Equilibria and stability of a class of positive feedback loops: mathematical analysis and its application to caspase-dependent apoptosis

López-Caamal, Fernando; Middleton, Richard H.; Huber, Heinrich J.

Title: Equilibria and stability of a class of positive feedback loops: mathematical analysis and its application to caspase-dependent apoptosis
Creator: López-Caamal, Fernando; Middleton, Richard H.; Huber, Heinrich J.
Relation: Journal of Mathematical Biology Vol. 68, Issue 3, p. 609-645
Publisher Link: http://dx.doi.org/10.1007/s00285-013-0644-z
Publisher: Springer
Resource Type: journal article
Date: 2014
Description: Positive feedback loops are common regulatory elements in metabolic and protein signalling pathways. The length of such feedback loops determines stability and sensitivity to network perturbations. Here we provide a mathematical analysis of arbitrary length positive feedback loops with protein production and degradation. These loops serve as an abstraction of typical regulation patterns in protein signalling pathways. We first perform a steady state analysis and, independently of the chain length, identify exactly two steady states that represent either biological activity or inactivity. We thereby provide two formulas for the steady state protein concentrations as a function of feedback length, strength of feedback, as well as protein production and degradation rates. Using a control theory approach, analysing the frequency response of the linearisation of the system and exploiting the Small Gain Theorem, we provide conditions for local stability for both steady states. Our results demonstrate that, under some parameter relationships, once a biological meaningful on steady state arises, it is stable, while the off steady state, where all proteins are inactive, becomes unstable. We apply our results to a three-tier feedback of caspase activation in apoptosis and demonstrate how an intermediary protein in such a loop may be used as a signal amplifier within the cascade. Our results provide a rigorous mathematical analysis of positive feedback chains of arbitrary length, thereby relating pathway structure and stability.
Subject: positive feedback; recursive protein activation; apoptosis; ODE; equilibrium points; local stability
Identifier: http://hdl.handle.net/1959.13/1298549
Identifier: uon:19688
Identifier: ISSN:0303-6812
Language: eng
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