Detection of a new erm(X)-mediated antibiotic resistance in Egyptian cutaneous propionibacteria

El-Mahdy, Taghrid S., Abdalla, S., El-Domany, R., Mohamed, M.S., Ross, Jeremy I., Snelling, Anna M.

January 2010

no / A total of 107 antibiotic-resistant propionibacteria were isolated from the face of 102 Egyptian acne patients, dermatology staff and controls. Erythromycin-clindamycin-resistant propionibacteria were chosen to detect erm(X) gene and it was detected in 29 of 107 (27%) strains. However, just 7 strains had IS1249I, 3 of them had also Tn5432. The erm(X) gene which is not carried on Tn5432 confers inducible resistance to telithromycin by erythromycin or clindamycin. The DNA sequences of the PCR amplification products of this new erm(X)-mediated antibiotic resistance showed >99% identity to the erm(X) gene isolated from a Corynebacterium jeikeium. Southern blotting analysis of the erm(X)-specific probe shows that there were two copies of this resistance gene integrated within the chromosomal DNA. This is the first report of erm(X) being carried by Propionibacterium acnes outside Europe. Whilst the gene is associated with Tn5432 in some strains, the data suggests other genetic element carrying erm(X). The high carriage of erm(X) may affect the efficacy of clindamycin and macrolides for acne treatment in Egypt. / Egyptian Ministry of Higher Education

Acne

Clindamycin

Erm(X)

Erythromycin

Propionibacteria

Resistance, bacterial

Genetics, bacteria

Development of a Microbial Fuel Cell Cocatalyst with Propionibacterium freudenreichii ssp. shermanii

Johnson, Jessica Virginia

20 November 2018

Addressing the low power generation of anodic biocatalysts is pertinent to the advancement of microbial fuel cell technology. While Propionibacterium freudenreichii ssp. shermanii has shown potential as a biocatalyst, its incomplete consumption of the anodic substrate is a persistent issue. This research aims to optimize substrate consumption to increase power generation using Propionibacterium freudenreichii ssp. shermanii as a biocatalyst. The effect of coculturing Geobacter sulfurreducens with Propionibacterium freudenreichii ssp. shermanii was investigated. The cocatalyst and pure culture performance was tested in an air-cathode microbial fuel cell. Geobacter sulfurreducens produced the highest maximum power density among the experimental cases. Power density produced by Propionibacterium freudenreichii ssp. shermanii was improved in the air-cathode design compared to previous experiments performed in an H-type design. The novel cocatalyst was shown to produce electricity, however a full characterization to elucidate the contribution to power generation by each microbe would be desirable to investigate.

microbial fuel cell

biocatalyst

Propionibacteria

Geobacter

cocatalyst

renewable energy

clean technology

air-cathode

La protéine de couche de surface SlpB assure la médiation de l’immunomodulation et de l’adhésion chez le probiotique Propionibacterium freudenreichii CIRM-BIA 129. / Surface layer protein SlpB mediates immunodulation and adhesion in the probiotic Propionibacterium freudenreichii CIRM-BIA 129.

Rosa do carmo, Fillipe Luiz

06 September 2018

Propionibacterium freudenreichii est une bactérie Gram-positive bénéfique, traditionnellement utilisée comme levain d’affinage fromager, qui bénéficie du statut GRAS (Generally Recognized As Safe). P. freudenreichii a révélé un effet immunomodulateur qui a été confirmé in vivo par la capacité à protéger des souris d’une colite aigüe induite. L’effet anti-inflammatoire est cependant hautement souche-dépendant. Il est dû, au moins en partie, à des composés de surface clés qui favorisent ces effets probiotiques. Les bactéries Gram-positives, y compris P. freudenreichii, peuvent être recouvertes d’une couche extérieure protéique, appelée « surface-layer », paracristalline, et formée par l’autoassemblage de protéines dites de S-layer (Slps). Les Slps, dans différentes bactéries, sont impliquées dans plusieurs caractéristiques probiotiques, telles que l’adhésion aux cellules de l’hôte et au mucus, la persistance dans l’intestin, ou encore l’immunomodulation. Le but de cette étude est d’étudil’immunomodulation. Le but de cette étude est d’étudier, chez une souche probiotique de P. freudenreichii, la protéine de surface qui joue le principal rôle dans les interactions probiotiques avec l’hôte. La souche P. freudenreichii CIRM-BIA 129, récemment reconnue comme immunomodulatrice prometteuse, possède plusieurs protéines de surface Slps, y compris SlpB. Dans la présente étude, l’inactivation du gène correspondant, dans la souche mutante CB129¿slpB, a provoqué une baisse drastique de l’adhésion aux cellules intestinales épithéliales HT-29, confirmant le rôle clé des Slps dans l’adhési / Propionibacterium freudenreichii is a beneficial Gram-positive bacterium, traditionally used as a cheese ripening starter, with the GRAS status (Generally Recognized As Safe). P. freudenreichii has revealed an immunomodulatory effect confirmed in vivo by the ability to protect mice from induced acute colitis. The anti-inflammatory effect is however highly strain-dependent and due, at least in part, to key surface compounds favouring probiotic effects. Gram-positive bacteria, including P. freudenreichii, can be covered with an external proteinaceous layer called a surface-layer paracrystalin layer and formed by the self-assembly of surface-layer-proteins (Slps). Slps were shown, in different bacteria, to be involved in several probiotics traits, such as adhesion to host cells and mucus, persistence within the gut, or immunomodulation. The aim of this study is to investigate, in a P. freudenreichii probiotic strain, the surface protein that plays the main role in the probioticinteraction with the host. The P. freudenreichii CIRM-BIA 129 strain recently revealed promising immunomodulatory properties and possesses several Slps, including SlpB. In the presented work, inactivation of the corresponding gene, CB129¿slpBa mutant strain, caused a drastic decrease in adhesion to intestinal epithelial HT-29 cells, further evidencing the key role of Slps in cell adhesion. we investigated immune response of HT-29 cells towards P. freudenreichii CIRM-BIA 129 and CB129¿slpB. The wild type strain mainly induced expression of the immunomodulatory IL-10 by the cells. Interestingly, th

Propionibactéries

Probiotique

Immunomodulation

Protéine de S-Layer

Mucosite

Propionibacteria

Probiotic

Immunomodulation

S-Layer protein

Mucositis.

Metabolic Engineering of Propionibacteria for Enhanced Propionic Acid and n-Propanol Fermentative Production

Ammar, Ehab Mohamed

27 September 2013

No description available.

Microbiology

Chemical Engineering

Biochemistry