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Publications

by Keyword: Transdifferentiation

Villasante, Aranzazu, Lopez-Martinez, Maria Jose, Quinonero, Gema, Garcia-Lizarribar, Andrea, Peng, Xiaofeng, Samitier, Josep, (2024). Microfluidic model of the alternative vasculature in neuroblastoma In Vitro Models 3, 49-63

Neuroblastoma (NB) is a highly vascularized pediatric tumor arising from undifferentiated neural crest cells early in life, exhibiting both traditional endothelial-cell-driven vasculature and an intriguing alternative vasculature. The alternative vasculature can arise from cancer cells undergoing transdifferentiation into tumor-derived endothelial cells (TEC), a trait associated with drug resistance and tumor relapse. The lack of effective treatments targeting NB vasculature primarily arises from the challenge of establishing predictive in vitro models that faithfully replicate the alternative vasculature phenomenon. In this study, we aim to recreate the intricate vascular system of NB in an in vitro context, encompassing both types of vascularization, by developing a novel neuroblastoma-on-a-chip model. We designed a collagen I/fibrin-based hydrogel closely mirroring NB's physiological composition and tumor stiffness. This biomaterial created a supportive environment for the viability of NB and endothelial cells. Implementing a physiological shear stress value, aligned with the observed range in arteries and capillaries, within the microfluidic chip facilitated the successful development of vessel-like structures and triggered transdifferentiation of NB cells into TECs. The vascularized neuroblastoma-on-a-chip model introduced here presents a promising and complementary strategy to animal-based research with a significant capacity for delving into NB tumor biology and vascular targeting therapy.

JTD Keywords: 3d tumor model, Angiogenesis, Endothelial-cells, Microfluidic device, Neuroblastoma, Origi, Transdifferentiation, Tumor, Tumor-derived endothelial cells, Tumor-on-a-chip, Vasculature


Perán, M., Sánchez-Ferrero, A., Tosh, D., Marchal, J. A., Lopez, E., Alvarez, P., Boulaiz, H., Rodríguez-Serrano, F., Aranega, A., (2011). Ultrastructural and molecular analyzes of insulin-producing cells induced from human hepatoma cells Cytotherapy , 13, (2), 193-200

Background aims. Diabetes type I is an autoimmune disease characterized by the destruction of pancreatic insulin-producing (beta-) cells and resulting in external insulin dependence for life. Islet transplantation represents a potential treatment for diabetes but there is currently a shortage of suitable organs donors. To augment the supply of donors, different strategies are required to provide a potential source of beta-cells. These sources include embryonic and adult stem cells as well as differentiated cell types. The main goal of this study was to induce the transdifferentiation (or conversion of one type cell to another) of human hepatoma cells (HepG2 cells) to insulin-expressing cells based on the exposure of HepG2 cells to an extract of rat insulinoma cells (RIN). Methods. HepG2 cells were first transiently permeabilized with Streptolysin O and then exposed to a cell extract obtained from RIN cells. Following transient exposure to the RIN extract, the HepG2 cells were cultured for 3 weeks. Results. Acquisition of the insulin-producing cell phenotype was determined on the basis of (i) morphologic and (ii) ultrastructural observations, (iii) immunologic detection and (iv) reverse transcription (RT)-polymerase chain reaction (PCR) analysis. Conclusions. This study supports the use of cell extract as a feasible method for achieve transdifferentiation of hepatic cells to insulin-producing cells.

JTD Keywords: Beta-cells, Diabetes, Insulin-producing cells, Transdifferentiation