Unconventional Protein Secretion (UPS)
Two types of non-classical protein transport to the cell surface of eukaryotic cells have been described; processes that collectively have been termed 'Unconventional Protein Secretion' (UPS). The first type is represented by integral membrane proteins that can reach the cell surface in a Golgi-independent manner. The second type is being used by soluble secretory proteins that exit cells without any involvement of the endoplasmic reticulum and the Golgi system.
While integrins are an example for membrane proteins transported by unconventional means, the class of soluble unconventional secretory proteins includes interleukin family members, fibroblast growth factors, macrophage migration inhibitory factor, galectins and acyl-CoA binding protein, macromolecules that are secreted from cells to regulate the immune response, cell growth and differentiation as well as angiogenesis. This project will collaborate to elucidate these “unconventional pathways of protein secretion” at the molecular level. We will use advanced techniques such as iTRAQ and SILAC proteomics as well as genome-wide screening using RNA interference to identify essential components and to reveal the mechanisms regulating unconventional protein secretion.
Project Leader:
Professor Walter Nickel, Heidelberg University Biochemistry Center, Heidelberg, Germany
Principal Investigators:
Dr. Hans-Dietmar Beer, Institute of Cell Bilogy ETH Zürich, Switerland
Professor Catherine Rabouille, Department of Cell Biology, Utrecht, The Netherlands
Associated Partner:
Professor Vivek Malhotra, Barcelona, Spain
