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Asymmetric binomial statistics explains organelle partitioning variance in cancer cell proliferation

Giovanna Peruzzi, Mattia Miotto, Roberta Maggio, Giancarlo Ruocco, Giorgio Gosti

2021Communications Physics16 citationsDOIOpen Access PDF

Abstract

Abstract Asymmetric inheritance of organelles and compounds between daughter cells is considered a hallmark for differentiation and rejuvenation in stem-like and cancer cells, as much as a mechanism for enhancing resistance in bacteria populations. In non-differentiating homogeneous cancer cells, asymmetric division is still poorly investigated. Here, we present a method based on the binomial partitioning process that allows the measurement of asymmetric organelle partitioning with multiple live cell markers without genetically mutating the cells. We demonstrate our method by measuring simultaneously the partitioning of three cellular elements, i.e., cytoplasm, membrane, and mitochondria in human Jurkat T-cells. We found that although cell cytoplasm is partitioned symmetrically, mitochondria and membrane lipids are asymmetrically partitioned between daughter cells. Moreover, we observe that mitochondria and membrane lipids present a stable positive correlation with cytoplasm, incompatibly with a binomial partition mechanism produced by two independent partitioning processes. Our experimental apparatus, combined with our theoretical framework, could be generalized to different cell kinds, providing a tool for understanding partitioning-driven biological processes.

Topics & Concepts

CytoplasmOrganelleCell divisionCell biologyBiologyMitochondrionCellCancer cellAsymmetric cell divisionSister chromatidsCytokinesisGeneticsCancerGeneChromosomeGene Regulatory Network AnalysisBacterial Genetics and BiotechnologyRNA and protein synthesis mechanisms
Asymmetric binomial statistics explains organelle partitioning variance in cancer cell proliferation | Litcius