Apicobasal transferrin receptor localization and trafficking in brain capillary endothelial cells
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The detailed mechanisms by which the transferrin receptor (TfR) and associated ligands traffic across brain capillary endothelial cells (BECs) of the CNS-protective blood–brain barrier constitute an important knowledge gap within maintenance and regulation of brain iron homeostasis. This knowledge gap also presents a major obstacle in research aiming to develop strategies for efficient receptor-mediated drug delivery to the brain. While TfR-mediated trafficking from blood to brain have been widely studied, investigation of TfR-mediated trafficking from brain to blood has been limited. In this study we investigated TfR distribution on the apical and basal plasma membranes of BECs using expansion microscopy, enabling sufficient resolution to separate the cellular plasma membranes of these morphological flat cells, and verifying both apical and basal TfR membrane domain localization. Using immunofluorescence-based transcellular transport studies, we delineated endosomal sorting of TfR endocytosed from the apical and basal membrane, respectively, as well as bi-directional TfR transcellular transport capability. The findings indicate different intracellular sorting mechanisms of TfR, depending on the apicobasal trafficking direction across the BBB, with the highest transcytosis capacity in the brain-to-blood direction. These results are of high importance for the current understanding of brain iron homeostasis. Also, the high level of TfR trafficking from the basal to apical membrane of BECs potentially explains the low transcytosis which are observed for the TfR-targeted therapeutics to the brain parenchyma.
|Journal||Fluids and Barriers of the CNS|
|Number of pages||15|
|Publication status||Published - 2023|
Correction: DOI 10.1186/s12987-023-00452-1
This study was supported by the Lundbeck Foundation (Grant No.: R155-2013-14113).
© 2023, The Author(s).
- Apicobasal polarity, Blood–brain barrier, Brain drug delivery, Brain endothelial cells, Expansion microscopy, Intracellular trafficking, Transferrin receptor (TfR)
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