In vivo formation of Ce-phosphate Nanoparticles following Intratracheal Instillation of CeCl3: Subcellular sites, Nanostructures, Precipitation Mechanisms and Nanoparticle 3D-Alignment

We demonstrate the in vivo formation of nano-particulate Ce-containing structures in lungs instilled with 5 mg/kg CeCl3 using high resolution electron microscopy (HRTEM), energy loss spectroscopy (EELS), and elemental mapping (EDS). The observed high lung retention of Ce after instillation of CeCl3 (75-92% retained at 28 days) is unexpected since metal ions are usually readily transported across the air-blood barrier. The binding of cerium ions to lung constituents has been suggested [1], and the formation of cerium phosphate has been shown previously, but without discussions on the mechanisms involved in nanoparticle nucleation and growth [2]. Determining the form of Ce after lung exposure to CeCl3 has been challenging due to the difficulties in distinguishing ions from particulate forms when using radioactivity or ICP-MS. We have identified cerium nanoparticles at the sub-cellular level in lung macrophages after CeCl3 instillation. This observation provides insights on the cell structures and components that will help distinguish which cellular areas are the sites of in vivo nanoparticle formation.