Non-Invasive Luciferase Imaging of Type I Interferon Induction in a Transgenic Mouse Model of Biomaterial Associated Bacterial Infections: Microbial Specificity and Inter-Bacterial Species Interactions

Overview

Journal Microorganisms

Specialty Microbiology

Date 2020 Oct 24

PMID 33096869

Citations 2

Authors

Muhammad Imran Rahim

Andreas Winkel

Stefan Lienenklaus

Nico S Stumpp

Szymon P Szafranski

Nadine Kommerein

Elmar Willbold

Janin Reifenrath

Peter P Mueller

Michael Eisenburger

Meike Stiesch

Affiliations

Soon will be listed here.

Abstract

The performance of biomaterials is often compromised by bacterial infections and subsequent inflammation. So far, the conventional analysis of inflammatory processes in vivo involves time-consuming histology and biochemical assays. The present study employed a mouse model where interferon beta (IFN-β) is monitored as a marker for non-invasive rapid detection of inflammation in implant-related infections. The mouse model comprises subcutaneous implantation of morphologically modified titanium, followed by experimental infections with four taxonomically diverse oral bacteria: and (as mono culture or selected mixed-culture). IFN-β expression increased upon infections depending on the type of pathogen and was prolonged by the presence of the implant. IFN-β expression kinetics reduced with two mixed species infections when compared with the single species. Histological and confocal microscopy confirmed pathogen-specific infiltration of inflammatory cells at the implant-tissue interface. This was observed mainly in the vicinity of infected implants and was, in contrast to interferon expression, higher in infections with dual species. In summary, this non-invasive mouse model can be used to quantify longitudinally host inflammation in real time and suggests that the polymicrobial character of infection, highly relevant to clinical situations, has complex effects on host immunity.

Citing Articles

Effect of titanium implants along with silver ions and tetracycline on type I interferon-beta expression during implant-related infections in co-culture and mouse model.

Rahim M, Waqas S, Lienenklaus S, Willbold E, Eisenburger M, Stiesch M Front Bioeng Biotechnol. 2023; 11:1227148.

PMID: 37929187 PMC: 10621036. DOI: 10.3389/fbioe.2023.1227148.

Bacterial-Specific Induction of Inflammatory Cytokines Significantly Decreases upon Dual Species Infections of Implant Materials with Periodontal Pathogens in a Mouse Model.

Rahim M, Winkel A, Ingendoh-Tsakmakidis A, Lienenklaus S, Falk C, Eisenburger M Biomedicines. 2022; 10(2).

PMID: 35203495 PMC: 8869624. DOI: 10.3390/biomedicines10020286.

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