Literature DB >> 15223603

Trypanosoma cruzi and its components as exogenous mediators of inflammation recognized through Toll-like receptors.

Marco A Campos1, Ricardo T Gazzinelli.   

Abstract

Trypanosoma cruzi is the etiologic agent of Chagas' disease, a parasitic disease of enormous importance in Latin America. Herein we review the studies that revealed the receptors from innate immunity that are involved in the recognition of this protozoan parasite. We showed that the recognition of T. cruzi and its components occurs through Toll-like receptors (TLR) 2/CD14. Further, we showed in vivo the importance of the myeloid differentiation factor (MyD88), an adapter protein essential for the function of TLRs, in determining the parasitemia and mortality rate of mice infected with T. cruzi. We also discuss the implications of these findings in the pathophysiology of Chagas' disease.

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Year:  2004        PMID: 15223603      PMCID: PMC1781557          DOI: 10.1080/09511920410001713565

Source DB:  PubMed          Journal:  Mediators Inflamm        ISSN: 0962-9351            Impact factor:   4.711


  33 in total

1.  Unresponsiveness of MyD88-deficient mice to endotoxin.

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Journal:  Immunity       Date:  1999-07       Impact factor: 31.745

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Journal:  Cell       Date:  1996-09-20       Impact factor: 41.582

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Journal:  Cell       Date:  1985-10       Impact factor: 41.582

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Authors:  T Kerppola; T Curran
Journal:  Nature       Date:  1995-01-19       Impact factor: 49.962

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Journal:  Annu Rev Immunol       Date:  1983       Impact factor: 28.527

6.  A human homologue of the Drosophila Toll protein signals activation of adaptive immunity.

Authors:  R Medzhitov; P Preston-Hurlburt; C A Janeway
Journal:  Nature       Date:  1997-07-24       Impact factor: 49.962

7.  A family of human receptors structurally related to Drosophila Toll.

Authors:  F L Rock; G Hardiman; J C Timans; R A Kastelein; J F Bazan
Journal:  Proc Natl Acad Sci U S A       Date:  1998-01-20       Impact factor: 11.205

8.  Proapoptotic activity of a Trypanosoma cruzi ceramide-containing glycolipid turned on in host macrophages by IFN-gamma.

Authors:  C G Freire-de-Lima; M P Nunes; S Corte-Real; M P Soares; J O Previato; L Mendonça-Previato; G A DosReis
Journal:  J Immunol       Date:  1998-11-01       Impact factor: 5.422

9.  Targeted disruption of the MyD88 gene results in loss of IL-1- and IL-18-mediated function.

Authors:  O Adachi; T Kawai; K Takeda; M Matsumoto; H Tsutsui; M Sakagami; K Nakanishi; S Akira
Journal:  Immunity       Date:  1998-07       Impact factor: 31.745

10.  Defective LPS signaling in C3H/HeJ and C57BL/10ScCr mice: mutations in Tlr4 gene.

Authors:  A Poltorak; X He; I Smirnova; M Y Liu; C Van Huffel; X Du; D Birdwell; E Alejos; M Silva; C Galanos; M Freudenberg; P Ricciardi-Castagnoli; B Layton; B Beutler
Journal:  Science       Date:  1998-12-11       Impact factor: 47.728
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  20 in total

Review 1.  Molecular mechanisms of host cell invasion by Trypanosoma cruzi.

Authors:  Conrad L Epting; Bria M Coates; David M Engman
Journal:  Exp Parasitol       Date:  2010-06-18       Impact factor: 2.011

2.  Limited role for CD4+ T-cell help in the initial priming of Trypanosoma cruzi-specific CD8+ T cells.

Authors:  Angel Padilla; Dan Xu; Diana Martin; Rick Tarleton
Journal:  Infect Immun       Date:  2006-10-16       Impact factor: 3.441

3.  Dependence on p38 MAPK signalling in the up-regulation of TLR2, TLR4 and TLR9 gene expression in Trichomonas vaginalis-treated HeLa cells.

Authors:  Jae-Ho Chang; Ju-Youn Park; Soo-Ki Kim
Journal:  Immunology       Date:  2006-06       Impact factor: 7.397

4.  Macrophage migration inhibitory factor contributes to host defense against acute Trypanosoma cruzi infection.

Authors:  José L Reyes; Luis I Terrazas; Bertha Espinoza; David Cruz-Robles; Virgilia Soto; Irma Rivera-Montoya; Lorena Gómez-García; Heidi Snider; Abhay R Satoskar; Miriam Rodríguez-Sosa
Journal:  Infect Immun       Date:  2006-06       Impact factor: 3.441

5.  Immune dysfunction in caveolin-1 null mice following infection with Trypanosoma cruzi (Tulahuen strain).

Authors:  Freddy A Medina; Alex W Cohen; Cecilia J de Almeida; Fnu Nagajyothi; Vicki L Braunstein; Mauro Martins Teixeira; Herbert B Tanowitz; Michael P Lisanti
Journal:  Microbes Infect       Date:  2007-01-09       Impact factor: 2.700

Review 6.  Pathology and Pathogenesis of Chagas Heart Disease.

Authors:  Kevin M Bonney; Daniel J Luthringer; Stacey A Kim; Nisha J Garg; David M Engman
Journal:  Annu Rev Pathol       Date:  2018-10-24       Impact factor: 23.472

7.  Trypanosoma cruzi infection of cultured adipocytes results in an inflammatory phenotype.

Authors:  Fnu Nagajyothi; Mahalia S Desruisseaux; Niranjan Thiruvur; Louis M Weiss; Vicki L Braunstein; Chris Albanese; Mauro M Teixeira; Cecilia J de Almeida; Michael P Lisanti; Philipp E Scherer; Herbert B Tanowitz
Journal:  Obesity (Silver Spring)       Date:  2008-09       Impact factor: 5.002

Review 8.  Perspectives on the Trypanosoma cruzi-host cell receptor interactions.

Authors:  Fernando Villalta; Julio Scharfstein; Anthony W Ashton; Kevin M Tyler; Fangxia Guan; Shankar Mukherjee; Maria F Lima; Sandra Alvarez; Louis M Weiss; Huan Huang; Fabiana S Machado; Herbert B Tanowitz
Journal:  Parasitol Res       Date:  2009-03-13       Impact factor: 2.289

9.  Cyclic AMP decreases the production of NO and CCL2 by macrophages stimulated with Trypanosoma cruzi GPI-mucins.

Authors:  Andre Talvani; Sibele Ferreira Coutinho; Luciola da Silva Barcelos; Mauro Martins Teixeira
Journal:  Parasitol Res       Date:  2008-12-18       Impact factor: 2.289

10.  Rab5 activation by Toll-like receptor 2 is required for Trypanosoma cruzi internalization and replication in macrophages.

Authors:  Elena Maganto-Garcia; Carmen Punzon; Cox Terhorst; Manuel Fresno
Journal:  Traffic       Date:  2008-04-28       Impact factor: 6.215
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