Factors influencing the cell adhesion and invasion capacity of Mycoplasma gallisepticum

Fürnkranz, Ursula; Siebert-Gulle, Karin; Rosengarten, Renate; Szostak, Michael P.

doi:10.1186/1751-0147-55-63

Cited by 35 publications

(24 citation statements)

References 56 publications

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“…The ability of M. agalactiae to invade mammalian cells was investigated by infecting three different mammalian cell lines with the pathogenic type strain PG2. Apart from HeLa, which is a standard epithelial cell line used in many mycoplasma invasion studies ( Andreev et al, 1995; Winner et al, 2000; Yavlovich et al, 2004; Marques et al, 2010; Fürnkranz et al, 2013; Hopfe et al, 2013 ), gentamicin invasion assays were also performed on cultured ruminant cells, namely BEND and BLF. PG2 cells were incubated with these mammalian cells at an MOI of 10–30 for 4, 8, 16 and 24 h before subjecting them to gentamicin treatment to kill extracellular bacteria and then directly plated onto SP4 agar to enumerate viable intracellular bacteria by cfu counts.…”

Section: Resultsmentioning

confidence: 99%

“…Mycoplasmas are generally considered extracellular pathogens although in the last decades there have been quite a few reports providing sufficient evidence for some of these species to be capable of invading eukaryotic host cells ( Fürnkranz et al, 2013 ). However, for M. agalactiae , which is well known for its chronic and persistent infections, cell invasion, and for that matter even a precise or direct account of its cytadherence capability, considering adherence to be a prerequisite for invasion, is yet to come.…”

Section: Discussionmentioning

confidence: 99%

“…It is thus clear that like many other bacterial pathogens, the division between intracellular and extracellular mycoplasmas is becoming increasingly blurred as more and more pathogens originally believed to be extracellular are now shown to have alternative intracellular lifestyles ( Bower et al, 2005; Fürnkranz et al, 2013; Lamberti et al, 2013 ). This alternative capacity of M. agalactiae , even if it is exhibited by a very small subpopulation of total infected cells, might provide the pathogen with a gross advantage at the population level to hide from antibiotics and host immune responses and to navigate through the host body to reestablish infection in new host niches, thus causing persistent infections that are difficult to eradicate.…”

Section: Discussionmentioning

confidence: 99%

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In vitro and in vivo cell invasion and systemic spreading of Mycoplasma agalactiae in the sheep infection model

Hegde¹,

Hegde²,

Spergser³

et al. 2014

International Journal of Medical Microbiology

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Generally regarded as extracellular pathogens, molecular mechanisms of mycoplasma persistence, chronicity and disease spread are largely unknown. Mycoplasma agalactiae, an economically important pathogen of small ruminants, causes chronic infections that are difficult to eradicate. Animals continue to shed the agent for several months and even years after the initial infection, in spite of long antibiotic treatment. However, little is known about the strategies that M. agalactiae employs to survive and spread within an immunocompetent host to cause chronic disease. Here, we demonstrate for the first time its ability to invade cultured human (HeLa) and ruminant (BEND and BLF) host cells. Presence of intracellular mycoplasmas is clearly substantiated using differential immunofluorescence technique and quantitative gentamicin invasion assays. Internalized M. agalactiae could survive and exit the cells in a viable state to repopulate the extracellular environment after complete removal of extracellular bacteria with gentamicin. Furthermore, an experimental sheep intramammary infection was carried out to evaluate its systemic spread to organs and host niches distant from the site of initial infection. Positive results obtained via PCR, culture and immunohistochemistry, especially the latter depicting the presence of M. agalactiae in the cytoplasm of mammary duct epithelium and macrophages, clearly provide the first formal proof of M. agalactiae's capability to translocate across the mammary epithelium and systemically disseminate to distant inner organs. Altogether, the findings of these in vitro and in vivo studies indicate that M. agalactiae is capable of entering host cells and this might be the strategy that it employs at a population level to ward off the host immune response and antibiotic action, and to disseminate to new and safer niches to later egress and once again proliferate upon the return of favorable conditions to cause persistent chronic infections.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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In vitro and in vivo cell invasion and systemic spreading of Mycoplasma agalactiae in the sheep infection model

Hegde¹,

Hegde²,

Spergser³

et al. 2014

International Journal of Medical Microbiology

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“…This hypothesis could explain the inconsistent blocking of entry with MDC and CPZ through the switching to another mechanism of M. bovis entry in PECT cells. MDC and CPZ are known to indirectly impact actin dynamics; MDC via inhibition of transglutaminases and CPZ through inhibition of phospholipase C [ 54 ]. These chemicals may also potentially interfere to a various extent with an alternative mechanism of cell entry requiring actin assembly and dynamics.…”

