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- Title
Interface interaction between high-siliceous/calcareous mineral granules and model cell membranes dominated by electrostatic force.
- Authors
Chen, Mulan; Dong, Faqin; Li, Hailong; Zhao, Yulian; Ou, Shi; Liu, Mingxue; Zhang, Wei
- Abstract
High-siliceous/calcareous mineral granules may cause cytotoxicity by attaching to cell membranes. In this research, giant (GUVs) and small unilamellar vesicles (SUVs) were used as model membranes for studying the interaction between high-siliceous/calcareous mineral granules (micro calcite, micro quartz, nano calcium carbonate, and nano silica) and artificial membranes. Confocal laser scanning microscopy (CLSM) and fluorescence labeling experiments suggest that nano calcium carbonate (nano CaCO3) and nano silica (nano SiO2) induce gelation by disrupting the oppositely charged membranes, indicating the important role of electrostatic forces. Thereby, the mineral granule size affects the electrostatic interactions and thus leading to the damage of the membranes. FTIR spectra and molecular dynamics reveal that mineral granules mainly interact with -PO2−, -OH, and -C-N(CH3)3+ groups in phospholipids. The electrostatic force between nano minerals and phospholipids is greater in the case SiO2 when compared to CaCO3. Moreover, nano SiO2 forms the strongest hydrogen bond with the -PO2− group as confirmed by FTIR. Thus, nano SiO2 causes the greatest damage to membranes. This research provides a deeper understanding of the mechanism regarding the interaction between inhalable mineral granules and cell membranes.
- Subjects
CELL membranes; GRANULE cells; MINERALS; MOLECULAR spectra; MOLECULAR dynamics; QUARTZ
- Publication
Environmental Science & Pollution Research, 2021, Vol 28, Issue 21, p27432
- ISSN
0944-1344
- Publication type
Article
- DOI
10.1007/s11356-021-12584-8