Modeling Homeostasis Mechanisms That Set the Target Cell Size

Overview

Journal Sci Rep

Specialty Science

Date 2020 Aug 20

PMID 32811891

Citations 4

Authors

Cesar A Vargas-Garcia

Mikael Bjorklund

Abhyudai Singh

Affiliations

Soon will be listed here.

Abstract

How organisms maintain cell size homeostasis is a long-standing problem that remains unresolved, especially in multicellular organisms. Recent experiments in diverse animal cell types demonstrate that within a cell population, cellular proliferation is low for small and large cells, but high at intermediate sizes. Here we use mathematical models to explore size-control strategies that drive such a non-monotonic profile resulting in the proliferation capacity being maximized at a target cell size. Our analysis reveals that most models of size control yield proliferation capacities that vary monotonically with cell size, and non-monotonicity requires two key mechanisms: (1) the growth rate decreases with increasing size for excessively large cells; and (2) cell division occurs as per the Adder model (division is triggered upon adding a fixed size from birth), or a Sizer-Adder combination. Consistent with theory, Jurkat T cell growth rates increase with size for small cells, but decrease with size for large cells. In summary, our models show that regulation of both growth and cell-division timing is necessary for size control in animal cells, and this joint mechanism leads to a target cell size where cellular proliferation capacity is maximized.

Citing Articles

Bacterial cell size modulation along the growth curve across nutrient conditions.

Nieto C, Igler C, Singh A bioRxiv. 2024; .

PMID: 39386733 PMC: 11463677. DOI: 10.1101/2024.09.24.614723.

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Cell size homeostasis is tightly controlled throughout the cell cycle.

Liu X, Yan J, Kirschner M PLoS Biol. 2024; 22(1):e3002453.

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A cell-based model for size control in the multiple fission alga Chlamydomonas reinhardtii.

Liu D, Vargas-Garcia C, Singh A, Umen J Curr Biol. 2023; 33(23):5215-5224.e5.

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