Biotransformation of rare earth oxide nanoparticles eliciting microbiota imbalance

脱磷 细菌 支气管肺泡灌洗 化学 毒性 微生物学 生物 生物物理学 生物化学 遗传学 医学 有机化学 内科学 磷酸酶
作者
Huizhen Zheng,Zonglin Gu,Yan-xia Pan,Jie Chen,Qianqian Xie,Shujuan Xu,Meng Gao,Xiaoming Cai,Shengtang Liu,Weili Wang,Wei Li,Xi Liu,Zaixing Yang,Ruhong Zhou,Ruibin Li
出处
期刊:Particle and Fibre Toxicology [BioMed Central]
卷期号:18 (1) 被引量:7
标识
DOI:10.1186/s12989-021-00410-5
摘要

Abstract Background Disruption of microbiota balance may result in severe diseases in animals and phytotoxicity in plants. While substantial concerns have been raised on engineered nanomaterial (ENM) induced hazard effects (e.g. , lung inflammation), exploration of the impacts of ENMs on microbiota balance holds great implications. Results This study found that rare earth oxide nanoparticles (REOs) among 19 ENMs showed severe toxicity in Gram-negative (G − ) bacteria, but negligible effects in Gram-positive (G + ) bacteria. This distinct cytotoxicity was disclosed to associate with the different molecular initiating events of REOs in G − and G + strains. La 2 O 3 as a representative REOs was demonstrated to transform into LaPO 4 on G − cell membranes and induce 8.3% dephosphorylation of phospholipids. Molecular dynamics simulations revealed the dephosphorylation induced more than 2-fold increments of phospholipid diffusion constant and an unordered configuration in membranes, eliciting the increments of membrane fluidity and permeability. Notably, the ratios of G − /G + reduced from 1.56 to 1.10 in bronchoalveolar lavage fluid from the mice with La 2 O 3 exposure. Finally, we demonstrated that both IL-6 and neutrophil cells showed strong correlations with G − /G + ratios, evidenced by their correlation coefficients with 0.83 and 0.92, respectively. Conclusions This study deciphered the distinct toxic mechanisms of La 2 O 3 as a representative REO in G − and G + bacteria and disclosed that La 2 O 3 -induced membrane damages of G − cells cumulated into pulmonary microbiota imbalance exhibiting synergistic pulmonary toxicity. Overall, these findings offered new insights to understand the hazard effects induced by REOs.

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