The contribution and mechanism of specific virulence-related genes in mediating intracellular invasion in C. striatum needs further investigation, especially for spaDEF. Corynebacterium striatum emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on human airway epithelial cells, since lower airway tract infection was the most frequent type of infection caused by C. striatum.BackgroundCorynebacterium striatum emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on human airway epithelial cells, since lower airway tract infection was the most frequent type of infection caused by C. striatum.Whole genome sequencing was employed to construct single nucleotide polymorphism (SNP)-based phylogenetic tree of 27 C. striatum clinical isolates and predict the carriage of virulence related genes. Adherence and invasion capabilities of these isolates toward human A549 epithelial cells were detected using antibiotic protection assay, and the pathogenic effects of C. striatum to A549 cells was detected by flow cytometry.MethodsWhole genome sequencing was employed to construct single nucleotide polymorphism (SNP)-based phylogenetic tree of 27 C. striatum clinical isolates and predict the carriage of virulence related genes. Adherence and invasion capabilities of these isolates toward human A549 epithelial cells were detected using antibiotic protection assay, and the pathogenic effects of C. striatum to A549 cells was detected by flow cytometry.Twenty-seven C. striatum clinical isolates were classified into five clades and 62.96% (17/27) isolates belonged to the predominant clade five, all of which carried seven virulence related genes (hmuU, irp6B, regX3, groEL, sigA, sodA, and sigH). Based on the protocol established for invasion assay in this study, 44.44, 48.15 and 7.41% isolates were classified as strongly invasive (SI), moderately invasive (MI), and weakly invasive (WI) isolates, respectively. All of the isolates could effectively invade into A549 cells during 2h infection, with varying invasion rates from 0.001% to 4.615%. The highest apoptosis rate (30.54%) was observed in A549 cells infected by the representative SI isolates (CS-51), followed by 25.56% for CS-252 (SI), 24.95% for CS-32 (MI), and 17.53% for CS-258 (MI).ResultsTwenty-seven C. striatum clinical isolates were classified into five clades and 62.96% (17/27) isolates belonged to the predominant clade five, all of which carried seven virulence related genes (hmuU, irp6B, regX3, groEL, sigA, sodA, and sigH). Based on the protocol established for invasion assay in this study, 44.44, 48.15 and 7.41% isolates were classified as strongly invasive (SI), moderately invasive (MI), and weakly invasive (WI) isolates, respectively. All of the isolates could effectively invade into A549 cells during 2h infection, with varying invasion rates from 0.001% to 4.615%. The highest apoptosis rate (30.54%) was observed in A549 cells infected by the representative SI isolates (CS-51), followed by 25.56% for CS-252 (SI), 24.95% for CS-32 (MI), and 17.53% for CS-258 (MI).To our knowledge, this is the first report to characterize the in vitro intracellular invasion and pathogenesis of C. striatum. All of the C. striatum isolates tested in this study could effectively invade into A549 cells and the representative isolates displayed obvious cytotoxicity with varying degrees. The contribution and mechanism of specific virulence-related genes in mediating intracellular invasion in C. striatum needs further investigation, especially for spaDEF.ConclusionsTo our knowledge, this is the first report to characterize the in vitro intracellular invasion and pathogenesis of C. striatum. All of the C. striatum isolates tested in this study could effectively invade into A549 cells and the representative isolates displayed obvious cytotoxicity with varying degrees. The contribution and mechanism of specific virulence-related genes in mediating intracellular invasion in C. striatum needs further investigation, especially for spaDEF. emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on human airway epithelial cells, since lower airway tract infection was the most frequent type of infection caused by . Whole genome sequencing was employed to construct single nucleotide polymorphism (SNP)-based phylogenetic tree of 27 clinical isolates and predict the carriage of virulence related genes. Adherence and invasion capabilities of these isolates toward human A549 epithelial cells were detected using antibiotic protection assay, and the pathogenic effects of to A549 cells was detected by flow cytometry. Twenty-seven clinical isolates were classified into five clades and 62.96% (17/27) isolates belonged to the predominant clade five, all of which carried seven virulence related genes ( , and ). Based on the protocol established for invasion assay in this study, 44.44, 48.15 and 7.41% isolates were classified as strongly invasive (SI), moderately invasive (MI), and weakly invasive (WI) isolates, respectively. All of the isolates could effectively invade into A549 cells during 2h infection, with varying invasion rates from 0.001% to 4.615%. The highest apoptosis rate (30.54%) was observed in A549 cells infected by the representative SI isolates (CS-51), followed by 25.56% for CS-252 (SI), 24.95% for CS-32 (MI), and 17.53% for CS-258 (MI). To our knowledge, this is the first report to characterize the intracellular invasion and pathogenesis of . All of the isolates tested in this study could effectively invade into A549 cells and the representative isolates displayed obvious cytotoxicity with varying degrees. The contribution and mechanism of specific virulence-related genes in mediating intracellular invasion in needs further investigation, especially for .
Author	Liu, Hui Guo, Binxin Wen, Juan Wang, Junrui Du, Lanna
AuthorAffiliation	1 Department of Laboratory Medicine, Affiliated Hospital of Inner Mongolian Medical University , Hohhot , China 2 Department of Pediatrics, Affiliated Hospital of Inner Mongolian Medical University , Hohhot , China
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Keywords	human A549 epithelial cells intracellular invasion pathogenesis Corynebacterium striatum virulence-related genes
Language	English
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Catherine Urrutia, Universidad de La Frontera, Chile These authors have contributed equally to this work Reviewed by: Thi Thu Hoai Nguyen, Vietnam National University, Ho Chi Minh City, Vietnam Edited by: Michal Letek, University of León, Spain Usha Rani Kandula, Arsi University, Ethiopia
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Snippet	emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study focusses on its pathogenesis on... Corynebacterium striatum emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This study... BackgroundCorynebacterium striatum emerged as an important hospital acquired pathogen in recent years, but less is known about its virulence potential. This...
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SubjectTerms	Corynebacterium striatum human A549 epithelial cells intracellular invasion Microbiology pathogenesis virulence-related genes
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Title	Intracellular invasion potential and pathogenic effects of Corynebacterium striatum clinical isolates in human airway epithelial cells
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