Literature DB >> 23749230

Inflammasome-derived IL-1β production induces nitric oxide-mediated resistance to Leishmania.

Djalma S Lima-Junior1, Diego L Costa, Vanessa Carregaro, Larissa D Cunha, Alexandre L N Silva, Tiago W P Mineo, Fredy R S Gutierrez, Maria Bellio, Karina R Bortoluci, Richard A Flavell, Marcelo T Bozza, João S Silva, Dario S Zamboni.   

Abstract

Parasites of the Leishmania genus are the causative agents of leishmaniasis in humans, a disease that affects more than 12 million people worldwide. These parasites replicate intracellularly in macrophages, and the primary mechanisms underlying host resistance involve the production of nitric oxide (NO). In this study we show that the Nlrp3 inflammasome is activated in response to Leishmania infection and is important for the restriction of parasite replication both in macrophages and in vivo as demonstrated through the infection of inflammasome-deficient mice with Leishmania amazonensis, Leishmania braziliensis and Leishmania infantum chagasi. Inflammasome-driven interleukin-1β (IL-1β) production facilitated host resistance to infection, as signaling through IL-1 receptor (IL-1R) and MyD88 was necessary and sufficient to trigger inducible nitric oxide synthase (NOS2)-mediated production of NO. In this manuscript we identify a major signaling platform for host resistance to Leishmania spp. infection and describe the molecular mechanisms underlying Leishmania-induced NO production.

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Year:  2013        PMID: 23749230     DOI: 10.1038/nm.3221

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  51 in total

1.  Multifunctional TH1 cells define a correlate of vaccine-mediated protection against Leishmania major.

Authors:  Patricia A Darrah; Dipti T Patel; Paula M De Luca; Ross W B Lindsay; Dylan F Davey; Barbara J Flynn; Søren T Hoff; Peter Andersen; Steven G Reed; Sheldon L Morris; Mario Roederer; Robert A Seder
Journal:  Nat Med       Date:  2007-06-10       Impact factor: 53.440

2.  Differential requirement of P2X7 receptor and intracellular K+ for caspase-1 activation induced by intracellular and extracellular bacteria.

Authors:  Luigi Franchi; Thirumala-Devi Kanneganti; George R Dubyak; Gabriel Núñez
Journal:  J Biol Chem       Date:  2007-05-09       Impact factor: 5.157

3.  Resistance to Leishmania major infection correlates with the induction of nitric oxide synthase in murine macrophages.

Authors:  F Y Liew; Y Li; D Moss; C Parkinson; M V Rogers; S Moncada
Journal:  Eur J Immunol       Date:  1991-12       Impact factor: 5.532

4.  A lipophosphoglycan-independent method for isolation of infective Leishmania metacyclic promastigotes by density gradient centrifugation.

Authors:  G F Späth; S M Beverley
Journal:  Exp Parasitol       Date:  2001-10       Impact factor: 2.011

Review 5.  Subversion of host cell signalling by the protozoan parasite Leishmania.

Authors:  D J Gregory; M Olivier
Journal:  Parasitology       Date:  2005       Impact factor: 3.234

6.  Leishmania major amastigotes initiate the L-arginine-dependent killing mechanism in IFN-gamma-stimulated macrophages by induction of tumor necrosis factor-alpha.

Authors:  S J Green; R M Crawford; J T Hockmeyer; M S Meltzer; C A Nacy
Journal:  J Immunol       Date:  1990-12-15       Impact factor: 5.422

Review 7.  Cutaneous leishmaniasis.

Authors:  Richard Reithinger; Jean-Claude Dujardin; Hechmi Louzir; Claude Pirmez; Bruce Alexander; Simon Brooker
Journal:  Lancet Infect Dis       Date:  2007-09       Impact factor: 25.071

8.  Interleukin-1 beta as a potent hyperalgesic agent antagonized by a tripeptide analogue.

Authors:  S H Ferreira; B B Lorenzetti; A F Bristow; S Poole
Journal:  Nature       Date:  1988-08-25       Impact factor: 49.962

9.  Immune responses associated with susceptibility of C57BL/10 mice to Leishmania amazonensis.

Authors:  L C Afonso; P Scott
Journal:  Infect Immun       Date:  1993-07       Impact factor: 3.441

Review 10.  The early interaction of Leishmania with macrophages and dendritic cells and its influence on the host immune response.

Authors:  Dong Liu; Jude E Uzonna
Journal:  Front Cell Infect Microbiol       Date:  2012-06-12       Impact factor: 5.293
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  159 in total

1.  In vivo imaging of inflammasome activation reveals a subcapsular macrophage burst response that mobilizes innate and adaptive immunity.

