Intercellular communication is very important for cell development and allows a group of cells to survive as a population. Cancer cells have a similar behavior, presenting the same mechanisms and characteristics of tissue formation. In this article, we model and simulate the formation of different communication channels that allow an interaction between two cells. This is a first step in order to simulate in the future processes that occur in healthy tissue when normal cells surround a cancer cell and to interrupt the communication, thus preventing the spread of malignancy into these cells. The purpose of this study is to propose key molecules, which can be targeted to allow us to break the communication between cancer cells and surrounding normal cells. The simulation is carried out using a flexible bioinformatics platform that we developed, which is itself based on the metaphor chemistry-based model.

Cárdenas García, M., González, P.P., Montagna, S., Cortés, O.S., Caballero, E.H. (2016). Modeling intercellular communication as a survival strategy of cancer cells: An in silico approach on a flexible bioinformatics framework. BIOINFORMATICS AND BIOLOGY INSIGHTS, 10, 5-18 [10.4137/BBi.s38075].

Modeling intercellular communication as a survival strategy of cancer cells: An in silico approach on a flexible bioinformatics framework

MONTAGNA, SARA;
2016

Abstract

Intercellular communication is very important for cell development and allows a group of cells to survive as a population. Cancer cells have a similar behavior, presenting the same mechanisms and characteristics of tissue formation. In this article, we model and simulate the formation of different communication channels that allow an interaction between two cells. This is a first step in order to simulate in the future processes that occur in healthy tissue when normal cells surround a cancer cell and to interrupt the communication, thus preventing the spread of malignancy into these cells. The purpose of this study is to propose key molecules, which can be targeted to allow us to break the communication between cancer cells and surrounding normal cells. The simulation is carried out using a flexible bioinformatics platform that we developed, which is itself based on the metaphor chemistry-based model.
2016
Cárdenas García, M., González, P.P., Montagna, S., Cortés, O.S., Caballero, E.H. (2016). Modeling intercellular communication as a survival strategy of cancer cells: An in silico approach on a flexible bioinformatics framework. BIOINFORMATICS AND BIOLOGY INSIGHTS, 10, 5-18 [10.4137/BBi.s38075].
Cárdenas García, Maura; González, Pedro P; Montagna, Sara; Cortés, Oscar Sánchez; Caballero, Elena Hernández...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/564914
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