Synchrotron XRF and Histological Analyses Identify Damage to Digestive Tract of Uranium NP-Exposed Daphnia magna .
Ian ByrnesLisa Magdalena RossbachJakub JaroszewiczDaniel GrolimundDario Ferreira SanchezMiguel A Gomez-GonzalezGert NuytsEstela Reinoso-MasetKoen JanssensBrit SalbuDag Anders BredeOle Christian LindPublished in: Environmental science & technology (2023)
Micro- and nanoscopic X-ray techniques were used to investigate the relationship between uranium (U) tissue distributions and adverse effects to the digestive tract of aquatic model organism Daphnia magna following uranium nanoparticle (UNP) exposure. X-ray absorption computed tomography measurements of intact daphnids exposed to sublethal concentrations of UNPs or a U reference solution (U Ref ) showed adverse morphological changes to the midgut and the hepatic ceca. Histological analyses of exposed organisms revealed a high proportion of abnormal and irregularly shaped intestinal epithelial cells. Disruption of the hepatic ceca and midgut epithelial tissues implied digestive functions and intestinal barriers were compromised. Synchrotron-based micro X-ray fluorescence (XRF) elemental mapping identified U co-localized with morphological changes, with substantial accumulation of U in the lumen as well as in the epithelial tissues. Utilizing high-resolution nano-XRF, 400-1000 nm sized U particulates could be identified throughout the midgut and within hepatic ceca cells, coinciding with tissue damages. The results highlight disruption of intestinal function as an important mode of action of acute U toxicity in D. magna and that midgut epithelial cells as well as the hepatic ceca are key target organs.
Keyphrases
- high resolution
- dual energy
- aedes aegypti
- computed tomography
- gene expression
- oxidative stress
- induced apoptosis
- mass spectrometry
- magnetic resonance imaging
- risk assessment
- signaling pathway
- zika virus
- single cell
- respiratory failure
- cell proliferation
- liquid chromatography
- acute respiratory distress syndrome
- quantum dots
- contrast enhanced
- extracorporeal membrane oxygenation
- mechanical ventilation
- adverse drug
- pet ct
- iron oxide