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Literature DB >> 20210553

Induction of apoptosis by Shiga toxins.

Abstract

Shiga toxins comprise a family of structurally and functionally related protein toxins expressed by Shigella dysenteriae serotype 1 and multiple serotypes of Escherichia coli. While the capacity of Shiga toxins to inhibit protein synthesis by catalytic inactivation of eukaryotic ribosomes has been well described, it is also apparent that Shiga toxins trigger apoptosis in many cell types. This review presents evidence that Shiga toxins induce apoptosis of epithelial, endothelial, leukocytic, lymphoid and neuronal cells. Apoptotic signaling pathways activated by the toxins are reviewed with an emphasis on signaling mechanisms that are shared among different cell types. Data suggesting that Shiga toxins induce apoptosis through the endoplasmic reticulum stress response and clinical evidence demonstrating apoptosis in humans infected with Shiga toxin-producing bacteria are briefly discussed. The potential for use of Shiga toxins to induce apoptosis in cancer cells is briefly reviewed.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Shiga Toxins

Year: 2010 PMID： 20210553 PMCID： PMC2855686 DOI： 10.2217/fmb.10.4

Source DB: PubMed Journal: Future Microbiol ISSN： 1746-0913 Impact factor: 3.165

141 in total

1. Damage to nuclear DNA induced by Shiga toxin 1 and ricin in human endothelial cells.

Authors: Maurizio Brigotti; Roberta Alfieri; Piero Sestili; Mara Bonelli; Pier Giorgio Petronini; Andrea Guidarelli; Luigi Barbieri; Fiorenzo Stirpe; Simonetta Sperti
Journal: FASEB J Date: 2002-03 Impact factor: 5.191

Review 2. Shiga toxin receptor glycolipid binding. Pathology and utility.

Authors: Clifford A Lingwood
Journal: Methods Mol Med Date: 2003

3. c-FLIP(L) is a dual function regulator for caspase-8 activation and CD95-mediated apoptosis.

Authors: David W Chang; Zheng Xing; Yi Pan; Alicia Algeciras-Schimnich; Bryan C Barnhart; Shoshanit Yaish-Ohad; Marcus E Peter; Xiaolu Yang
Journal: EMBO J Date: 2002-07-15 Impact factor: 11.598

Review 4. Bacteriophage control of bacterial virulence.

Authors: Patrick L Wagner; Matthew K Waldor
Journal: Infect Immun Date: 2002-08 Impact factor: 3.441

5. Activation of Shiga toxin type 2d (Stx2d) by elastase involves cleavage of the C-terminal two amino acids of the A2 peptide in the context of the appropriate B pentamer.

Authors: Angela R Melton-Celsa; John F Kokai-Kun; Alison D O'Brien
Journal: Mol Microbiol Date: 2002-01 Impact factor: 3.501

6. Shiga toxin 1-induced activation of c-Jun NH(2)-terminal kinase and p38 in the human monocytic cell line THP-1: possible involvement in the production of TNF-alpha.

Authors: Gregory H Foster; Vernon L Tesh
Journal: J Leukoc Biol Date: 2002-01 Impact factor: 4.962

7. Identification, characterization, and distribution of a Shiga toxin 1 gene variant (stx(1c)) in Escherichia coli strains isolated from humans.

Authors: Wenlan Zhang; Martina Bielaszewska; Thorsten Kuczius; Helge Karch
Journal: J Clin Microbiol Date: 2002-04 Impact factor: 5.948

8. Molecular basis for up-regulation by inflammatory cytokines of Shiga toxin 1 cytotoxicity and globotriaosylceramide expression.

Authors: Peter K Stricklett; Alisa K Hughes; Zuhal Ergonul; Donald E Kohan
Journal: J Infect Dis Date: 2002-09-13 Impact factor: 5.226

9. Escherichia coli shiga-like toxins induce apoptosis and cleavage of poly(ADP-ribose) polymerase via in vitro activation of caspases.

Authors: Joyce C Y Ching; Nicola L Jones; Peter J M Ceponis; Mohamed A Karmali; Philip M Sherman
Journal: Infect Immun Date: 2002-08 Impact factor: 3.441

10. The treatment of malignant meningioma with verotoxin.

Authors: Bodour Salhia; James T Rutka; Clifford Lingwood; Anita Nutikka; Wouter R Van Furth
Journal: Neoplasia Date: 2002 Jul-Aug Impact factor: 5.715

40 in total

1. Adenovirus vector expressing Stx1/Stx2-neutralizing agent protects piglets infected with Escherichia coli O157:H7 against fatal systemic intoxication.

Authors: Abhineet S Sheoran; Igor P Dmitriev; Elena A Kashentseva; Ocean Cohen; Jean Mukherjee; Michelle Debatis; Jonathan Shearer; Jacqueline M Tremblay; Gillian Beamer; David T Curiel; Charles B Shoemaker; Saul Tzipori
Journal: Infect Immun Date: 2014-11-03 Impact factor: 3.441

2. Shiga toxins induce autophagic cell death in intestinal epithelial cells via the endoplasmic reticulum stress pathway.

Authors: Bin Tang; Qian Li; Xiu-hua Zhao; Hai-guang Wang; Na Li; Yao Fang; Kun Wang; Yin-ping Jia; Pan Zhu; Jiang Gu; Jing-xin Li; Yong-jun Jiao; Wen-de Tong; Marissa Wang; Quan-ming Zou; Feng-cai Zhu; Xu-hu Mao
Journal: Autophagy Date: 2015 Impact factor: 16.016

3. Shiga toxins induce autophagy leading to differential signalling pathways in toxin-sensitive and toxin-resistant human cells.

Authors: Moo-Seung Lee; Rama P Cherla; Matthew H Jenson; Dinorah Leyva-Illades; Margarita Martinez-Moczygemba; Vernon L Tesh
Journal: Cell Microbiol Date: 2011-07-04 Impact factor: 3.715

Review 4. Elucidation of host-pathogen protein-protein interactions to uncover mechanisms of host cell rewiring.

Authors: Charlotte Nicod; Amir Banaei-Esfahani; Ben C Collins
Journal: Curr Opin Microbiol Date: 2017-08-11 Impact factor: 7.934

5. Differential response of the human renal proximal tubular epithelial cell line HK-2 to Shiga toxin types 1 and 2.

Authors: Erin K Lentz; Dinorah Leyva-Illades; Moo-Seung Lee; Rama P Cherla; Vernon L Tesh
Journal: Infect Immun Date: 2011-06-27 Impact factor: 3.441

6. Shiga toxin 1 is more dependent on the P proteins of the ribosomal stalk for depurination activity than Shiga toxin 2.

Authors: Jia-Chi Chiou; Xiao-Ping Li; Miguel Remacha; Juan P G Ballesta; Nilgun E Tumer
Journal: Int J Biochem Cell Biol Date: 2011-09-03 Impact factor: 5.085