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Literature DB >> 33519799

Role of TLR4 in Persistent Leptospira interrogans Infection: A Comparative In Vivo Study in Mice.

Nisha Nair¹, Mariana S Guedes¹, Adeline M Hajjar², Catherine Werts^3,4, Maria Gomes-Solecki¹.

Abstract

Toll-Like Receptor (TLR) 4, the LPS receptor, plays a central role in the control of leptospirosis and absence of TLR4 results in lethal infection in mice. Because human TLR4 does not sense the atypical leptospiral-LPS, we hypothesized that TLR4/MD-2 humanized transgenic mice (huTLR4) may be more susceptible to leptospirosis than wild-type mice, and thus may constitute a model of acute human leptospirosis. We infected huTLR4 mice, which express human TLR4 but not murine TLR4, with a high dose of L. interrogans serovar Copenhageni FioCruz (Leptospira) in comparison to C57BL/6J wild-type (WT) and, as a control, a congenic strain in which the tlr4 coding sequences are deleted (muTLR4Lps-del). We show that the huTLR4 gene is fully functional in the murine background. We found that dissemination of Leptospira in blood, shedding in urine, colonization of the kidney and overall kinetics of leptospirosis progression is equivalent between WT and huTLR4 C57BL/6J mice. Furthermore, inflammation of the kidney appeared to be subdued in huTLR4 compared to WT mice in that we observed less infiltrates of mononuclear lymphocytes, less innate immune markers and no relevant differences in fibrosis markers. Thus, huTLR4 mice showed less inflammation and kidney pathology, and are not more susceptible to leptospirosis than WT mice. This study is significant as it indicates that one intact TLR4 gene, be it mouse or human, is necessary to control acute leptospirosis.

Entities: Chemical Disease Gene Species

Keywords: Leptospira; TLR4; humanized TLR4/MD-2 mouse model; innate immunity; kidney; leptospirosis

Year: 2021 PMID： 33519799 PMCID： PMC7843520 DOI： 10.3389/fimmu.2020.572999

Source DB: PubMed Journal: Front Immunol ISSN： 1664-3224 Impact factor: 7.561

26 in total

1. Cutting edge: functional characterization of the effect of the C3H/HeJ defect in mice that lack an Lpsn gene: in vivo evidence for a dominant negative mutation.

Authors: S N Vogel; D Johnson; P Y Perera; A Medvedev; L Larivière; S T Qureshi; D Malo
Journal: J Immunol Date: 1999-05-15 Impact factor: 5.422

2. A TLR4-TRIF-dependent signaling pathway is required for protective natural tumor-reactive IgM production by B1 cells.

Authors: Allison M Dyevoich; Nataya S Disher; Marcela A Haro; Karen M Haas
Journal: Cancer Immunol Immunother Date: 2020-05-24 Impact factor: 6.968

3. Eyedrop Inoculation Causes Sublethal Leptospirosis in Mice.

Authors: Joseph Pierce Sullivan; Nisha Nair; Hari-Hara Potula; Maria Gomes-Solecki
Journal: Infect Immun Date: 2017-03-23 Impact factor: 3.441

4. Morphological characterization of lung and kidney lesions in C3H/HeJ mice infected with Leptospira interrogans serovar icterohaemorrhagiae: defect of CD4+ and CD8+ T-cells are prognosticators of the disease progression.

Authors: M M Pereira; J Andrade; R S Marchevsky; R Ribeiro dos Santos
Journal: Exp Toxicol Pathol Date: 1998-06

5. Characterization of a congenitally LPS-resistant, athymic mouse strain.

Authors: S N Vogel; C T Hansen; D L Rosenstreich
Journal: J Immunol Date: 1979-02 Impact factor: 5.422

6. TLR4- and TLR2-mediated B cell responses control the clearance of the bacterial pathogen, Leptospira interrogans.

Authors: Cécilia Chassin; Mathieu Picardeau; Jean-Michel Goujon; Pascale Bourhy; Nathalie Quellard; Sylvie Darche; Edgar Badell; Martine Fanton d'Andon; Nathalie Winter; Sonia Lacroix-Lamandé; Dominique Buzoni-Gatel; Alain Vandewalle; Catherine Werts
Journal: J Immunol Date: 2009-07-27 Impact factor: 5.422

7. Mouse model for sublethal Leptospira interrogans infection.

Authors: Luciana Richer; Hari-Hara Potula; Rita Melo; Ana Vieira; Maria Gomes-Solecki
Journal: Infect Immun Date: 2015-09-28 Impact factor: 3.441

8. A methylated phosphate group and four amide-linked acyl chains in leptospira interrogans lipid A. The membrane anchor of an unusual lipopolysaccharide that activates TLR2.

Authors: Nanette L S Que-Gewirth; Anthony A Ribeiro; Suzanne R Kalb; Robert J Cotter; Dieter M Bulach; Ben Adler; Isabelle Saint Girons; Catherine Werts; Christian R H Raetz
Journal: J Biol Chem Date: 2004-03-24 Impact factor: 5.157

9. Humanized TLR4/MD-2 mice reveal LPS recognition differentially impacts susceptibility to Yersinia pestis and Salmonella enterica.

Authors: Adeline M Hajjar; Robert K Ernst; Edgardo S Fortuno; Alicia S Brasfield; Cathy S Yam; Lindsay A Newlon; Tobias R Kollmann; Samuel I Miller; Christopher B Wilson
Journal: PLoS Pathog Date: 2012-10-11 Impact factor: 6.823

Review 10. Phagocyte Escape of Leptospira: The Role of TLRs and NLRs.

Authors: Ignacio Santecchia; María Florencia Ferrer; Monica Larucci Vieira; Ricardo Martín Gómez; Catherine Werts
Journal: Front Immunol Date: 2020-10-06 Impact factor: 7.561

6 in total

1. Anti-Leptospira immunoglobulin profiling in mice reveals strain specific IgG and persistent IgM responses associated with virulence and renal colonization.

Authors: Frédérique Vernel-Pauillac; Gerald L Murray; Ben Adler; Ivo G Boneca; Catherine Werts
Journal: PLoS Negl Trop Dis Date: 2021-03-11