Background: In this study, a prototype of a targeted nanocarrier for drug delivery for prenatal therapy of the developing fetus was developed and examined and ex vivo. The folate transport mechanism in the human placenta was utilized as a possible pathway for the transplacental delivery of targeted nanoparticles.
Methods: Several types of folic acid-decorated polymeric nanoparticles were synthesized and characterized. During transport studies of targeted and non-targeted fluorescent nanoparticles across the placental barrier, the apparent permeability values, uptake, transfer indices, and distribution in placental tissue were determined.
Results: The nanoparticles had no effect on BeWo b30 cell viability. , studies showed significantly higher apparent permeability of the targeted nanoparticles across the cell monolayers as compared to the nontargeted nanoparticles (P = 5.92 ± 1.44 ×10 cm/s for PLGA-PEG-FA . 1.26 ± 0.31 ×10 cm/s for PLGA-PEG, < 0.05), and the transport of the targeted nanoparticles was significantly inhibited by excess folate. placental perfusion showed significantly greater accumulation of the targeted nanoparticles in the placental tissue (4.31 ± 0.91%/g for PLGA-PEG-FA vs. 2.07 ± 0.26%/g for PLGA-PEG).
Conclusion: The data obtained suggested different mechanisms for the uptake and transplacental transfer of targeted nontargeted nanoparticles. This targeted nanoformulation may be a promising strategy for fetal drug therapy.
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