Rita Castro scite author profile

Drug delivery to the central nervous system is restricted by the blood-brain barrier (BBB). However, with the onset of stroke, the BBB becomes leaky, providing a window of opportunity to passively target the brain. Here, cationic poly(amido amine) (PAMAM) dendrimers of different generations were functionalized with poly(ethylene glycol) (PEG) to reduce cytotoxicity and prolong blood circulation half-life, aiming for a safe in vivo drug delivery system in a stroke scenario. Rhodamine B isothiocyanate (RITC) was covalently tethered to the dendrimer backbone and used as a small surrogate drug as well as for tracking purposes. The biocompatibility of PAMAM was markedly increased by PEGylation as a function of dendrimer generation and degree of functionalization. The PEGylated RITC-modified dendrimers did not affect the integrity of an in vitro BBB model. Additionally, the functionalized dendrimers remained safe when in contact with the bEnd.3 cells and rat primary astrocytes composing the in vitro BBB model after hypoxia induced by oxygen-glucose deprivation. Modification with PEG also decreased the interaction and uptake by endothelial cells of PAMAM, indicating that the transport across a leaky Version: Postprint (identical content as published paper) This is a self-archived document from i3S-Instituto de Investigação e Inovação em Saúde in the University of Porto Open Repository For Open Access to more of our publications, please visit http://repositorio-aberto.up.pt/ A01/00 BBB due to focal brain ischemia would be facilitated. Next, the functionalized dendrimers were tested in contact with red blood cells showing no haemolysis for the PEGylated PAMAM, in contrast to the unmodified dendrimer. Interestingly, the PEG-modified dendrimers reduced blood clotting, which may be an added beneficial function in the context of stroke. The optimized PAMAM formulation was intravenously administered in mice after inducing permanent focal brain ischemia. Twenty-four hours after administration, dendrimers could be detected in the brain, including in neurons of the ischemic cortex. Our results suggest that the proposed formulation has the potential for becoming a successful delivery vector for therapeutic application to the injured brain after stroke reaching the ischemic neurons. Graphical abstract (A) PEG-conjugated PAMAM dendrimers bound with RITC diffusing through a 'leaky' blood brain barrier upon focal cerebral ischemia. (B) Modified PAMAM dendrimer identified in neurons at the site of the brain ischemic injury.

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Fine tuning of the pH-sensitivity of laponite–doxorubicin nanohybrids by polyelectrolyte multilayer coating

Xiao

Castro

Maciel

et al. 2016

Materials Science and Engineering: C

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Gas foaming of electrospun poly(L-lactide-co-caprolactone)/silk fibroin nanofiber scaffolds to promote cellular infiltration and tissue regeneration

Chen

Jia

Shafiq

et al. 2021

Colloids and Surfaces B: Biointerfaces

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Rita Castro

Electrospun laponite-doped poly(lactic-co-glycolic acid) nanofibers for osteogenic differentiation of human mesenchymal stem cells

Holothurinosides: New antitumour non sulphated triterpenoid glycosides from the sea cucumber holothuria forskalii.

PAMAM dendrimers: blood-brain barrier transport and neuronal uptake after focal brain ischemia

Fine tuning of the pH-sensitivity of laponite–doxorubicin nanohybrids by polyelectrolyte multilayer coating

Gas foaming of electrospun poly(L-lactide-co-caprolactone)/silk fibroin nanofiber scaffolds to promote cellular infiltration and tissue regeneration

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