2013, Kinzebach, Sven, Dietz, Lisa, Klüter, Harald, Thierse, Hermann-Josef, Bieback, Karen

Background: Multilineage differentiation, immunomodulation and secretion of trophic factors render mesenchymal stromal cells (MSC) highly attractive for clinical application. Human platelet derivatives such as pooled human platelet lysate (pHPL) and thrombin-activated platelet releasate in plasma (tPRP) have been introduced as alternatives to fetal bovine serum (FBS) to achieve GMP-compliance. However, whereas both pHPL and tPRP support similar proliferation kinetics of lipoaspirate-derived MSC (LA-MSC), only pHPL significantly accelerates bone marrow-derived MSC (BM-MSC) expansion. To identify functionally bioactive factors affecting ex vivo MSC expansion, a differential proteomic approach was performed and identified candidate proteins were evaluated within a bioassay. Results: Two dimensional difference gel electrophoresis (2D-DIGE), MALDI-TOF analyses and complementary Western blotting revealed 20 differential protein species. 14 candidate proteins occured at higher concentrations in pHPL compared to tPRP and 6 at higher concentrations in tPRP. The candidate proteins fibrinogen and apolipoprotein A1 differentially affected LA- and BM-MSC proliferation. In a second set of experiments, reference cytokines known to foster proliferation in FBS were tested for their effects in the human supplements. Interestingly although these cytokines promoted proliferation in FBS, they failed to do so when added to the humanized system. Conclusions: The differential proteomic approach identified novel platelet derived factors differentially acting on human MSC proliferation. Complementary testing of reference cytokines revealed a lack of stimulation in the human supplements compared to FBS. The data describe a new coherent approach to combine proteomic technologies with functional testing to develop novel, humanized, GMP-compliant conditions for MSC expansion.

2014, Linxweiler, Johannes, Kollipara, Laxmikanth, Zahedi, René P., Lampel, Pavel, Zimmermann, Richard, Greiner, Markus

We recently characterized SEC62 as an oncogene in non-small-cell lung cancer (NSCLC). Here we aimed to gain further insight into the molecular mechanisms of the cancer-related functions of this oncogene. We performed 2D-DIGE proteome analysis of tumor material from patients with NSCLC and of HEK293 cells stably overexpressing plasmid-encoded SEC62, combined with investigation of the Sec62 interactome. Furthermore, we analyzed the proteomic effects of siRNA-mediated depletion of the Sec62-interacting protein Sec63. We identified a comprehensive list of differentially regulated proteins, providing new insights into the molecular mechanisms of the cancer-related functions of Sec62 in cell migration, drug resistance, and Ca2+-homeostasis.