A mathematical model of p62-ubiquitin aggregates in autophagy

Julia Delacour; Marie Doumic; Sascha Martens; Christian Schmeiser; Gabriele Zaffagnini

doi:10.1007/s00285-021-01659-2

A mathematical model of p62-ubiquitin aggregates in autophagy

Julia Delacour
, Marie Doumic
, Sascha Martens
, Christian Schmeiser
, Gabriele Zaffagnini

Sorbonne Université
University of Vienna
C/o Faculty of Mathematics of the University of Vienna
Department of Cell and Developmental Biology

Research output: Contribution to journal › Article › peer-review

Abstract

Aggregation of ubiquitinated cargo by oligomers of the protein p62 is an important preparatory step in cellular autophagy. In this work a mathematical model for the dynamics of these heterogeneous aggregates in the form of a system of ordinary differential equations is derived and analyzed. Three different parameter regimes are identified, where either aggregates are unstable, or their size saturates at a finite value, or their size grows indefinitely as long as free particles are abundant. The boundaries of these regimes as well as the finite size in the second case can be computed explicitly. The growth in the third case (quadratic in time) can also be made explicit by formal asymptotic methods. In the absence of rigorous results the dynamic stability of these structures has been investigated by numerical simulations. A comparison with recent experimental results permits a partial parametrization of the model.

Original language	English
Article number	3
Journal	Journal of Mathematical Biology
Volume	84
Issue number	1-2
DOIs	https://doi.org/10.1007/s00285-021-01659-2
Publication status	Published - 1 Jan 2022

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abstract = "Aggregation of ubiquitinated cargo by oligomers of the protein p62 is an important preparatory step in cellular autophagy. In this work a mathematical model for the dynamics of these heterogeneous aggregates in the form of a system of ordinary differential equations is derived and analyzed. Three different parameter regimes are identified, where either aggregates are unstable, or their size saturates at a finite value, or their size grows indefinitely as long as free particles are abundant. The boundaries of these regimes as well as the finite size in the second case can be computed explicitly. The growth in the third case (quadratic in time) can also be made explicit by formal asymptotic methods. In the absence of rigorous results the dynamic stability of these structures has been investigated by numerical simulations. A comparison with recent experimental results permits a partial parametrization of the model.",

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AU - Zaffagnini, Gabriele

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A mathematical model of p62-ubiquitin aggregates in autophagy

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