Cell States Beyond Transcriptomics: Integrating Structural Organization and Gene Expression in HiPSC-derived Cardiomyocytes

Overview

Journal Cell Syst

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2021 May 27

PMID 34043964

Citations 24

Authors

Kaytlyn A Gerbin

Tanya Grancharova

Rory M Donovan-Maiye

Melissa C Hendershott

Helen G Anderson

Jackson M Brown

Jianxu Chen

Stephanie Q Dinh

Jamie L Gehring

Gregory R Johnson

HyeonWoo Lee

Aditya Nath

Angelique M Nelson

M Filip Sluzewski

Matheus P Viana

Calysta Yan

Rebecca J Zaunbrecher

Kimberly R Cordes Metzler

Nathalie Gaudreault

Theo A Knijnenburg

Susanne M Rafelski

Julie A Theriot

Ruwanthi N Gunawardane

Affiliations

Soon will be listed here.

Abstract

Although some cell types may be defined anatomically or by physiological function, a rigorous definition of cell state remains elusive. Here, we develop a quantitative, imaging-based platform for the systematic and automated classification of subcellular organization in single cells. We use this platform to quantify subcellular organization and gene expression in >30,000 individual human induced pluripotent stem cell-derived cardiomyocytes, producing a publicly available dataset that describes the population distributions of local and global sarcomere organization, mRNA abundance, and correlations between these traits. While the mRNA abundance of some phenotypically important genes correlates with subcellular organization (e.g., the beta-myosin heavy chain, MYH7), these two cellular metrics are heterogeneous and often uncorrelated, which suggests that gene expression alone is not sufficient to classify cell states. Instead, we posit that cell state should be defined by observing full distributions of quantitative, multidimensional traits in single cells that also account for space, time, and function.

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