Your search keyword '"Madsen, Søren M."' showing total 5 results

1. Compliance with Guidelines on Thromboprophylaxis for Acutely Admitted Medical Patients

Author

Freund, Nanna, Sabroe, Jonas E., Bytzer, Peter, and Madsen, Søren M.

Published

2018

2. Expression, Purification and Characterization of GMZ2’.10C, a Complex Disulphide-Bonded Fusion Protein Vaccine Candidate against the Asexual and Sexual Life-Stages of the Malaria-Causing Plasmodium falciparum Parasite

Author

Mistarz, Ulrik H., Singh, Susheel K., Nguyen, Tam T. T. N., Roeffen, Will, Yang, Fen, Lissau, Casper, Madsen, Søren M., Vrang, Astrid, Tiendrebeogo, Régis W., Kana, Ikhlaq H., Sauerwein, Robert W., Theisen, Michael, and Rand, Kasper D.

Published

2017

3. Molecular Switch Controlling Expression of the Mannose-Specific Adhesin, Msa, in Lactobacillus plantarum

Author

Holst, Bjørn, primary, Glenting, Jacob, additional, Holmstrøm, Kim, additional, Israelsen, Hans, additional, Vrang, Astrid, additional, Antonsson, Martin, additional, Ahrné, Siv, additional, and Madsen, Søren M., additional

Published

2019

4. Expression, Purification and Characterization of GMZ2'.10C, a Complex Disulphide-Bonded Fusion Protein Vaccine Candidate against the Asexual and Sexual Life-Stages of the Malaria-Causing Plasmodium falciparum Parasite

Author

Mistarz, Ulrik H, Singh, Susheel K, Nguyen, Tam T T N, Roeffen, Will, Yang, Fen, Lissau, Casper, Madsen, Søren M, Vrang, Astrid, Tiendrebeogo, Régis W, Kana, Ikhlaq H, Sauerwein, Robert W, Theisen, Michael, Rand, Kasper D, Mistarz, Ulrik H, Singh, Susheel K, Nguyen, Tam T T N, Roeffen, Will, Yang, Fen, Lissau, Casper, Madsen, Søren M, Vrang, Astrid, Tiendrebeogo, Régis W, Kana, Ikhlaq H, Sauerwein, Robert W, Theisen, Michael, and Rand, Kasper D

Abstract

PURPOSE: Production and characterization of a chimeric fusion protein (GMZ2'.10C) which combines epitopes of key malaria parasite antigens: glutamate-rich protein (GLURP), merozoite surface protein 3 (MSP3), and the highly disulphide bonded Pfs48/45 (10C). GMZ2'.10C is a potential candidate for a multi-stage malaria vaccine that targets both transmission and asexual life-cycle stages of the parasite.METHODS: GMZ2'.10C was produced in Lactococcus lactis and purified using either an immunoaffinity purification (IP) or a conventional purification (CP) method. Protein purity and stability was analysed by RP-HPLC, SEC-HPLC, 2-site ELISA, gel-electrophoresis and Western blotting. Structural characterization (mass analysis, peptide mapping and cysteine connectivity mapping) was performed by LC-MS/MS.RESULTS: CP-GMZ2'.10C resulted in similar purity, yield, structure and stability as compared to IP-GMZ2'.10C. CP-GMZ2'.10C and IP-GMZ2'.10C both elicited a high titer of transmission blocking (TB) antibodies in rodents. The intricate disulphide-bond connectivity of C-terminus Pfs48/45 was analysed by tandem mass spectrometry and was established for GMZ2'.10C and two reference fusion proteins encompassing similar parts of Pfs48/45.CONCLUSION: GMZ2'.10C, combining GMZ2' and correctly-folded Pfs48/45 can be produced by the Lactoccus lactis P170 based expression system in purity and quality for pharmaceutical development and elicit high level of TB antibodies. The cysteine connectivity for the 10C region of Pfs48/45 was revealed experimentally, providing an important guideline for employing the Pfs48/45 antigen in vaccine design.

Published

2017

5. Identification of a molecular switch that controls expression of the mannose-specific adhesin, Msa, in Lactobacillus plantarum.

Author

Holst, Bjørn, Glenting, Jacob, Holmstrøm, Kim, Israelsen, Hans, Vrang, Astrid, Antonsson, Martin, Ahrné, Siv, and Madsen, Søren M.

Subjects

*LACTOBACILLUS, *LACTOBACILLUS plantarum, *MOLECULAR switches, *LACTIC acid bacteria, *DNA primers, *DNA analysis, *BACTERIAL cell surfaces

Abstract

Some lactic acid bacteria, especially Lactobacillus spp., possess adhesive properties enabling colonization of the human gastrointestinal tract. Two probiotic Lactobacillus plantarum strains, WCSF1 and 299v, display highly different mannose-specific adhesion, with L. plantarum 299v being superior to L. plantarum WCFS1 based on a yeast agglutination assay. A straightforward correlation between the mannose adhesion capacity and domain composition of the mannose-specific adhesin (Msa) in the two strains has not been demonstrated previously. In this study, we analyzed the promoter regions upstream of the msa gene encoding a mannose-specific adhesin in these two strains. The promoter region was mapped by primer extension and DNA sequence analysis, and only a single nucleotide change was identified between the two strains. However, Northern blot analysis showed a stronger msa transcript band in 299v than in WCFS1 correlating with the different adhesion capacities. During the establishment of a high-throughput yeast agglutination assay, we isolated variants of WCFS1 that displayed a very strong mannose-specific adhesion phenotype. The region upstream of the msa gene in these variants showed an inversion of a 104-bp fragment located between two perfectly inverted repeats present in the untranslated leader region. The inversion disrupts a strong hairpin structure that otherwise most likely would terminate the msa transcript. In addition, the ribosome binding site upstream of the msa gene, which is also masked within this hairpin structure, becomes accessible upon inversion, thereby increasing the frequency of translation initiation in the variant strains. Furthermore, Northern blot analysis showed a higher abundance of the msa transcript in the variants than in the wild type, correlating with a strong-Msa phenotype.IMPORTANCE Probiotic strains possess adhesive properties enabling colonization of the human intestinal tract through interactions between molecules present on the probiotic bacteria and components of the epithelial surface. In Lactobacillus plantarum, interaction is mediated through bacterial surface proteins like Msa, which binds to mannose residues present on the intestinal cells. Such interactions are believed to be important for the health-promoting effects of probiotics, including displacement of pathogens, immunomodulation, and protective effects on the intestinal barrier function. In this study, we have identified a new molecular switch controlling expression of the msa gene in L. plantarum strain WCFS1. Strains with increased msa expression could be valuable in the development and manufacture of improved probiotic products. [ABSTRACT FROM AUTHOR]

Published

2019