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Widespread formation of toxic nitrated bisphenols indoors by heterogeneous reactions with HONO

Diwen Yang, Qifan Liu, Sizhi Wang, Matin Bozorg, Jiabao Liu, Pranav Nair, Patrick Balaguer, Datong Song, Henry M. Krause, Boualem Ouazia, Jonathan P. D. Abbatt, Hui Peng

2022Science Advances40 citationsDOIOpen Access PDF

Abstract

With numerous structurally diverse indoor contaminants, indoor transformation chemistry has been largely unexplored. Here, by integrating protein affinity purification and nontargeted mass spectrometry analysis (PUCA), we identified a substantial class of previously unrecognized indoor transformation products formed through gas-surface reactions with nitrous acid (HONO). Through the PUCA, we identified a noncommercial compound, nitrated bisphenol A (BPA), from house dust extracts strongly binding to estrogen-related receptor γ. The compound was detected in 28 of 31 house dust samples with comparable concentrations (ND to 0.30 μg/g) to BPA. Via exposing gaseous HONO to surface-bound BPA, we demonstrated it likely forms via a heterogeneous indoor chemical transformation that is highly selective toward bisphenols with electron-rich aromatic rings. We used 15 N-nitrite for in situ labeling and found 110 nitration products formed from indoor contaminants with distinct aromatic moieties. This study demonstrates a previously unidentified class of chemical reactions involving indoor HONO, which should be incorporated into the risk evaluation of indoor contaminants, particularly bisphenols.

Topics & Concepts

Nitrous acidNitrationBisphenol AEnvironmental chemistryChemistryContaminationIndoor airChemical transformationNitriteOrganic chemistryEnvironmental scienceEnvironmental engineeringEcologyBiologyEpoxyNitrateEffects and risks of endocrine disrupting chemicalsToxic Organic Pollutants ImpactIndoor Air Quality and Microbial Exposure