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Department of Pathology


  • CSPG4

    The role of chondroitin sulfate proteoglycan 4 in the development of multidrug tolerance in melanoma cells

    • Project Number: LSC15_007
    • Project Lead: Christine Hafner, Karl Landsteiner University of Health Sciences / Division of Dermatology and Venereal Diseases (University Hospital St. Pölten)
    • Project Partner: Karl Landsteiner University of Health Sciences / Institute of Pathology (University Hospital St. Pölten), Karl Landsteiner University of Health Sciences / Institute of Pathology (University Hospital Krems), Medical University of Vienna / Institute of Pathophysiology and Allergy Research, University of Queensland / Dermatology Research Centre
    • Duration: 48 months starting from 01.11.2016


    Malignant melanoma is the most frequent cause of skin cancer-related deaths. Despite the progress in understanding the biology of this disease, it still remains a significant clinical problem. Melanoma is often associated with activating mutations in the BRAF gene at the amino acid position 600, which results in an uncontrolled activation of the MAP-kinase pathway and - as a consequence - leads to increased cell proliferation and migration. Although several BRAF inhibitors, such as vemurafenib, have been proven to be highly effective in inhibiting BRAFV600 mutated melanomas, resistant-associated secondary mutations, which reactivate alternative survival pathways, often occur. We have recently reported on the response of chondroitin sulfate proteoglycan 4 (CSPG4)-specific Abs to enhance the anti-proliferative effects of vemurafenib. These data implied that the microenvironment is important in determining the effect of targeting CSPG4 on cell migration and invasion and suggest a role for CSPG4 in the phenotypic plasticity of melanoma cells and the emergence of a transient drug-resistant state. Central to the model of stress-induced drug tolerance resulting in multi-drug resistant cancer cells called induced-drug tolerant cells (IDTCs) is their propensity to develop colonies for which cell adhesion is crucial. Based on these findings of cell adhesion and cell motility being crucial for early drug resistance we propose that anti-CSPG4 antibodies, which have shown promising results in two different animal models, prevent or delay IDTC formation in mutant BRAF melanoma cells if combined with standard treatment modalities such as BRAF and MEK inhibitors. During this project we will validate this hypothesis with in vitro and in vivo models of melanoma, we will analyse changes on protein and gene expression levels induced by these treatment modalities and we will validate these experimental data on patients´-derived melanoma samples. Targeting IDTCs with anti-CSPG4 antibodies could be a crucial step for the prevention of acquired drug resistance.


  1. 17 Sep

    International Skills Lab Symposium 2020

    17. September 2020, 09:00 - 19. September 2020, 18:00
    Karl Landsteiner Privatuniversität für Gesundheitswissenschaften, Skills Lab, Trakt Y
  2. 14 Mar

    Open House - March 2020 - CANCELLED

    14. March 2020, 10:00 - 14:00
    Karl Landsteiner University, Dr.-Karl-Dorrek-Straße 30,3500 Krems, Trakt Y, Erdgeschoß
  3. 27 Feb

    Neurophysiology symposium: Ion channels in nerve cells and associated diseases

    27. February 2020, 15:30 - 18:30
    Karl Landsteiner University of Health Sciences, Wing Y, Auditorium