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Literature DB >> 24951442

Toxoplasma gondii development of its replicative niche: in its host cell and beyond.

Abstract

Intracellular pathogens can replicate efficiently only after they manipulate and modify their host cells to create an environment conducive to replication. While diverse cellular pathways are targeted by different pathogens, metabolism, membrane and cytoskeletal architecture formation, and cell death are the three primary cellular processes that are modified by infections. Toxoplasma gondii is an obligate intracellular protozoan that infects ∼30% of the world's population and causes severe and life-threatening disease in developing fetuses, in immune-comprised patients, and in certain otherwise healthy individuals who are primarily found in South America. The high prevalence of Toxoplasma in humans is in large part a result of its ability to modulate these three host cell processes. Here, we highlight recent work defining the mechanisms by which Toxoplasma interacts with these processes. In addition, we hypothesize why some processes are modified not only in the infected host cell but also in neighboring uninfected cells.

Entities: Disease Species

Mesh：

Substances：
Inflammasomes

Year: 2014 PMID： 24951442 PMCID： PMC4135789 DOI： 10.1128/EC.00081-14

Source DB: PubMed Journal: Eukaryot Cell ISSN： 1535-9786

109 in total

1. NALP1 influences susceptibility to human congenital toxoplasmosis, proinflammatory cytokine response, and fate of Toxoplasma gondii-infected monocytic cells.

Authors: William H Witola; Ernest Mui; Aubrey Hargrave; Susan Liu; Magali Hypolite; Alexandre Montpetit; Pierre Cavailles; Cordelia Bisanz; Marie-France Cesbron-Delauw; Gilbert J Fournié; Rima McLeod
Journal: Infect Immun Date: 2010-11-22 Impact factor: 3.441

Review 2. Kiss and spit: the dual roles of Toxoplasma rhoptries.

Authors: John C Boothroyd; Jean-Francois Dubremetz
Journal: Nat Rev Microbiol Date: 2008-01 Impact factor: 60.633

3. Host cell subversion by Toxoplasma GRA16, an exported dense granule protein that targets the host cell nucleus and alters gene expression.

Authors: Alexandre Bougdour; Eric Durandau; Marie-Pierre Brenier-Pinchart; Philippe Ortet; Mohamed Barakat; Sylvie Kieffer; Aurélie Curt-Varesano; Rose-Laurence Curt-Bertini; Olivier Bastien; Yohann Coute; Hervé Pelloux; Mohamed-Ali Hakimi
Journal: Cell Host Microbe Date: 2013-04-17 Impact factor: 21.023

4. Cutting edge: hypoxia-inducible factor 1alpha and its activation-inducible short isoform I.1 negatively regulate functions of CD4+ and CD8+ T lymphocytes.

Authors: Dmitriy Lukashev; Boris Klebanov; Hidefumi Kojima; Alex Grinberg; Akiko Ohta; Ludmilla Berenfeld; Roland H Wenger; Akio Ohta; Michail Sitkovsky
Journal: J Immunol Date: 2006-10-15 Impact factor: 5.422

5. Phagosome acidification blocked by intracellular Toxoplasma gondii.

Authors: L D Sibley; E Weidner; J L Krahenbuhl
Journal: Nature Date: 1985 May 30-Jun 5 Impact factor: 49.962

6. Apicoplast fatty acid synthesis is essential for organelle biogenesis and parasite survival in Toxoplasma gondii.

Authors: Jolly Mazumdar; Emma H Wilson; Kate Masek; Christopher A Hunter; Boris Striepen
Journal: Proc Natl Acad Sci U S A Date: 2006-08-18 Impact factor: 11.205

7. Hypoxia-inducible factor-1 alpha-dependent induction of FoxP3 drives regulatory T-cell abundance and function during inflammatory hypoxia of the mucosa.

Authors: Eric T Clambey; Eóin N McNamee; Joseph A Westrich; Louise E Glover; Eric L Campbell; Paul Jedlicka; Edwin F de Zoeten; John C Cambier; Kurt R Stenmark; Sean P Colgan; Holger K Eltzschig
Journal: Proc Natl Acad Sci U S A Date: 2012-09-17 Impact factor: 11.205

8. Toxoplasma gondii Inhibits gamma interferon (IFN-γ)- and IFN-β-induced host cell STAT1 transcriptional activity by increasing the association of STAT1 with DNA.

Authors: Emily E Rosowski; Quynh P Nguyen; Ana Camejo; Eric Spooner; Jeroen P J Saeij
Journal: Infect Immun Date: 2013-11-25 Impact factor: 3.441

9. Impaired chromatin remodelling at STAT1-regulated promoters leads to global unresponsiveness of Toxoplasma gondii-infected macrophages to IFN-γ.

Authors: Christine Lang; Anke Hildebrandt; Franziska Brand; Lennart Opitz; Hassan Dihazi; Carsten G K Lüder
Journal: PLoS Pathog Date: 2012-01-19 Impact factor: 6.823

10. Toxoplasma gondii exploits host low-density lipoprotein receptor-mediated endocytosis for cholesterol acquisition.

Authors: I Coppens; A P Sinai; K A Joiner
Journal: J Cell Biol Date: 2000-04-03 Impact factor: 10.539

22 in total

1. Characterization of a cytoplasmic glucosyltransferase that extends the core trisaccharide of the Toxoplasma Skp1 E3 ubiquitin ligase subunit.

Authors: Kazi Rahman; Msano Mandalasi; Peng Zhao; M Osman Sheikh; Rahil Taujale; Hyun W Kim; Hanke van der Wel; Khushi Matta; Natarajan Kannan; John N Glushka; Lance Wells; Christopher M West
Journal: J Biol Chem Date: 2017-09-19 Impact factor: 5.157

Review 2. Oxygen sensing by protozoans: how they catch their breath.

Authors: Christopher M West; Ira J Blader
Journal: Curr Opin Microbiol Date: 2015-05-17 Impact factor: 7.934

Review 3. Dense granule biogenesis, secretion, and function in Toxoplasma gondii.

Authors: Michael B Griffith; Camille S Pearce; Aoife T Heaslip
Journal: J Eukaryot Microbiol Date: 2022-03-18 Impact factor: 3.880

4. GABARAPL2 Is Critical for Growth Restriction of Toxoplasma gondii in HeLa Cells Treated with Gamma Interferon.

Authors: Zhaoxia Zhang; Haorong Gu; Qi Li; Jun Zheng; Shinuo Cao; Changjiang Weng; Honglin Jia
Journal: Infect Immun Date: 2020-04-20 Impact factor: 3.441

5. Targeting by AutophaGy proteins (TAG): Targeting of IFNG-inducible GTPases to membranes by the LC3 conjugation system of autophagy.

Authors: Sungwoo Park; Jayoung Choi; Scott B Biering; Erin Dominici; Lelia E Williams; Seungmin Hwang
Journal: Autophagy Date: 2016-05-12 Impact factor: 16.016