Abstract
The resistance of glioblastomas to treatments is mainly the consequence of their invasive capacities. Therefore, in order to better treat these tumors, it is important to understand the molecular mechanisms which are responsible for this behavior. Previous work suggested that gap junction proteins, the connexins, facilitate the aggressive nature of glioma cells. Here, we show that one of them—connexin43 (Cx43)—is implicated in the formation and function of invadopodia responsible for invasion capacity of U251 human glioblastoma cells. Immunofluorescent approaches—combined with confocal analyses—revealed that Cx43 was detected in all the formation stages of invadopodia exhibiting proteolytic activity. Clearly, Cx43 appeared to be localized in invadopodia at low cell density and less associated with the establishment of gap junctions. Accordingly, lower extracellular matrix degradation correlated with less mature invadopodia and MMP2 activity when Cx43 expression was decreased by shRNA strategies. Moreover, the kinetics of invadopodia formation could be dependent on Cx43 dynamic interactions with partners including Src and cortactin. Interestingly, it also appeared that invadopodia formation and MMP2 activity are dependent on Cx43 hemichannel activity. In conclusion, these results reveal that Cx43 might be involved in the formation and function of the invadopodia of U251 glioblastoma cells.
Highlights
The most common brain tumor in adults, glioblastoma, is characterized by a low 5-year survival [1]
In order to assess if U251 cells develop invadopodia and degrade extracellular matrix (ECM), they were seeded on FG-gelatin
Since studies showed that invadopodia and focal adhesions (FAs) share common components, we looked for the presence of focal adhesion kinase (FAK) as a surrogate for positioning FA
Summary
The most common brain tumor in adults, glioblastoma, is characterized by a low 5-year survival (less than 3% for primary glioblastoma or ~10% for secondary glioblastoma) [1]. Such a low curability is mostly the consequence of glioblastoma cells disseminating and infiltrating widely within the brain, rendering the tumor resection incomplete. Several in vitro studies revealed that the expression of the gap junction protein, connexin (Cx43), could favor migration and invasion of brain tumor cells [2,3,4]. Cx43 was initially considered a tumor suppressor, as glioma cell expression of Cx43 decreased their
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