Pre- and Postnatal Exposure of Mice to Concentrated Urban PM Decreases the Number of Alveoli and Leads to Altered Lung Function at an Early Stage of Life

Overview

Journal Environ Pollut

Specialty Environmental Health

Date 2018 Jun 9

PMID 29883952

Citations 23

Authors

Thais de Barros Mendes Lopes

Espen E Groth

Mariana Veras

Tatiane K Furuya

Natalia de Souza Xavier Costa

Gabriel Ribeiro Junior

Fernanda Degobbi Lopes

Francine M de Almeida

Wellington V Cardoso

Paulo Hilario Nascimento Saldiva

Roger Chammas

Thais Mauad

Affiliations

Soon will be listed here.

Abstract

Gestational exposure to air pollution is associated with negative outcomes in newborns and children. In a previous study, we demonstrated a synergistic negative effect of pre- and postnatal exposure to PM on lung development in mice. However, the means by which air pollution affects development of the lung have not yet been identified. In this study, we exposed pregnant BALB/c mice and their offspring to concentrated urban PM (from São Paulo, Brazil; target dose 600 μg/m for 1 h daily). Exposure was started on embryonic day 5.5 (E5.5, time of placental implantation). Lung tissue of fetuses and offspring was submitted to stereological and transcriptomic analyses at E14.5 (pseudoglandular stage of lung development), E18.5 (saccular stage) and P40 (postnatal day 40, alveolarized lung). Additionally, lung function and cellularity of bronchoalveolar lavage (BAL) fluid were studied in offspring animals at P40. Compared to control animals that were exposed to filtered air throughout gestation and postnatal life, PM-exposed mice exhibited higher lung elastance and a lower alveolar number at P40 whilst the total lung volume and cellularity of BAL fluid were not affected. Glandular and saccular structures of fetal lungs were not altered upon gestational exposure; transcriptomic signatures, however, showed changes related to DNA damage and its regulation, inflammation and regulation of cell proliferation. A differential expression was validated at E14.5 for the candidates Sox8, Angptl4 and Gas1. Our data substantiate the in utero biomolecular effect of gestational exposure to air pollution and provide first-time stereological evidence that pre- and early life-postnatal exposure compromise lung development, leading to a reduced number of alveoli and an impairment of lung function in the adult mouse.

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