Multi-omics Systems Toxicology Study of Mouse Lung Assessing the Effects of Aerosols from Two Heat-not-burn Tobacco Products and Cigarette Smoke

Overview

Journal Comput Struct Biotechnol J

Specialty Biotechnology

Date 2020 May 19

PMID 32419906

Citations 17

Authors

Bjoern Titz

Justyna Szostak

Alain Sewer

Blaine Phillips

Catherine Nury

Thomas Schneider

Sophie Dijon

Oksana Lavrynenko

Ashraf Elamin

Emmanuel Guedj

Ee Tsin Wong

Stefan Lebrun

Gregory Vuillaume

Athanasios Kondylis

Sylvain Gubian

Stephane Cano

Patrice Leroy

Brian Keppler

Nikolai V Ivanov

Patrick Vanscheeuwijck

Florian Martin

Manuel C Peitsch

Julia Hoeng

Affiliations

Soon will be listed here.

Abstract

Cigarette smoke (CS) causes adverse health effects and, for smoker who do not quit, modified risk tobacco products (MRTPs) can be an alternative to reduce the risk of developing smoking-related diseases. Standard toxicological endpoints can lack sensitivity, with systems toxicology approaches yielding broader insights into toxicological mechanisms. In a 6-month systems toxicology study on ApoE mice, we conducted an integrative multi-omics analysis to assess the effects of aerosols from the Carbon Heated Tobacco Product (CHTP) 1.2 and Tobacco Heating System (THS) 2.2-a potential and a candidate MRTP based on the heat-not-burn (HnB) principle-compared with CS at matched nicotine concentrations. Molecular exposure effects in the lungs were measured by mRNA/microRNA transcriptomics, proteomics, metabolomics, and lipidomics. Integrative data analysis included Multi-Omics Factor Analysis and multi-modality functional network interpretation. Across all five data modalities, CS exposure was associated with an increased inflammatory and oxidative stress response, and lipid/surfactant alterations. Upon HnB aerosol exposure these effects were much more limited or absent, with reversal of CS-induced effects upon cessation and switching to CHTP 1.2. Functional network analysis revealed CS-induced complex immunoregulatory interactions across the investigated molecular layers (e.g., itaconate, quinolinate, and miR-146) and highlighted the engagement of the heme-Hmox-bilirubin oxidative stress axis by CS. This work exemplifies how multi-omics approaches can be leveraged within systems toxicology studies and the generated multi-omics data set can facilitate the development of analysis methods and can yield further insights into the effects of toxicological exposures on the lung of mice.

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