Authors:  Pervinder Sagoo; Zacarias Garcia; Beatrice Breart; Fabrice Lemaître; David Michonneau; Matthew L Albert; Yves Levy; Philippe Bousso
Journal:  Nat Med       Date:  2015-12-21       Impact factor: 53.440

2.  Neuroprotective Effect of 3-[(4-Chlorophenyl)selanyl]-1-methyl-1H-indole on Hydrogen Peroxide-Induced Oxidative Stress in SH-SY5Y Cells.

Authors:  Angela Maria Casaril; Natália Segatto; Lucas Simões; Júlia Paschoal; Micaela Domingues; Beatriz Vieira; Fernanda S S Sousa; Eder João Lenardão; Fabiana K Seixas; Tiago Collares; Lucielli Savegnago
Journal:  Neurochem Res       Date:  2021-02-06       Impact factor: 3.996

Review 3.  Inflammasomes and Leishmania: in good times or bad, in sickness or in health.

Authors:  Dario S Zamboni; David L Sacks
Journal:  Curr Opin Microbiol       Date:  2019-06-20       Impact factor: 7.934

4.  The Src kinases Hck, Fgr and Lyn activate Arg to facilitate IgG-mediated phagocytosis and Leishmania infection.

Authors:  Dawn M Wetzel; Emma L Rhodes; Shaoguang Li; Diane McMahon-Pratt; Anthony J Koleske
Journal:  J Cell Sci       Date:  2016-06-29       Impact factor: 5.285

5.  Immunomodulatory nanoparticles ameliorate disease in the Leishmania (Viannia) panamensis mouse model.

Authors:  Alyssa L Siefert; Allison Ehrlich; María Jesús Corral; Karen Goldsmith-Pestana; Diane McMahon-Pratt; Tarek M Fahmy
Journal:  Biomaterials       Date:  2016-09-06       Impact factor: 12.479

6.  Impact of primary mouse macrophage cell types on Leishmania infection and in vitro drug susceptibility.

Authors:  M Van den Kerkhof; L Van Bockstal; J F Gielis; P Delputte; P Cos; L Maes; Guy Caljon; Sarah Hendrickx
Journal:  Parasitol Res       Date:  2018-08-23       Impact factor: 2.289

7.  Mice Deficient in Angiopoietin-like Protein 2 (Angptl2) Gene Show Increased Susceptibility to Bacterial Infection Due to Attenuated Macrophage Activity.

Authors:  Masaki Yugami; Haruki Odagiri; Motoyoshi Endo; Hiroyasu Tsutsuki; Shigemoto Fujii; Tsuyoshi Kadomatsu; Tetsuro Masuda; Keishi Miyata; Kazutoyo Terada; Hironori Tanoue; Hitoshi Ito; Jun Morinaga; Haruki Horiguchi; Taichi Sugizaki; Takaaki Akaike; Tomomi Gotoh; Toshiyuki Takai; Tomohiro Sawa; Hiroshi Mizuta; Yuichi Oike
Journal:  J Biol Chem       Date:  2016-07-11       Impact factor: 5.157

8.  Cross-resistance of Leishmania infantum isolates to nitric oxide from patients refractory to antimony treatment, and greater tolerance to antileishmanial responses by macrophages.

Authors:  Tatiana R de Moura; Micheli Luize Barbosa Santos; Juciene M Braz; Luis Felipe V C Santos; Matheus T Aragão; Fabricia A de Oliveira; Priscila L Santos; Ângela Maria da Silva; Amélia Ribeiro de Jesus; Roque P de Almeida
Journal:  Parasitol Res       Date:  2016-02       Impact factor: 2.289

Review 9.  Pro- and anti-inflammatory cytokines in cutaneous leishmaniasis: a review.

Authors:  Nahid Maspi; Amir Abdoli; Fathemeh Ghaffarifar
Journal:  Pathog Glob Health       Date:  2016-09-23       Impact factor: 2.894

10.  Inhibition of cyclooxygenase-1 and cyclooxygenase-2 impairs Trypanosoma cruzi entry into cardiac cells and promotes differential modulation of the inflammatory response.

Authors:  Aparecida D Malvezi; Carolina Panis; Rosiane V da Silva; Rafael Carvalho de Freitas; Maria I Lovo-Martins; Vera L H Tatakihara; Nágela G Zanluqui; Edecio Cunha Neto; Samuel Goldenberg; Juliano Bordignon; Sueli F Yamada-Ogatta; Marli C Martins-Pinge; Rubens Cecchini; Phileno Pinge-Filho
Journal:  Antimicrob Agents Chemother       Date:  2014-08-04       Impact factor: 5.191
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