Role of TLR4 in persistent<i>Leptospira interrogans</i>infection: a comparative<i>in vivo</i>study in mice

Nair, Nisha; Guedes, Mariana Soares; Hajjar, Adeline M.; Werts, Catherine; Gomes-Solecki, Maria

doi:10.1101/2020.06.15.153106

Cited by 3 publications

(4 citation statements)

References 26 publications

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“…C3H/HeJ mice, a strain known to be susceptible to Leptospira, were selected for use in our short-term model of infection (Poltorak et al, 1998;Nally et al, 2005;da Silva et al, 2012;Richer et al, 2015;Shetty et al, 2021;Shetty et al, 2022). It has long been known that TLR4 is important in controlling leptospirosis, as mice lacking TLR4 are susceptible to acute disease (Pereira et al, 1998;Viriyakosol et al, 2006;Nair et al, 2020a). C3H/HeJ mice have a spontaneous proline to histidine mutation at residue 712 which produces a hyporesponsive TLR4, leading to susceptibility to Leptospira infection as well as limiting endotoxic shock induced by lipopolysaccharide (LPS) (Qureshi et al, 1999).…”

Section: Discussionmentioning

confidence: 99%

“…encode a unique LPS that leads to varied recognition by TLRs in humans and mice (Que-Gewirth et al, 2004;Nahori et al, 2005;Chassin et al, 2009). Importantly, the presence of either mouse or human TLR4 has been shown to be sufficient to control infection by Leptospira (Nair et al, 2020a). In addition to mouse strains, age, sex, and the route of infection contribute to variable disease kinetics induced by Leptospira (Pereira et al, 1998;Nally et al, 2005;Nair et al, 2020b;reviewed in Gomes-Solecki et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

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Hematogenous dissemination of pathogenic and non-pathogenic Leptospira in a short-term murine model of infection

Surdel

Anderson

Hahn

et al. 2022

Front. Cell. Infect. Microbiol.

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Leptospirosis is an emerging zoonosis caused by pathogenic Leptospira spp. Because rodents are natural hosts of Leptospira, rodent models of pathogenesis have been limited, but are valuable to understand infection in reservoir animals even in the absence of disease. Mouse models of infection provide advantages due to genetic tractability, so developing murine models of Leptospira infection is crucial for further understanding the biology of this organism. Previously our laboratory developed a short-term murine model of Borrelia burgdorferi hematogenous dissemination to investigate the role of adhesion proteins on bacterial survival and dissemination within a host. Here we adapt this model to Leptospira. C3H/HeJ mice are anesthetized, inoculated intravenously, and then bacteria are allowed to circulate for up to twenty-four hours. Mice are euthanized, perfused with saline, and tissues are harvested for culture and DNA purification. Bacterial burdens are determined by quantitative PCR. Reproducible burdens of bacteria were found in tissues upon inoculation with pathogens and non-pathogens, demonstrating the utility of this model to probe different Leptospira species and strains. Pathogenic L. interrogans has a significantly higher burden in blood, liver, kidney, and bladder at one-hour post-inoculation when compared to non-pathogenic L. biflexa. Colonization of the kidney is essential to the life cycle of pathogenic Leptospira in nature. Measurable burdens of non-pathogenic L. biflexa were found in numerous organs and live leptospires were recovered from blood samples for at least three hours post-inoculation, contrary to the previous belief that non-pathogenic leptospires are rapidly cleared. This short-term murine model of Leptospira hematogenous dissemination will allow for the interrogation of virulence factors potentially important for tissue colonization and evasion of host defenses, and represents a novel animal model for investigating determinants of Leptospira infection.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Hematogenous dissemination of pathogenic and non-pathogenic Leptospira in a short-term murine model of infection

Surdel

Anderson

Hahn

et al. 2022

Front. Cell. Infect. Microbiol.

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“…One of the drawbacks of the C3H‐HeJ mouse model is that, due to the point mutation in TLR4, this mouse is considered immunocompromised. The analogous hyporesponsiveness and non‐resposiveness of C3H‐HeJ and human TLR4 to Leptospira LPS led us to use humanized TLR4 transgenic C57BL‐6J mice to develop an immunocompetent mouse model of Leptospirosis (Nair, Soares Guedes, Hajjar, Werts, & Gomes‐Solecki, 2020). Either using C3H‐HeJ or humanized TLR4 C57BL‐6J, these mouse models of infection can only help increase our knowledge of Leptospira pathogenesis if they are adopted by the research community.…”

Section: Commentarymentioning

confidence: 99%

A Mouse Model of Sublethal Leptospirosis: Protocols for Infection with Leptospira Through Natural Transmission Routes, for Monitoring Clinical and Molecular Scores of Disease, and for Evaluation of the Host Immune Response

