Metabolic Adaptation Pilots the Differentiation of Human Hematopoietic Cells

Overview

Journal Life Sci Alliance

Specialties Biochemistry
Biology
Cell Biology
Molecular Biology

Date 2024 May 27

PMID 38802246

Authors

Laetitia Racine

Romuald Parmentier

Shreyas Niphadkar

Julie Chhun

Jean-Alain Martignoles

Francois Delhommeau

Sunil Laxman

Andras Paldi

Affiliations

Soon will be listed here.

Abstract

A continuous supply of energy is an essential prerequisite for survival and represents the highest priority for the cell. We hypothesize that cell differentiation is a process of optimization of energy flow in a changing environment through phenotypic adaptation. The mechanistic basis of this hypothesis is provided by the established link between core energy metabolism and epigenetic covalent modifications of chromatin. This theory predicts that early metabolic perturbations impact subsequent differentiation. To test this, we induced transient metabolic perturbations in undifferentiated human hematopoietic cells using pharmacological inhibitors targeting key metabolic reactions. We recorded changes in chromatin structure and gene expression, as well as phenotypic alterations by single-cell ATAC and RNA sequencing, time-lapse microscopy, and flow cytometry. Our observations suggest that these metabolic perturbations are shortly followed by alterations in chromatin structure, leading to changes in gene expression. We also show that these transient fluctuations alter the differentiation potential of the cells.

Citing Articles

Differentiation is accompanied by a progressive loss in transcriptional memory.

Fourneaux C, Racine L, Koering C, Dussurgey S, Vallin E, Moussy A BMC Biol. 2024; 22(1):58.

PMID: 38468285 PMC: 10929117. DOI: 10.1186/s12915-024-01846-9.

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