Multi-omics Approach Reveals Dysregulated Genes During HESCs Neuronal Differentiation Exposure to Paracetamol

Overview

Journal iScience

Publisher Cell Press

Date 2023 Sep 21

PMID 37731623

Authors

Mari Spildrejorde

Athina Samara

Ankush Sharma

Magnus Leithaug

Martin Falck

Stefania Modafferi

Arvind Y M Sundaram

Ganesh Acharya

Hedvig Nordeng

Ragnhild Eskeland

Kristina Gervin

Robert Lyle

Affiliations

Soon will be listed here.

Abstract

Prenatal paracetamol exposure has been associated with neurodevelopmental outcomes in childhood. Pharmacoepigenetic studies show differences in cord blood DNA methylation between unexposed and paracetamol-exposed neonates, however, causality and impact of long-term prenatal paracetamol exposure on brain development remain unclear. Using a multi-omics approach, we investigated the effects of paracetamol on an model of early human neurodevelopment. We exposed human embryonic stem cells undergoing neuronal differentiation with paracetamol concentrations corresponding to maternal therapeutic doses. Single-cell RNA-seq and ATAC-seq integration identified paracetamol-induced chromatin opening changes linked to gene expression. Differentially methylated and/or expressed genes were involved in neurotransmission and cell fate determination trajectories. Some genes involved in neuronal injury and development-specific pathways, such as , overlapped with differentially methylated genes previously identified in cord blood associated with prenatal paracetamol exposure. Our data suggest that paracetamol may play a causal role in impaired neurodevelopment.

Citing Articles

Citalopram exposure of hESCs during neuronal differentiation identifies dysregulated genes involved in neurodevelopment and depression.

Spildrejorde M, Leithaug M, Samara A, Aass H, Sharma A, Acharya G Front Cell Dev Biol. 2024; 12:1428538.

PMID: 39055655 PMC: 11269147. DOI: 10.3389/fcell.2024.1428538.

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