Marika Berardini scite author profile

c-MET/hepatocyte growth factor (HGF) system deregulation is a well-known feature of malignancy in several solid tumors, and for this reason this system and its pathway have been considered as potential targets for therapeutic purposes. In previous manuscripts we reported c-MET/HGF expression and the role in testicular germ cell tumors (TGCTs) derived cell lines. We demonstrated the key role of c-Src and phosphatidylinositol 3-kinase (PI3K)/AKT adaptors in the HGF-dependent malignant behavior of the embryonal carcinoma cell line NT2D1, finding that the inhibition of these onco-adaptor proteins abrogates HGF triggered responses such as proliferation, migration, and invasion. Expanding on these previous studies, herein we investigated the role of mitogen-activated protein kinase (MAPK)/extracellular signal regulated kinase (ERK) pathways in the HGF-dependent and HGF-independent NT2D1 cells biological responses. To inhibit MAPK/ERK pathways we chose a pharmacological approach, by using U0126 inhibitor, and we analyzed cell proliferation, collective migration, and chemotaxis. The administration of U0126 together with HGF reverts the HGF-dependent activation of cell proliferation but, surprisingly, does not exert the same effect on NT2D1 cell migration. In addition, we found that the use of U0126 alone significantly promotes the acquisition of NT2D1 «migrating phenotype», while collective migration of NT2D1 cells was stimulated. Notably, the inhibition of ERK activation in the absence of HGF stimulation resulted in the activation of the AKT-mediated pathway, and this let us speculate that the paradoxical effects obtained by using U0126, which are the increase of collective migration and the acquisition of partial epithelium–mesenchyme transition (pEMT), are the result of compensatory pathways activation. These data highlight how the specific response to pathway inhibitors, should be investigated in depth before setting up therapy.

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Microgravity Exposure Induces Antioxidant Barrier Deregulation and Mitochondrial Structure Alterations in TCam-2 Cells

Gesualdi

Berardini

Ferranti

et al. 2023

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Microgravity-Induced Metabolic Response in 2D and 3D TCam-2 Cell Cultures

Morabito

Guarnieri

Berardini

et al. 2023

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Microgravity Exposure Induces Antioxidant Barrier Deregulation and Mitochondria Alterations in TCam-2 Cell Spheroids

Berardini¹,

Gesualdi²,

Morabito³

et al. 2023

Preprint

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One of the hallmarks of microgravity-induced effects in several cellular models is represented by the alteration of oxidative balance with the consequent accumulation of Reactive Oxygen Species (ROS). It is well known that male germ cells are sensitive to oxidative stress and to changes of gravitational force even if published data on germ cell models are scarce. To gain more insights into the mechanisms of male germ cell response to altered gravity, a 3D cell culture model has been established from TCam-2 cells, a seminoma-derived cell line considered the only human cell line available to study in vitro mitotically active human male germ cells. TCam-2 cell spheroids were cultured for 24 hours under unitary gravity (Ctr) or simulated microgravity (s-microgravity) conditions, these last ones were obtained using the Random Positioning Machine (RPM). A significant increase in intracellular ROS and mitochondria superoxide anion levels has been observed after RPM exposure. In line with these results a trend of protein and lipid oxidation increase, and increased pCAMKII expression levels were observed after RPM exposure. The ultrastructural analysis by Transmission Electron Microscopy revealed that RPM-exposed mitochondria appeared enlarged and, even if seldom, disrupted. Notably, even the expression of the main enzymes involved in the redox homeostasis appears modulated by RPM exposure in a compensatory way, being GPX1, NCF1, and CYBB downregulated, whereas NOX4 and HMOX1 upregulated. Interestingly, HMOX1 is involved in the heme catabolism of mitochondria cytochromes, and therefore the positive modulation of this marker can be associated to the observed mitochondria alteration. All together, these data demonstrate TCam-2 spheroid sensitivity to acute SM exposure and indicate the capability of these cells to trigger compensatory mechanisms that allow to overcome the exposure to altered gravitational force.

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