A 28-day rat inhalation study with an integrated molecular toxicology endpoint demonstrates reduced exposure effects for a prototypic modified risk tobacco product compared with conventional cigarettes

•OECD 28-day inhalation study: Histopathology was combined with transcriptomics.•Histopathological changes correlated with biological network perturbation.•Tissue-specific impact on network perturbation was quantified.•Reduced biological activity of a MRTP compared to 3R4F was demonstrated.•Network-...

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Bibliographic Details
Published in:Food and chemical toxicology 2014-06, Vol.68, p.204-217
Main Authors: Kogel, Ulrike, Schlage, Walter K., Martin, Florian, Xiang, Yang, Ansari, Sam, Leroy, Patrice, Vanscheeuwijck, Patrick, Gebel, Stephan, Buettner, Ansgar, Wyss, Christoph, Esposito, Marco, Hoeng, Julia, Peitsch, Manuel C.
Format: Article
Language:English
Subjects:
Administration, Inhalation
Animals
Biological and medical sciences
Bronchoalveolar Lavage Fluid
Carboxyhemoglobin - metabolism
Cell Differentiation - drug effects
Chemokines - metabolism
Computational network model
Cotinine - analogs & derivatives
Cotinine - urine
Cytokines - metabolism
Endpoint Determination - methods
Female
Food toxicology
Histopathology
Inhalation Exposure
Lung - drug effects
Male
Medical sciences
Nicotine - analogs & derivatives
Nicotine - urine
Organ Size - drug effects
Rats
Rats, Sprague-Dawley
Respiratory Mucosa - drug effects
Risk Assessment
Risk Factors
Systems toxicology
Tobacco Products - toxicity
Tobacco, tobacco smoking
Tobacco-heating
Toxicology
Transcriptome
Transcriptomics
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Summary:•OECD 28-day inhalation study: Histopathology was combined with transcriptomics.•Histopathological changes correlated with biological network perturbation.•Tissue-specific impact on network perturbation was quantified.•Reduced biological activity of a MRTP compared to 3R4F was demonstrated.•Network-based approach facilitates systems toxicology-based risk assessment. Towards a systems toxicology-based risk assessment, we investigated molecular perturbations accompanying histopathological changes in a 28-day rat inhalation study combining transcriptomics with classical histopathology. We demonstrated reduced biological activity of a prototypic modified risk tobacco product (pMRTP) compared with the reference research cigarette 3R4F. Rats were exposed to filtered air or to three concentrations of mainstream smoke (MS) from 3R4F, or to a high concentration of MS from a pMRTP. Histopathology revealed concentration-dependent changes in response to 3R4F that were irritative stress-related in nasal and bronchial epithelium, and inflammation-related in the lung parenchyma. For pMRTP, significant changes were seen in the nasal epithelium only. Transcriptomics data were obtained from nasal and bronchial epithelium and lung parenchyma. Concentration-dependent gene expression changes were observed following 3R4F exposure, with much smaller changes for pMRTP. A computational-modeling approach based on causal models of tissue-specific biological networks identified cell stress, inflammation, proliferation, and senescence as the most perturbed molecular mechanisms. These perturbations correlated with histopathological observations. Only weak perturbations were observed for pMRTP. In conclusion, a correlative evaluation of classical histopathology together with gene expression-based computational network models may facilitate a systems toxicology-based risk assessment, as shown for a pMRTP.
ISSN:0278-6915
1873-6351
1873-6351
DOI:10.1016/j.fct.2014.02.034