Helicobacter pylori delays neutrophil apoptosis but also drives the formation of cells with a leaky plasma membrane: Implications for inflammation

Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir for Helicobacter pylori (H. pylori), and so many individuals are co-infected with these two biological carcinogens. Our study aimed to investi...

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Published inMolecular immunology Vol. 183; pp. 236 - 245
Main Authors Thai, Tran Duong, Kamsom, Chatcharin, Phoksawat, Wisitsak, Nithichanon, Arnone, Faksri, Kiatichai, Sripa, Banchob, Edwards, Steven W., Salao, Kanin
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.07.2025
Subjects
Antigens, Bacterial - immunology
Apoptosis
Apoptosis - immunology
Bacterial Proteins - immunology
basins
cagA
Cell Membrane - immunology
Cell Membrane - metabolism
Cell Membrane - microbiology
Cell Membrane - pathology
cell viability
coculture
Coculture Techniques
Helicobacter Infections - immunology
Helicobacter Infections - pathology
Helicobacter pylori
Helicobacter pylori - immunology
Humans
inflammation
Inflammation - immunology
Inflammation - microbiology
Inflammation - pathology
longevity
mixed infection
Neutrophil Activation - immunology
Neutrophils
Neutrophils - immunology
Neutrophils - microbiology
Neutrophils - pathology
Opisthorchis viverrini
pathogenicity
phagocytosis
Phagocytosis - immunology
plasma membrane
propidium
public health
reactive oxygen species
Reactive Oxygen Species - metabolism
Helicobacter pylori
Opisthorchis viverrini
cagA
Neutrophils
Apoptosis
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Abstract Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir for Helicobacter pylori (H. pylori), and so many individuals are co-infected with these two biological carcinogens. Our study aimed to investigate interactions between H. pylori isogenic strains possessing or lacking the pathogenicity factor CagA (cagA+ and cagA-) with neutrophils. Both H. pylori strains were co-cultured with neutrophils in vitro, and neutrophil activation, phagocytosis, reactive oxygen species (ROS) production, and cell survival/apoptosis were measured. Both isogenic strains of H. pylori stimulated phagocytosis and while the cagA- strain induced slightly higher ROS production, both strains served as potent activators of neutrophils. Notably, H. pylori induced rapid cell death in a sub-population of neutrophils after 30 min of co-incubation while extending the lifespan of the neutrophils that survived this initial cell death. This initial incubation resulted in the appearance of propidium iodide (PI)+ neutrophils, i.e. cells with a compromised plasma membrane that could result in the release of inflammation-promoting neutrophil contents. While significantly more viable neutrophils were detected after 24 h (and 48 h) incubation with H. pylori, those cells that did not survive also showed characteristics of a compromised plasma membrane (i.e. PI+). We propose that the combinations of PI+ neutrophils with leaky plasma membranes and non-apoptotic neutrophils with enhanced survival after incubation with H. pylori may drive persistent inflammation. These findings offer new insights into the immunopathogenesis of OV and H. pylori co-infections, which may help improve OV treatment strategies. •cagA+ and cagA- H. pylori extended the lifespan of neutrophils following phagocytosis.•These H. pylori strains induced rapid death of neutrophils by late-apoptosis/necrosis.•H. pylori-infected neutrophils with a leaky plasma membrane can result in persistent inflammation.
AbstractList Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir for Helicobacter pylori (H. pylori), and so many individuals are co-infected with these two biological carcinogens. Our study aimed to investigate interactions between H. pylori isogenic strains possessing or lacking the pathogenicity factor CagA (cagA+ and cagA-) with neutrophils. Both H. pylori strains were co-cultured with neutrophils in vitro, and neutrophil activation, phagocytosis, reactive oxygen species (ROS) production, and cell survival/apoptosis were measured. Both isogenic strains of H. pylori stimulated phagocytosis and while the cagA- strain induced slightly higher ROS production, both strains served as potent activators of neutrophils. Notably, H. pylori induced rapid cell death in a sub-population of neutrophils after 30 min of co-incubation while extending the lifespan of the neutrophils that survived this initial cell death. This initial incubation resulted in the appearance of propidium iodide (PI)+ neutrophils, i.e. cells with a compromised plasma membrane that could result in the release of inflammation-promoting neutrophil contents. While significantly more viable neutrophils were detected after 24 h (and 48 h) incubation with H. pylori, those cells that did not survive also showed characteristics of a compromised plasma membrane (i.e. PI+). We propose that the combinations of PI+ neutrophils with leaky plasma membranes and non-apoptotic neutrophils with enhanced survival after incubation with H. pylori may drive persistent inflammation. These findings offer new insights into the immunopathogenesis of OV and H. pylori co-infections, which may help improve OV treatment strategies. •cagA+ and cagA- H. pylori extended the lifespan of neutrophils following phagocytosis.•These H. pylori strains induced rapid death of neutrophils by late-apoptosis/necrosis.•H. pylori-infected neutrophils with a leaky plasma membrane can result in persistent inflammation.
Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir for Helicobacter pylori (H. pylori), and so many individuals are co-infected with these two biological carcinogens. Our study aimed to investigate interactions between H. pylori isogenic strains possessing or lacking the pathogenicity factor CagA (cagA+ and cagA-) with neutrophils. Both H. pylori strains were co-cultured with neutrophils in vitro, and neutrophil activation, phagocytosis, reactive oxygen species (ROS) production, and cell survival/apoptosis were measured. Both isogenic strains of H. pylori stimulated phagocytosis and while the cagA- strain induced slightly higher ROS production, both strains served as potent activators of neutrophils. Notably, H. pylori induced rapid cell death in a sub-population of neutrophils after 30 min of co-incubation while extending the lifespan of the neutrophils that survived this initial cell death. This initial incubation resulted in the appearance of propidium iodide (PI)+ neutrophils, i.e. cells with a compromised plasma membrane that could result in the release of inflammation-promoting neutrophil contents. While significantly more viable neutrophils were detected after 24 h (and 48 h) incubation with H. pylori, those cells that did not survive also showed characteristics of a compromised plasma membrane (i.e. PI+). We propose that the combinations of PI+ neutrophils with leaky plasma membranes and non-apoptotic neutrophils with enhanced survival after incubation with H. pylori may drive persistent inflammation. These findings offer new insights into the immunopathogenesis of OV and H. pylori co-infections, which may help improve OV treatment strategies.Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir for Helicobacter pylori (H. pylori), and so many individuals are co-infected with these two biological carcinogens. Our study aimed to investigate interactions between H. pylori isogenic strains possessing or lacking the pathogenicity factor CagA (cagA+ and cagA-) with neutrophils. Both H. pylori strains were co-cultured with neutrophils in vitro, and neutrophil activation, phagocytosis, reactive oxygen species (ROS) production, and cell survival/apoptosis were measured. Both isogenic strains of H. pylori stimulated phagocytosis and while the cagA- strain induced slightly higher ROS production, both strains served as potent activators of neutrophils. Notably, H. pylori induced rapid cell death in a sub-population of neutrophils after 30 min of co-incubation while extending the lifespan of the neutrophils that survived this initial cell death. This initial incubation resulted in the appearance of propidium iodide (PI)+ neutrophils, i.e. cells with a compromised plasma membrane that could result in the release of inflammation-promoting neutrophil contents. While significantly more viable neutrophils were detected after 24 h (and 48 h) incubation with H. pylori, those cells that did not survive also showed characteristics of a compromised plasma membrane (i.e. PI+). We propose that the combinations of PI+ neutrophils with leaky plasma membranes and non-apoptotic neutrophils with enhanced survival after incubation with H. pylori may drive persistent inflammation. These findings offer new insights into the immunopathogenesis of OV and H. pylori co-infections, which may help improve OV treatment strategies.
Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir for Helicobacter pylori (H. pylori), and so many individuals are co-infected with these two biological carcinogens. Our study aimed to investigate interactions between H. pylori isogenic strains possessing or lacking the pathogenicity factor CagA (cagA+ and cagA-) with neutrophils. Both H. pylori strains were co-cultured with neutrophils in vitro, and neutrophil activation, phagocytosis, reactive oxygen species (ROS) production, and cell survival/apoptosis were measured. Both isogenic strains of H. pylori stimulated phagocytosis and while the cagA- strain induced slightly higher ROS production, both strains served as potent activators of neutrophils. Notably, H. pylori induced rapid cell death in a sub-population of neutrophils after 30 min of co-incubation while extending the lifespan of the neutrophils that survived this initial cell death. This initial incubation resulted in the appearance of propidium iodide (PI)+ neutrophils, i.e. cells with a compromised plasma membrane that could result in the release of inflammation-promoting neutrophil contents. While significantly more viable neutrophils were detected after 24 h (and 48 h) incubation with H. pylori, those cells that did not survive also showed characteristics of a compromised plasma membrane (i.e. PI+). We propose that the combinations of PI+ neutrophils with leaky plasma membranes and non-apoptotic neutrophils with enhanced survival after incubation with H. pylori may drive persistent inflammation. These findings offer new insights into the immunopathogenesis of OV and H. pylori co-infections, which may help improve OV treatment strategies.
Author Nithichanon, Arnone
Thai, Tran Duong
Edwards, Steven W.
Salao, Kanin
Faksri, Kiatichai
Kamsom, Chatcharin
Phoksawat, Wisitsak
Sripa, Banchob
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Keywords Helicobacter pylori
Opisthorchis viverrini
cagA
Neutrophils
Apoptosis
Language English
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Snippet Opisthorchis viverrini (OV)-induced cholangiocarcinoma (CCA) is a significant public health concern in countries in the Lower Mekong Basin. OV is a reservoir...
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SubjectTerms Antigens, Bacterial - immunology
Apoptosis
Apoptosis - immunology
Bacterial Proteins - immunology
basins
cagA
Cell Membrane - immunology
Cell Membrane - metabolism
Cell Membrane - microbiology
Cell Membrane - pathology
cell viability
coculture
Coculture Techniques
Helicobacter Infections - immunology
Helicobacter Infections - pathology
Helicobacter pylori
Helicobacter pylori - immunology
Humans
inflammation
Inflammation - immunology
Inflammation - microbiology
Inflammation - pathology
longevity
mixed infection
Neutrophil Activation - immunology
Neutrophils
Neutrophils - immunology
Neutrophils - microbiology
Neutrophils - pathology
Opisthorchis viverrini
pathogenicity
phagocytosis
Phagocytosis - immunology
plasma membrane
propidium
public health
reactive oxygen species
Reactive Oxygen Species - metabolism
Title Helicobacter pylori delays neutrophil apoptosis but also drives the formation of cells with a leaky plasma membrane: Implications for inflammation
URI https://dx.doi.org/10.1016/j.molimm.2025.05.006
https://www.ncbi.nlm.nih.gov/pubmed/40412278
https://www.proquest.com/docview/3207697504
https://www.proquest.com/docview/3242066866
Volume 183
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