Nair

Gomes-Solecki

2020

CP Microbiology

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Leptospirosis is a zoonotic disease caused by pathogenic Leptospira species that are maintained in sylvatic and domestic environments by transmission among rodents and other carriers. Humans become infected after contact of breached skin or mucosa with contaminated water or soil. Understanding persistent or sublethal infection in a host is critical for controlling human risk of exposure to pathogenic Leptospira. Animal models that recapitulate disease progression after infection via natural transmission routes are more appropriate for validation of vaccines and therapeutics. Furthermore, the ability to measure shedding of live Leptospira in urine of reservoir and carrier hosts can be used to develop new diagnostic assays and sensors to evaluate human risk of exposure. We developed inbred mouse models of Leptospirosis, that bypass survival as a criterion, in which we can analyze both pathogen and host factors affecting sublethal infection (<1 month), including shedding of Leptospira in urine. Mice are infected with pathogenic Leptospira using a physiologic route, and the clinical, histological, and molecular scores of disease are measured. Furthermore, the host immune response to Leptospira is evaluated. This mouse model also provides a tool in which to test fundamental hypotheses related to host-pathogen interactions and the immune mechanisms engaged in protective and pathogenic immune responses.

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“…Although they are closely related strains, C3H/HeJ mice are characterized by hyporesponsiveness to lipopolysaccharide (LPS) because they have a single point mutation of LPS allele (Lps d ) in the gene encoding Toll-like receptor 4 (TLR4) compared to the C3H/HeN mice (87, 88) These revealed the crucial effects of TLR4 on leptospirosis pathogenesis. The disadvantages of C3H/HeJ mouse model are that it is considered slightly immunocompromised (89) and rather expensive. C3H/HeNJ mice, a result of hybridization mating between C3H/HeJ (TLR4 defective mice) and C3H/HeN (wild-type TLR4) mice, are commercially available at reasonable price.…”

Section: Introductionmentioning

confidence: 99%

Comparative response of dendritic cells to pathogenic and non-pathogenic leptospira spp.

Krangvichian

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Leptospirosis is a zoonotic disease caused by pathogenic Leptospira species, which consist of three groups and contain 4 subclades: pathogenic strains (P1), intermediate strains (P2), and non-pathogenic strains (S1 and S2). Infection of pathogenic leptospires occurs through contact with contaminated environments. Then, leptospires present in the bloodstream disseminate to target organs. Nowadays, the knowledge of the immune response to pathogenic and non-pathogenic leptospires during early infection is still limited. Due to the limitation of a susceptible host, immunological reagents for hamsters and strains of mice are limited and not available. Dendritic cells are the first cells to encounter leptospires found in the skin, while monocyte-derived dendritic cells (MoDCs) are found in the bloodstream in inflammatory areas. Therefore, the role of dendritic cells is important for leptospires infection. The major goal of this study is to compare the responses of dendritic cells to pathogenic and non-pathogenic leptospires in susceptible hosts. Five-week-old C3H/HeNJ mice were infected with either 1x103 or 1x106 inoculum dose of Leptospira interrogans serovar Pomona. All infected mice survived and did not develop an acute lethal infection. However, C3H/HeNJ mice infected with 1x106 cells showed kidney colonization of leptospires and pathological changes in the lung and kidney, including kidney fibrosis and small glomerular size. Therefore, C3H/HeNJ mice may be used as an animal model for sublethal leptospirosis. Human monocyte-derived dendritic cells were used as an in vitro model to study the response of dendritic cells to leptospires. Immature MoDCs phagocytosed a limited number of both pathogenic and non-pathogenic strains. The pathogenic strains significantly induced apoptotic cells, impaired maturation, and increased IL-10 production. MoDC impairment inhibited naive CD4 proliferation, produced IL-10, and induced regulatory T cells. In contrast, the non-pathogenic strains induced MoDC maturation, and increased IL-12p70 and IL-10 production, leading to CD4 proliferation, IFN- ? production, and Th1 cell induction. Moreover, the transcriptome analysis found that the pathogenic strains were associated with genes regulating apoptosis and regulatory T cells, while non-pathogenic strains were associated with genes regulating the maturation of MoDCs and Th1 cells. Therefore, the pathogenic strains might reduce the MoDC maturation and induce T reg, resulting in inefficient elimination of pathogenic leptospiral infection. In contrast, the non-pathogenic strains might increase MoDC maturation and Th1 response, leading to bacterial clearance

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Role of TLR4 in persistentLeptospira interrogansinfection: a comparativein vivostudy in mice

Cited by 3 publications

References 26 publications

Hematogenous dissemination of pathogenic and non-pathogenic Leptospira in a short-term murine model of infection

Hematogenous dissemination of pathogenic and non-pathogenic Leptospira in a short-term murine model of infection

A Mouse Model of Sublethal Leptospirosis: Protocols for Infection with Leptospira Through Natural Transmission Routes, for Monitoring Clinical and Molecular Scores of Disease, and for Evaluation of the Host Immune Response

Comparative response of dendritic cells to pathogenic and non-pathogenic leptospira spp.

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