Mom is that you? Proteomic approach to assess the relationship between mesenchymal stem cells and Ewing´s sarcoma cells: tracking the cell of origin

VALENZUELA ALVAREZ, MATIAS; MATOS, BRUNO; MAKIYA, MÓNICA; CORREA, ALEJANDRO; BOLONTRADE, MARCELA F.

Congreso; Reunión Conjunta de Sociedades de Biociencias, LXV Reunión Anual SAIC, Sociedad Argentina de Investigación Clínica. SAI. SAFIS; 2020

SAIC - SAI - SAFIS

Ewing?s sarcoma (ES) is a primitive neuroectodermal tumor that mostly affects children and young adults between 5 and 30 years. Understanding the biology and mechanisms involved in ES growth and progression may lead to the identification of new therapeutic targets. Previous results from our group have shown that a functional link exists between ES and bone marrow (BM)-derived stem cells. In spite of its characterized molecular pathology, many ES development mechanistic aspects remain unknown, without a well-defined etiology, and there is a need to elucidate mechanisms associated to tumor cell survival and cancer progression. Further, markers associated to clinical progression need to be identified. Given that mesenchymal stem cells (MSC) play a central role in regulating osteogenesis and hematopoiesis, sharing functional and hierarchical relationship to ES, we undertook a proteomic analysis with a shotgun approach aimed at comparing BM-MSC and TC71 ES cells. We identified 565 proteins shared by BM-MSC and TC71 cells, while TC71 had 628 and BM-MSC 484 unique proteins. Gene ontology analysis revealed that major differences were found in metabolism pathways, with emphasis in the citric acid cycle, electron transport and ATP synthesis that may relate to the aggressiveness of the disease in terms of rapid growth and metastases development after diagnosis. We also found differences related to protein cellular distribution, with a higher percentage of mitochondrial proteins in ES cells (43,71% TC71 vs 27,86% BM-MSCs), pointing that metabolism governs major divergences in ES cells. In terms of the ES signature EWS-FLl1 translocation that leads to cluster ES tumors as rather homogeneous, further exploration on the transcriptional activity of this oncoprotein in relation to the elusive cell of origin, will lead to improve the management of this sarcoma in soft tissues other than bone, as well as to identify markers associated to progression and therapy response.