Section: Discussionmentioning

confidence: 99%

Invasion and persistence of Mycoplasma bovis in embryonic calf turbinate cells

Bürki

Gaschen

Stoffel

et al. 2015

Vet Res

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Mycoplasma bovis is a wall-less bacterium causing bovine mycoplasmosis, a disease showing a broad range of clinical manifestations in cattle. It leads to enormous economic losses to the beef and dairy industries. Antibiotic treatments are not efficacious and currently no efficient vaccine is available. Moreover, mechanisms of pathogenicity of this bacterium are not clear, as few virulence attributes are known. Microscopic observations of necropsy material suggest the possibility of an intracellular stage of M. bovis. We used a combination of a gentamicin protection assay, a variety of chemical treatments to block mycoplasmas entry in eukaryotic cells, and fluorescence and transmission electron microscopy to investigate the intracellular life of M. bovis in calf turbinate cells. Our findings indicate that M. bovis invades and persists in primary embryonic calf turbinate cells. Moreover, M. bovis can multiply within these cells. The intracellular phase of M. bovis may represent a protective niche for this pathogen and contribute to its escape from the host’s immune defense as well as avoidance of antimicrobial agents.Electronic supplementary materialThe online version of this article (doi:10.1186/s13567-015-0194-z) contains supplementary material, which is available to authorized users.

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“…Given that we have no knowledge of the progenitor poultry strain at the origin of the house finch clade of M. gallisepticum, we cannot use R_low (or R_high) as a representative ancestral strain. Rather, R_low and R_high were chosen as references in our experiments because they are well characterised, and many of their virulence related attributes, representing those that we wished to investigate in the house finch strain, have been comprehensively studied 18,22,[34][35][36][37][38][39] . We used the HF_1994 strain to characterise the virulence phenotype at the point of outbreak because it represents the earliest strain collected following first observation of disease in the house finch, and because its genome has been sequenced (GenBank accession number CP003506) 31 .…”

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confidence: 99%

Multiple differences in pathogen-host cell interactions following a bacterial host shift

Dowling

Hill

Bonneaud

2020

Sci Rep

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Novel disease emergence is often associated with changes in pathogen traits that enable pathogen colonisation, persistence and transmission in the novel host environment. While understanding the mechanisms underlying disease emergence is likely to have critical implications for preventing infectious outbreaks, such knowledge is often based on studies of viral pathogens, despite the fact that bacterial pathogens may exhibit very different life histories. Here, we investigate the ability of epizootic outbreak strains of the bacterial pathogen, Mycoplasma gallisepticum, which jumped from poultry into North American house finches (Haemorhous mexicanus), to interact with model avian cells. We found that house finch epizootic outbreak strains of M. gallisepticum displayed a greater ability to adhere to, invade, persist within and exit from cultured chicken embryonic fibroblasts, than the reference virulent (R_low) and attenuated (R_high) poultry strains. Furthermore, unlike the poultry strains, the house finch epizootic outbreak strain HF_1994 displayed a striking lack of cytotoxicity, even exerting a cytoprotective effect on avian cells. Our results suggest that, at epizootic outbreak in house finches, M. gallisepticum was particularly adept at using the intra-cellular environment, which may have facilitated colonisation, dissemination and immune evasion within the novel finch host. Whether this high-invasion phenotype is similarly displayed in interactions with house finch cells, and whether it contributed to the success of the host shift, remains to be determined.Stop Solution provided with the kit. Absorbance readings were made at 490 nm (Molecular Devices SpectraMax). Background was subtracted from the experimental samples using the control medium containing M. gallisepticum sample values. Percentage cytotoxicity was calculated as follows: % cytotoxicity = (Infected cells − Untreated cells)/(Total Maximum LDH − Untreated cells) × 100. Statistical analysis.All statistical analyses were conducted in R 75 . We tested for differences in the ability of the M. gallisepticum strains HF_1994, R_low and R_high to: associate with, invade, adhere to and exit DF-1 cells by running one way ANOVA with percentage cell association, invasion, adherence or avian cell exit (as appropriate) as the response variable and M. gallisepticum isolate (i.e. HF_1994, R_low or R_high) as the explanatory term. Post hoc comparisons were carried out using the Tukey HSD test. Differences in cytotoxicity were modelled using a one-way ANOVA, with percent cytotoxicity (relative to untreated cells) as the response variable, and with cell treatment (i.e. infection with HF_1994, R_low, R_high or untreated control) as the explanatory term. All figures were made using ggplot2 76 .

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Factors influencing the cell adhesion and invasion capacity of Mycoplasma gallisepticum

Cited by 35 publications

References 56 publications

In vitro and in vivo cell invasion and systemic spreading of Mycoplasma agalactiae in the sheep infection model

In vitro and in vivo cell invasion and systemic spreading of Mycoplasma agalactiae in the sheep infection model

Invasion and persistence of Mycoplasma bovis in embryonic calf turbinate cells

Multiple differences in pathogen-host cell interactions following a bacterial host shift

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