The Bacillus cereus toxin alveolysin disrupts the intestinal epithelial barrier by inducing microtubule disorganization through CFAP100

The Bacillus cereus toxin alveolysin disrupts the intestinal epithelial barrier by inducing microtubule disorganization through CFAP100

is a Gram-positive bacterium that mainly causes self-limiting emetic or diarrheal illness but can also cause skin infections and bacteremia. Symptoms of ingestion depend on the production of various toxins that target the gastric and intestinal epithelia. From a screen of bacterial isolates from hum...

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Veröffentlicht in:Science signaling 2023-05, Vol.16 (785), p.eade8111-eade8111
Hauptverfasser: Sun, Shuang, Xu, Zhaoyang, Hu, Haijie, Zheng, Manxi, Zhang, Liang, Xie, Wei, Sun, Lei, Liu, Peiwei, Li, Tianliang, Zhang, Liangran, Chen, Min, Zhu, Xueliang, Liu, Min, Yang, Yunfan, Zhou, Jun
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Animals
Bacillus cereus
Bacillus cereus - metabolism
Cell junctions
Cilia
Damage
Epithelial cells
Epithelium
Exotoxins - metabolism
Flagella
Foodborne diseases
Foodborne pathogens
Gastrointestinal symptoms
Humans
Intestinal Mucosa
Intestine
Mice
Phosphatidylinositol 3-Kinases - metabolism
Pore formation
Toxins
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container_end_page eade8111
container_issue 785
container_start_page eade8111
container_title Science signaling
container_volume 16
creator Sun, Shuang
Xu, Zhaoyang
Hu, Haijie
Zheng, Manxi
Zhang, Liang
Xie, Wei
Sun, Lei
Liu, Peiwei
Li, Tianliang
Zhang, Liangran
Chen, Min
Zhu, Xueliang
Liu, Min
Yang, Yunfan
Zhou, Jun
description is a Gram-positive bacterium that mainly causes self-limiting emetic or diarrheal illness but can also cause skin infections and bacteremia. Symptoms of ingestion depend on the production of various toxins that target the gastric and intestinal epithelia. From a screen of bacterial isolates from human stool samples that compromised intestinal barrier function in mice, we identified a strain of that disrupted tight and adherens junctions in the intestinal epithelium. This activity was mediated by the pore-forming exotoxin alveolysin, which increased the production of the membrane-anchored protein CD59 and of cilia- and flagella-associated protein 100 (CFAP100) in intestinal epithelial cells. In vitro, CFAP100 interacted with microtubules and promoted microtubule polymerization. CFAP100 overexpression stabilized microtubules in intestinal epithelial cells, leading to disorganization of the microtubule network and perturbation of tight and adherens junctions. The disruption of cell junctions by alveolysin depended on the increase in CFAP100, which in turn depended on CD59 and the activation of PI3K-AKT signaling. These findings demonstrate that, in addition to forming membrane pores, alveolysin can permeabilize the intestinal epithelium by disrupting epithelial cell junctions in a manner that is consistent with intestinal symptoms and may allow the bacteria to escape the intestine and cause systemic infections. Our results suggest the potential value of targeting alveolysin or CFAP100 to prevent -associated intestinal diseases and systemic infections.
doi_str_mv 10.1126/scisignal.ade8111
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Symptoms of ingestion depend on the production of various toxins that target the gastric and intestinal epithelia. From a screen of bacterial isolates from human stool samples that compromised intestinal barrier function in mice, we identified a strain of that disrupted tight and adherens junctions in the intestinal epithelium. This activity was mediated by the pore-forming exotoxin alveolysin, which increased the production of the membrane-anchored protein CD59 and of cilia- and flagella-associated protein 100 (CFAP100) in intestinal epithelial cells. In vitro, CFAP100 interacted with microtubules and promoted microtubule polymerization. CFAP100 overexpression stabilized microtubules in intestinal epithelial cells, leading to disorganization of the microtubule network and perturbation of tight and adherens junctions. The disruption of cell junctions by alveolysin depended on the increase in CFAP100, which in turn depended on CD59 and the activation of PI3K-AKT signaling. These findings demonstrate that, in addition to forming membrane pores, alveolysin can permeabilize the intestinal epithelium by disrupting epithelial cell junctions in a manner that is consistent with intestinal symptoms and may allow the bacteria to escape the intestine and cause systemic infections. Our results suggest the potential value of targeting alveolysin or CFAP100 to prevent -associated intestinal diseases and systemic infections.