Purpose: The expression level of the transferrin receptor (TfR) on brain capillary endothelial cells (BCECs) and the endocytosis of 125I-transferrin (125I-Tf) by this receptor was investigated. Furthermore, the influence of iron, the iron scavenger deferoxamine mesylate (DFO), astrocytic factors, a GTP-ase inhibitor (tyrphostin-A8, T8), lipopolysaccharide (LPS), and the radical scavenger N-acetyl-L-cysteine (NAC) on the TfR expression was studied to gain insight in the use and optimization of the TfR for drug targeting to the brain.
Methods: Experiments were performed with primary cultured bovine BCECs that were incubated with 125I-Tf at 4 degrees C (to determine binding) or at 37 degrees C (to determine endocytosis) in the absence or presence of the modulators. For full saturation curves in the absence or presence of iron or DFO, analysis was performed with a population approach using NONMEM, allowing us to estimate a single value for affinity (Kd, concentration of 50% receptor occupancy) and separate values for maximum receptor occupancy (B(max).
Results: On BCECs, the TfR is expressed extracellularly (B(max) of 0.13 fmol/microg cell protein), but also has a large intracellular pool (total B(max) of 1.37 fmol/microg cell protein), and is actively endocytosing Tf via clathrin-coated vesicles. At 4 degrees C, a Kd of 2.38 microg/ml was found, whereas the Kd at 37 degrees C was 5.03 microg/ml. Furthermore, DFO is able to increase both the extracellular as well as the total binding capacity to 0.63 and 3.67 fmol/microg cell protein, respectively, whereas it had no influence on Kd. B(max) at 37 degrees C after DFO preincubation was also increased from 0.90 to 2.31 fmol/microg cell protein. Other modulators had no significant influence on the TfR expression levels, though LPS increased cellular protein concentrations after 2-h preincubation.
Conclusions: The TfR is expressed on BCECs and actively endocytoses Tf, making it a suitable target for drug delivery to the bloodbrain barrier and the CNS. DFO up-regulates the TfR expression level, which may influence targeting efficiency.
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