Lehrstuhl für Physiologische Chemie

    Research Meierjohann group

    Welcome to the Meierjohann lab!

    Current research: Signal transduction in melanoma formation

    Melanoma is one the deadliest forms of skin cancer, and the lifetime risk for developing melanoma in Europe and Northern America is between 1:75 and 1:100. Once metastasised, the chances of healing are rather slim. A better understanding of the tumor-relevant signaling events is therefore indespensable to be able to hit the tumor at its sensitive nodes. Targeted therapy with inhibitors of the RAF/MEK/MAPK pathway is nowadays routinely applied in the clinic, but invariably results in the development of resistance and tumor relapse. Our group works on signal transduction events in melanoma under normal conditions and after drug exposure in order to identify essential druggable targets which enhance the anti-tumorigenic efficacy.

    Specifically, our work encompasses the following topics:

    1)    Intersection nodes of the MAPK pathway

    Most melanoma oncogenes lead to the aberrant activation of the MAP kinase pathway. We examine the relevance of MAPK signaling for pro-tumorigenic events and investigate the cellular plasticity after inhibition of the RAF/MEK/MAPK pathway with the aim of optimizing targeted therapy (Read more: Targeted therapy: Pathway inhibition and crosstalk).

    2)   Identification of novel drug targets

    Although reactive oxygen species have pro-tumorigenic features when produced at low levels, high ROS expression leads to cellular senescence and apoptosis particularly in tumor cells. We are using different melanoma models to investigate the role of ROS in melanoma initiation and maintenance. By this means, we could recently identify the cysteine metabolism as promising druggable target in melanoma (Read more: Identification of novel targets: The cysteine metabolism in melanoma development and maintenance).

    Selected Publications

    Funded by:

    IZKF: Interdisciplinary Center for Clinical Research, University of Wurzburg
    www.izkf.ukw.de/Projektbereich B

    DFG: FOR2314: Targeting therapeutic windows in essential cellular processes for tumor therapy
    www.dfg.de

    Contact:

    Prof. Dr. Svenja Meierjohann
    University of Würzburg
    Physiological Chemistry
    Biocenter Am Hubland
    97074 Würzburg
    Germany
    svenja.meierjohann@biozentrum.uni-wuerzburg.de
    Tel. +49 - (0)931-31 81348

    Kontakt

    Lehrstuhl für Physiologische Chemie
    Am Hubland
    97074 Würzburg

    Tel.: +49 931 31-84148
    E-Mail

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    Hubland Süd, Geb. B1 Hubland Nord, Geb. 32 Julius-von-Sachs-Platz 2 Fabrikschleichach Hubland Süd, Geb. B2 Campus Medizin