Mathematical modeling of adipocyte size distributions: Identifiability and parameter estimation from rat data

Fat cells, called adipocytes, are designed to regulate energy homeostasis by storing energy in the form of lipids. Adipocyte size distribution is assumed to play a role in the development of obesity-related diseases. These cells that do not have a characteristic size, indeed a bimodal size distribut...

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Veröffentlicht in:	Journal of theoretical biology 2024-03, Vol.581, p.111747-111747, Article 111747
Hauptverfasser:	Giacobbi, Anne-Sophie, Meyer, Leo, Ribot, Magali, Yvinec, Romain, Soula, Hedi, Audebert, Chloe
Format:	Artikel
Sprache:	eng
Schlagworte:	Adipocyte size distribution Adipocytes Adipose Tissue Animals Cell Size Life Sciences Mathematics Models, Biological Models, Theoretical Parameter estimation Parameter identifiability Partial differential equation Rats
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creator	Giacobbi, Anne-Sophie Meyer, Leo Ribot, Magali Yvinec, Romain Soula, Hedi Audebert, Chloe
description	Fat cells, called adipocytes, are designed to regulate energy homeostasis by storing energy in the form of lipids. Adipocyte size distribution is assumed to play a role in the development of obesity-related diseases. These cells that do not have a characteristic size, indeed a bimodal size distribution is observed in adipose tissue. We propose a model based on a partial differential equation to describe adipocyte size distribution. The model includes a description of the lipid fluxes and the cell size fluctuations and using a formulation of a stationary solution fast computation of bimodal distribution is achieved. We investigate the parameter identifiability and estimate parameter values with CMA-ES algorithm. We first validate the procedure on synthetic data, then we estimate parameter values with experimental data of 32 rats. We discuss the estimated parameter values and their variability within the population, as well as the relation between estimated values and their biological significance. Finally, a sensitivity analysis is performed to specify the influence of parameters on cell size distribution and explain the differences between the model and the measurements. The proposed framework enables the characterization of adipocyte size distribution with four parameters and can be easily adapted to measurements of cell size distribution in different health conditions. •Partial differential equation for adipocyte size distribution.•Study of identifiability and sensitivity of model parameters.•Parameter estimation with CMA-ES algorithm.•Reproduction of measured bimodal distributions.•Estimated parameter values for 32 rats.
doi_str_mv	10.1016/j.jtbi.2024.111747
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Adipocyte size distribution is assumed to play a role in the development of obesity-related diseases. These cells that do not have a characteristic size, indeed a bimodal size distribution is observed in adipose tissue. We propose a model based on a partial differential equation to describe adipocyte size distribution. The model includes a description of the lipid fluxes and the cell size fluctuations and using a formulation of a stationary solution fast computation of bimodal distribution is achieved. We investigate the parameter identifiability and estimate parameter values with CMA-ES algorithm. We first validate the procedure on synthetic data, then we estimate parameter values with experimental data of 32 rats. We discuss the estimated parameter values and their variability within the population, as well as the relation between estimated values and their biological significance. Finally, a sensitivity analysis is performed to specify the influence of parameters on cell size distribution and explain the differences between the model and the measurements. The proposed framework enables the characterization of adipocyte size distribution with four parameters and can be easily adapted to measurements of cell size distribution in different health conditions. •Partial differential equation for adipocyte size distribution.•Study of identifiability and sensitivity of model parameters.•Parameter estimation with CMA-ES algorithm.•Reproduction of measured bimodal distributions.•Estimated parameter values for 32 rats.</description><identifier>ISSN: 0022-5193</identifier><identifier>EISSN: 1095-8541</identifier><identifier>DOI: 10.1016/j.jtbi.2024.111747</identifier><identifier>PMID: 38278344</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Adipocyte size distribution ; Adipocytes ; Adipose Tissue ; Animals ; Cell Size ; Life Sciences ; Mathematics ; Models, Biological ; Models, Theoretical ; Parameter estimation ; Parameter identifiability ; Partial differential equation ; Rats</subject><ispartof>Journal of theoretical biology, 2024-03, Vol.581, p.111747-111747, Article 111747</ispartof><rights>2024 Elsevier Ltd</rights><rights>Copyright © 2024 Elsevier Ltd. 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Adipocyte size distribution is assumed to play a role in the development of obesity-related diseases. These cells that do not have a characteristic size, indeed a bimodal size distribution is observed in adipose tissue. We propose a model based on a partial differential equation to describe adipocyte size distribution. The model includes a description of the lipid fluxes and the cell size fluctuations and using a formulation of a stationary solution fast computation of bimodal distribution is achieved. We investigate the parameter identifiability and estimate parameter values with CMA-ES algorithm. We first validate the procedure on synthetic data, then we estimate parameter values with experimental data of 32 rats. We discuss the estimated parameter values and their variability within the population, as well as the relation between estimated values and their biological significance. 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subjects	Adipocyte size distribution Adipocytes Adipose Tissue Animals Cell Size Life Sciences Mathematics Models, Biological Models, Theoretical Parameter estimation Parameter identifiability Partial differential equation Rats
title	Mathematical modeling of adipocyte size distributions: Identifiability and parameter estimation from rat data
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