Understanding the PI3K/AKT Anti-Apoptotic Signalling Pathway: a Tuple Space-Based Computational Framework for Simulating the Signal Transduction


Pedro Pablo González-Pérez, Maura Cárdenas-García, Sara Montagna

The PI3K/AKT pathway is one of the main processes involved in cancer development since it primarily controls cellular proliferation and apoptosis. Understanding its behaviour and how it interacts with other pathways or how it is influenced by the presence of specific molecules, is a crucial task in cancer therapy. In this paper we propose a model developed according to the abstractions provided by the Biochemical Tuple Spaces for Self-Organising Coordination framework and simulated on top of TuCSoN. The model and simulation procedure is fully described, demonstrating how much flexible and robust the computational framework is. Simulation results show critical points in the overall cascade, where activations or inhibitions can change the fate of the cell, turning it into apoptosis or proliferation.

(keywords) Signal transduction, Anti-apoptotic signalling pathways, Biochemical Tuple Spaces for Self-Organising Coordination, Tuple space-based computational framework
Journal of Computations & Modelling 3(2), pages 35-65, 2013, Scienpress Ltd
@article{btssocbio-jcm2013,
issn = {1792-7625},
publisher = {Scienpress Ltd},
journal = {Journal of Computations & Modelling},
author = {González-Pérez, Pedro Pablo and Cárdenas-García, Maura and Montagna, Sara},
title = {Understanding the PI3K/AKT Anti-Apoptotic Signalling Pathway: a Tuple Space-Based Computational Framework for Simulating the Signal Transduction},
year = 2013,
abstract = {The PI3K/AKT pathway is one of the main processes involved in cancer development since it primarily controls cellular proliferation and apoptosis. Understanding its behaviour and how it interacts with other pathways or how it is influenced by the presence of specific molecules, is a crucial task in cancer therapy. In this paper we propose a model developed according to the abstractions provided by the Biochemical Tuple Spaces for Self-Organising Coordination framework and simulated on top of TuCSoN. The model and simulation procedure is fully described, demonstrating how much flexible and robust the computational framework is. Simulation results show critical points in the overall cascade, where activations or inhibitions can change the fate of the cell, turning it into apoptosis or proliferation.},
pdf-local = {Vol 3_2_3.pdf},
keywords = {Signal transduction, Anti-apoptotic signalling pathways, Biochemical Tuple Spaces for Self-Organising Coordination, Tuple space-based computational framework},
status = {Published},
issn-online = {1792-8850},
pages = {35-65},
venue_list = {--},
number = 2,
volume = 3}

Tags:
    

Publication

— authors

Pedro Pablo González-Pérez, Maura Cárdenas-García, Sara Montagna

— status

published

— sort

article in journal

Venue

— journal

Journal of Computations & Modelling

— volume/issue

3 (2)

— publication date

2013

— pages

35-65

URLs & IDs

— IRIS

11585/521588

— print ISSN

1792-7625

— online ISSN

1792-8850

BibTeX

— BibTeX ID
btssocbio-jcm2013
— BibTeX category
article

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