Elucidating tobacco smoke-induced craniofacial deformities: Biomarker and MAPK signaling dysregulation unraveled by cross-species multi-omics analysis

Tobacco smoke (TS), particularly secondhand and thirdhand smoke, poses a pervasive and intractable environmental hazard that promotes teratogenesis and the progression of craniofacial malformations, although the underlying mechanisms remain elusive. Using zebrafish larvae as a model, our research de...

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Published in:Ecotoxicology and environmental safety 2024-12, Vol.288, p.117343, Article 117343
Main Authors: Lin, Yuxin, Li, Hao, Zheng, Shukai, Han, Rui, Wu, Kusheng, Tang, Shijie, Zhong, Xiaoping, Chen, Jiasheng
Format: Article
Language:English
Subjects:
Animals
Biomarkers
Craniofacial Abnormalities - chemically induced
Craniofacial development
Cross-species multi-omics analysis
Humans
MAP Kinase Signaling System - drug effects
MicroRNAs
MiRNAs
Multiomics
Oxidative Stress - drug effects
Smoke - adverse effects
The MAPK signaling pathway
Tobacco smoke
Tobacco Smoke Pollution - adverse effects
Zebrafish
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container_title Ecotoxicology and environmental safety
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creator Lin, Yuxin
Li, Hao
Zheng, Shukai
Han, Rui
Wu, Kusheng
Tang, Shijie
Zhong, Xiaoping
Chen, Jiasheng
description Tobacco smoke (TS), particularly secondhand and thirdhand smoke, poses a pervasive and intractable environmental hazard that promotes teratogenesis and the progression of craniofacial malformations, although the underlying mechanisms remain elusive. Using zebrafish larvae as a model, our research demonstrated a correlation between the increasing concentration of cigarette smoke extract (CSE) and the severity of craniofacial malformations, supported by Alcian blue staining and histological assessments. Through a combined mRNA-miRNA analysis and quantitative real-time PCR, we identified miR-96–5p, miR-152, miR-125b-2–3p, and miR-181a-3–3p as pivotal biomarkers in craniofacial cartilage development. Functional analyses revealed their association with the MAPK signaling pathway, oxidative stress (OS), and cell development, highlighting MAPK as a crucial mediator. Single-cell transcriptomics further disclosed aberrant MAPK activation in mesenchymal cells. Subsequent investigations in human embryonic palatal mesenchymal (HEPM) cells confirmed similar patterns of growth inhibition, apoptosis, and OS, and emphasized the cross-species consistency of these biomarkers and the over-activation of the MAPK signaling pathway. A comprehensive tri-omics analysis of HEPM cells identified pivotal genes, proteins, and metabolites within the MAPK pathway. This groundbreaking cross-species multi-omics study unveils novel biomarkers and MAPK pathway perturbations linked to TS-induced craniofacial developmental toxicity, promoting innovative clinical prediction, diagnosis, and interventional strategies to tackle TS-induced craniofacial malformations. [Display omitted] •Exploring TS exposure craniofacial defects by cross-species multi-omics analysis.•Key biomarkers across species are identified in TS-induced craniofacial defects.•Oxidative stress-activated MAPK pathway is crucial in craniofacial malformations.•ScRNA-seq reveals responsive MCs in TS exposure craniofacial defects.•Tri-omics analysis identifies pivotal regulatory molecules in the MAPK pathway.
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A comprehensive tri-omics analysis of HEPM cells identified pivotal genes, proteins, and metabolites within the MAPK pathway. This groundbreaking cross-species multi-omics study unveils novel biomarkers and MAPK pathway perturbations linked to TS-induced craniofacial developmental toxicity, promoting innovative clinical prediction, diagnosis, and interventional strategies to tackle TS-induced craniofacial malformations. [Display omitted] •Exploring TS exposure craniofacial defects by cross-species multi-omics analysis.•Key biomarkers across species are identified in TS-induced craniofacial defects.•Oxidative stress-activated MAPK pathway is crucial in craniofacial malformations.•ScRNA-seq reveals responsive MCs in TS exposure craniofacial defects.•Tri-omics analysis identifies pivotal regulatory molecules in the MAPK pathway.</description><identifier>ISSN: 0147-6513</identifier><identifier>ISSN: 1090-2414</identifier><identifier>EISSN: 1090-2414</identifier><identifier>DOI: 10.1016/j.ecoenv.2024.117343</identifier><identifier>PMID: 39549573</identifier><language>eng</language><publisher>Netherlands: Elsevier Inc</publisher><subject>Animals ; Biomarkers ; Craniofacial Abnormalities - chemically induced ; Craniofacial development ; Cross-species multi-omics analysis ; Humans ; MAP Kinase Signaling System - drug effects ; MicroRNAs ; MiRNAs ; Multiomics ; Oxidative Stress - drug effects ; Smoke - adverse effects ; The MAPK signaling pathway ; Tobacco smoke ; Tobacco Smoke Pollution - adverse effects ; Zebrafish</subject><ispartof>Ecotoxicology and environmental safety, 2024-12, Vol.288, p.117343, Article 117343</ispartof><rights>2024 The Authors</rights><rights>Copyright © 2024 The Authors. 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subjects Animals
Biomarkers
Craniofacial Abnormalities - chemically induced
Craniofacial development
Cross-species multi-omics analysis
Humans
MAP Kinase Signaling System - drug effects
MicroRNAs
MiRNAs
Multiomics
Oxidative Stress - drug effects
Smoke - adverse effects
The MAPK signaling pathway
Tobacco smoke
Tobacco Smoke Pollution - adverse effects
Zebrafish
title Elucidating tobacco smoke-induced craniofacial deformities: Biomarker and MAPK signaling dysregulation unraveled by cross-species multi-omics analysis
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