</description><identifier>ISSN: 1945-0877</identifier><identifier>EISSN: 1937-9145</identifier><identifier>DOI: 10.1126/scisignal.ade8111</identifier><identifier>PMID: 37192300</identifier><language>eng</language><publisher>United States: The American Association for the Advancement of Science</publisher><subject>Animals ; Bacillus cereus ; Bacillus cereus - metabolism ; Cell junctions ; Cilia ; Damage ; Epithelial cells ; Epithelium ; Exotoxins - metabolism ; Flagella ; Foodborne diseases ; Foodborne pathogens ; Gastrointestinal symptoms ; Humans ; Intestinal Mucosa ; Intestine ; Mice ; Phosphatidylinositol 3-Kinases - metabolism ; Pore formation ; Toxins</subject><ispartof>Science signaling, 2023-05, Vol.16 (785), p.eade8111-eade8111</ispartof><rights>Copyright © 2023 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. 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Symptoms of ingestion depend on the production of various toxins that target the gastric and intestinal epithelia. From a screen of bacterial isolates from human stool samples that compromised intestinal barrier function in mice, we identified a strain of that disrupted tight and adherens junctions in the intestinal epithelium. This activity was mediated by the pore-forming exotoxin alveolysin, which increased the production of the membrane-anchored protein CD59 and of cilia- and flagella-associated protein 100 (CFAP100) in intestinal epithelial cells. In vitro, CFAP100 interacted with microtubules and promoted microtubule polymerization. CFAP100 overexpression stabilized microtubules in intestinal epithelial cells, leading to disorganization of the microtubule network and perturbation of tight and adherens junctions. The disruption of cell junctions by alveolysin depended on the increase in CFAP100, which in turn depended on CD59 and the activation of PI3K-AKT signaling. These findings demonstrate that, in addition to forming membrane pores, alveolysin can permeabilize the intestinal epithelium by disrupting epithelial cell junctions in a manner that is consistent with intestinal symptoms and may allow the bacteria to escape the intestine and cause systemic infections. 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Symptoms of ingestion depend on the production of various toxins that target the gastric and intestinal epithelia. From a screen of bacterial isolates from human stool samples that compromised intestinal barrier function in mice, we identified a strain of that disrupted tight and adherens junctions in the intestinal epithelium. This activity was mediated by the pore-forming exotoxin alveolysin, which increased the production of the membrane-anchored protein CD59 and of cilia- and flagella-associated protein 100 (CFAP100) in intestinal epithelial cells. In vitro, CFAP100 interacted with microtubules and promoted microtubule polymerization. CFAP100 overexpression stabilized microtubules in intestinal epithelial cells, leading to disorganization of the microtubule network and perturbation of tight and adherens junctions. The disruption of cell junctions by alveolysin depended on the increase in CFAP100, which in turn depended on CD59 and the activation of PI3K-AKT signaling. These findings demonstrate that, in addition to forming membrane pores, alveolysin can permeabilize the intestinal epithelium by disrupting epithelial cell junctions in a manner that is consistent with intestinal symptoms and may allow the bacteria to escape the intestine and cause systemic infections. Our results suggest the potential value of targeting alveolysin or CFAP100 to prevent -associated intestinal diseases and systemic infections.</abstract><cop>United States</cop><pub>The American Association for the Advancement of Science</pub><pmid>37192300</pmid><doi>10.1126/scisignal.ade8111</doi><orcidid>https://orcid.org/0000-0001-5597-2200</orcidid><orcidid>https://orcid.org/0000-0003-1396-563X</orcidid><orcidid>https://orcid.org/0000-0002-5266-7208</orcidid><orcidid>https://orcid.org/0000-0002-3844-3013</orcidid><orcidid>https://orcid.org/0000-0003-2673-0549</orcidid><orcidid>https://orcid.org/0000-0001-8019-9336</orcidid><orcidid>https://orcid.org/0000-0002-8900-2285</orcidid><orcidid>https://orcid.org/0000-0003-3131-7804</orcidid><orcidid>https://orcid.org/0000-0002-1626-7100</orcidid><orcidid>https://orcid.org/0000-0001-9321-0688</orcidid></addata></record>
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source American Association for the Advancement of Science; MEDLINE
subjects Animals
Bacillus cereus
Bacillus cereus - metabolism
Cell junctions
Cilia
Damage
Epithelial cells
Epithelium
Exotoxins - metabolism
Flagella
Foodborne diseases
Foodborne pathogens
Gastrointestinal symptoms
Humans
Intestinal Mucosa
Intestine
Mice
Phosphatidylinositol 3-Kinases - metabolism
Pore formation
Toxins
title The Bacillus cereus toxin alveolysin disrupts the intestinal epithelial barrier by inducing microtubule disorganization through CFAP100
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