Maren Pflüger
Scientist Institute Biotechnology
Dipl.Biol. Maren Pflüger, PhD
Scientist Institute Biotechnology
Institute Biotechnology
- Inflammation
- Cytotoxicity
- Wound healing
- Medical and Pharmaceutical BiotechnologyBachelor of Science in Engineering / full-time
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Extremophiles
Department of Science & Technology
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Etablierung innovativer humaner Tumor-Mimetika für das Screening von bioaktiven Wirkstoffen
Department of Science & Technology
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Biopharm - Isolation bioaktiver Stoffe aus Cyanobakterien
Department of Science & Technology
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Zellbasierte Testsysteme für bioaktive Substanzen
Department of Science & Technology
Hundsberger, H., Koppensteiner, A., Hofmann, E., Ripper, D., Pflüger, M., Stadlmann, V., Klein, C. T., Kreiseder, B., Katzlinger, M., Eger, A., Forster, F., Missbichler, A., & Wiesner, C. (2017): A Screening Approach for Identifying Gliadin Neutralizing Antibodies on Epithelial Intestinal Caco-2 Cells. SLAS discovery : advancing life sciences R & D, 22(8): 1035–1043.
Doi: https://doi.org/10.1177/2472555217697435Al-Harthy, T., Zoghaib, W. M., Pflüger, M., Schöpel, M., Önder, K., Reitsammer, M., Hundsberger, H., Stoll, R., & Abdel-Jalil, R. (2016): Design, Synthesis, and Cytotoxicity of 5-Fluoro-2-methyl-6-(4-aryl-piperazin-1-yl) Benzoxazoles. Molecules, 21(10): 1290.
Doi: https://doi.org/10.3390/molecules21101290Al-Harthy, T., Abdel-Jalil, R., Zoghaib, W., Pflüger, M., Hofmann, E., & Hundsberger, H. (2016): Design and synthesis of benzothiazole schiff bases of potential antitumor activity. Heterocycles, 92(7): 1282-1292.
Doi: https://doi.org/10.3987/COM-16-13471Kapuścik, A., Hrouzek, P., Kuzma, M., Bártová, S., Novák, P., Jokela, J., Pflüger, M., Eger, A., Hundsberger, H., Kopecký, J. (2013): Novel Aeruginosin-865 from Nostoc sp. as a potent anti-inflammatory agent. Chembiochem : a European journal of chemical biology, 14(17): 2329-2337.
Doi: https://doi.org/10.1002/cbic.201300246Kreiseder, B., Orel, L., Bujnow, C., Buschek, S., Pflueger, M., Schuett, W., Hundsberger, H., de Martin, R., Wiesner, C. (2013): α‐Catulin downregulates E‐cadherin and promotes melanoma progression and invasion. International journal of cancer, 132(3): 521-530.
Doi: https://doi.org/10.1002/ijc.27698Pflüger, M., Kapuscik, A., Lucas, R., Koppensteiner, A., Katzlinger, M., Jokela, J., Eger, A., Jacobi, N., Wiesner, C., Hofmann, E., Onder, K., Kopecky, J., Schütt, W., Hundsberger, H. (2013): A combined impedance and AlphaLISA-based approach to identify anti-inflammatory and barrier-protective compounds in human endothelium. Journal of biomolecular screening, 18(1): 67-74.
Doi: https://doi.org/10.1177/1087057112458316Khare, V., Lyakhovich, A., Dammann, K., Lang, M., Borgmann, M., Tichy, B., Pospisilova, S., Luciani, G., Campregher, C., Evstatiev, R., Pflueger, M., Hundsberger, H., & Gasche, C. (2013): Mesalamine modulates intercellular adhesion through inhibition of p-21 activated kinase-1. Biochemical Pharmacology, 85(2): 234-244.
Doi: https://doi.org/10.1016/j.bcp.2012.10.026Amatschek, S., Lucas, R., Eger, A., Pflueger, M., Hundsberger, H., Knoll, C., Grosse-Kracht, S., Schuett, W., Koszik, F., Maurer, D., Wiesner, C. (2011): CXCL9 induces chemotaxis, chemorepulsion and endothelial barrier disruption through CXCR3-mediated activation of melanoma cells. British journal of cancer, 104(3): 469-479.
Doi: https://doi.org/10.1038/sj.bjc.6606056Hundsberger, H., Verin, A., Wiesner, C., Pflüger, M., Dulebo, A., Schütt, W., Lasters, I., Männel, D., Wendel, A., Lucas, R. (2008): TNF: a moonlighting protein at the interface between cancer and infection. Frontiers in Bioscience, 13: 5374-86.
Doi: https://doi.org/10.2741/3087Hundsberger, H., Verin, A., Wiesner, C., Pflüger, M., Dulebo, A., Schütt, W., Lasters, I., Männel, D. N., Wendel, A., & Lucas, R. (2008): TNF: a moonlighting protein at the interface between cancer and infection. Frontiers in bioscience : a journal and virtual library, 13: 5374–5386.
Doi: https://doi.org/10.2741/3087Wiesner, C., Pflueger, M., Kopecky, J., Stys, D., Entler, B., Lucas, R., Hundsberger, H., Schuett, W. (2008): Implementation of ECIS technology for the characterization of potential therapeutic drugs that promote wound-healing. GMS Krankenhaushygiene interdisziplinar, 3(1).
Wiesner, C., Pflüger, M., Kopecky, J., Stys, D., Entler, B., Lucas, R., Hundsberger, H., Schütt, W. (2008): Implementation of ECIS technology for the characterization of potential therapeutic drugs that promote wound-healing. GMS Krankenhaushygiene Interdisziplinär, 3(1): Doc05.
Wiesner, C., Lucas, R., Pflueger, M., Kleber, C., Kopecky, J., Stys, D., Entler, B., Hundsberger, H., Atzler, J., Hrouzek, P., Lukesova, A., Schuett, W., (2007): Endothelial Cell-Based Methods for the Detection of Cyanobacterial Anti- Inflammatory and Wound-Healing Promoting Metabolites. Drug Metabolism Letters, 1(4): 254-260.
Doi: https://doi.org/10.2174/187231207783221385Lucas, R., Hundsberger, H., Pflueger, M., Fischer, B., Morel, D., Braun, C., Wendel, A., Chakraborty, T., Schuett, W., Wiesner, C., Hamacher, J. (2007): The Tumor Necrosis Factor-Derived TIP Peptide: A Potential Anti-Edema Drug. Letters in Drug Design & Discovery, 4(5): 336-340.
Doi: https://doi.org/10.2174%2F157018007780867816