Microbiota-driven interleukin-17 production provides immune protection against invasive candidiasis

Li, Mengmeng; Li, Congya; Wu, Xiuquan; Chen, Tangtian; Ren, Lei; Xu, Banglao; Cao, Ju

doi:10.1186/s13054-020-02977-5

Cited by 11 publications

(5 citation statements)

References 78 publications

(88 reference statements)

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“…Previous studies have consistently indicated that the administration of levofloxacin can disturb the equilibrium of the intestinal microbiota, thereby inducing antibiotic-associated inflammation within the gastrointestinal tract [55]. Moreover, previous research conducted by our team and other scholars has provided evidence that the depletion of the intestinal microbiota resulting from the administration of antimicrobial drugs substantially elevates the likelihood of bacterial infectious diseases [53,54,[72][73][74]. This correlation is closely linked to the reduction of immunoregulatory metabolites derived from the intestinal microbiota.…”

Section: Discussionmentioning

confidence: 64%

Fabrication of levofloxacin-loaded porcine acellular dermal matrix hydrogel and functional assessment in urinary tract infection

Yang,

et al. 2024

J Nanobiotechnol

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Bacterial cystitis, a commonly occurring urinary tract infection (UTI), is renowned for its extensive prevalence and tendency to recur. Despite the extensive utilization of levofloxacin as a conventional therapeutic approach for bacterial cystitis, its effectiveness is impeded by adverse toxic effects, drug resistance concerns, and its influence on the gut microbiota. This study introduces Lev@PADM, a hydrogel with antibacterial properties that demonstrates efficacy in the treatment of bacterial cystitis. Lev@PADM is produced by combining levofloxacin with decellularized porcine acellular dermal matrix hydrogel and exhibits remarkable biocompatibility. Lev@PADM demonstrates excellent stability as a hydrogel at body temperature, enabling direct administration to the site of infection through intravesical injection. This localized delivery route circumvents the systemic circulation of levofloxacin, resulting in a swift and substantial elevation of the antimicrobial agent’s concentration specifically at the site of infection. The in vivo experimental findings provide evidence that Lev@PADM effectively prolongs the duration of levofloxacin’s action, impedes the retention and invasion of E.coli in the urinary tract, diminishes the infiltration of innate immune cells into infected tissues, and simultaneously preserves the composition of the intestinal microbiota. These results indicate that, in comparison to the exclusive administration of levofloxacin, Lev@PADM offers notable benefits in terms of preserving the integrity of the bladder epithelial barrier and suppressing the recurrence of urinary tract infections. Graphical Abstract

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Section: Discussionmentioning

confidence: 64%

Fabrication of levofloxacin-loaded porcine acellular dermal matrix hydrogel and functional assessment in urinary tract infection

Yang,

et al. 2024

J Nanobiotechnol

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“…Many of the microbiota-immune connections noted above were discovered, in part, through the demonstration that these mechanisms of systemic host defense fail when the microbiota is disrupted by antibiotics or absent in GF mice [16][17][18][19][20][21][22][23][24] . Intestinal dysbiosis in both animals and humans has been linked to increased susceptibility to bacterial, viral, and fungal pathogens 20,21,[114][115][116][117] . However, failure of microbiota-dependent host defense mechanisms is not the only consequence of intestinal dysbiosis during infection, as it is now appreciated that dysbiosis can also actively induce pathological systemic inflammation and immune-mediated organ damage in response to infection (ie.…”

Section: Intestinal Dysbiosis and Pathological Systemic Host Response...mentioning

confidence: 99%

Long-distance relationships - regulation of systemic host defense against infections by the gut microbiota

et al. 2022

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“…A systemic candidiasis mouse model was established according to previous studies [20,21], in which the kidney was the primary target organ, and mice developed renal failure and sepsis, and this recapitulated the progressive sepsis seen in humans during severe clinical cases. Firstly, we found that PGRN levels in the kidney, lung, liver, spleen, brain and blood were substantially increased at day 1 and lasted to day 9 after invasive C. albicans infection (Fig 1A).…”

Section: Pgrn Expression Was Up-regulated After C Albicans Infectionmentioning

confidence: 99%

“…immune reactions were an important cause of tissue damage and death in the murine Candida infection model [19][20][21][22]. Despite that PGRN KO mice had similar fungal burden in the kidney, which is the primary infected organ in the systemic candidiasis mouse model, at the early times of C. albicans infection (days 1, 4, and 7), the production of proinflammatory cytokine IL-6, a major cause of sepsis [37,38], in PGRN-deficient mice was significantly lower than that in WT animals.…”

Section: Plos Pathogensmentioning

confidence: 99%

“…Thus, the early decrease in inflammatory mediator production and macrophage/neutrophil recruitment observed in PGRN-deficient mice might contribute to the improvement in renal function and survival after C. albicans infection. On the other hand, PGRN-deficient mice displayed significantly higher production of INF-γ, IL-17A and IL-23 at early times after C. albicans infection, and these cytokines have been identified as protective factors against IC [21,23,40,41]. In fact, PGRN has been shown to be able to inhibit Th1 and Th17 cells, and significantly lower levels of INF-γ and IL-17 were observed in PGRNdeficient mice compared with WT mice in experimental autoimmune encephalomyelitis, experimental autoimmune uveitis or coxsackievirus-B3-induced viral myocarditis [42][43][44].…”

Section: Plos Pathogensmentioning

confidence: 99%

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Progranulin aggravates lethal Candida albicans sepsis by regulating inflammatory response and antifungal immunity

Liu

Lai

et al. 2022

PLoS Pathog

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Candida albicans is the most frequent pathogen of fungal sepsis associated with substantial mortality in critically ill patients and those who are immunocompromised. Identification of novel immune-based therapeutic targets from a better understanding of its molecular pathogenesis is required. Here, we reported that the production of progranulin (PGRN) levels was significantly increased in mice after invasive C.albicans infection. Mice that lacked PGRN exhibited attenuated kidney injury and increased survival upon a lethal systemic infection with C. albicans. In mice, PGRN deficiency protected against systemic candidiasis by decreasing aberrant inflammatory reactions that led to renal immune cell apoptosis and kidney injury, and by enhancing antifungal capacity of macrophages and neutrophils that limited fungal burden in the kidneys. PGRN in hematopoietic cell compartment was important for this effect. Moreover, anti-PGRN antibody treatment limited renal inflammation and fungal burden and prolonged survival after invasive C. albicans infection. In vitro, PGRN loss increased phagocytosis, phagosome formation, reactive oxygen species production, neutrophil extracellular traps release, and killing activity in macrophages or neutrophils. Mechanistic studies demonstrated that PGRN loss up-regulated Dectin-2 expression, and enhanced spleen tyrosine kinase phosphorylation and extracellular signal-regulated kinase activation in macrophages and neutrophils. In summary, we identified PGRN as a critical factor that contributes to the immunopathology of invasive C.albicans infection, suggesting that targeting PGRN might serve as a novel treatment for fungal infection.

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Microbiota-driven interleukin-17 production provides immune protection against invasive candidiasis

Cited by 11 publications

References 78 publications

Fabrication of levofloxacin-loaded porcine acellular dermal matrix hydrogel and functional assessment in urinary tract infection

Fabrication of levofloxacin-loaded porcine acellular dermal matrix hydrogel and functional assessment in urinary tract infection

Long-distance relationships - regulation of systemic host defense against infections by the gut microbiota

Progranulin aggravates lethal Candida albicans sepsis by regulating inflammatory response and antifungal immunity

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