Title
New clathrin nanotechnology for transport of large protein molecules to the central nervous system
Creator
Stanojević-Vitaliano, Gordana D.
Copyright date
2015
Object Links
Select license
Bez licence - direktna primena zakona
License description
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Language
English
Cobiss-ID
Theses Type
Doktorska disertacija
description
Datum odbrane: 03.06.2016.
Other responsibilities
mentor
Malobabić, Slobodan, 1949-
mentor
Raković, Dejan, 1951-
član komisije
Rakić, Ljubisav, 1931-
član komisije
Ignjatović, Nenad, 1967-
član komisije
Marković, Zoran
University
Univerzitet u Beogradu
Alternative title
Новa нанотехнологијa на бази клатрина за пренос великих протеинских молекула у централни нервни систем
Publisher
[G. D. Stanojević-Vitaliano]
Format
151 list
description
Medicine, Bioengineering, Neuroscience / медицина, биоинжињерство, неуронаукa
Abstract (en)
Antibodies (Abs) have great promise for detection and treatment of central nervous
system (CNS) disorders. However, the blood-brain barrier (BBB) is a major impediment
to effective delivery. Only 0.1% of plasma Abs enter the CNS naturally via diffusion
through a compromised BBB or via BBB saturation and CNS concentrations may still be
insufficient for therapeutic efficacy. Moreover, Abs may take days to diffuse only a few
millimeters and intracellular targets are not easily accessible to Abs. Thus, new, efficient,
and noninvasive strategies are required for transporting large molecules like Abs into the
CNS and inside targeted cells. Here we tested the hypothesis that clathrin, a coat protein
naturally used to transport molecules across biological barriers and within cells, could
serve as a nanoplatform for high-efficiency delivery of antibodies and imaging agents to
the CNS.
Clathrin triskelia (17.7 nm in size) were modified to carry 81 gadolinium chelates or
25 fluorescent tags. Nanoplatforms were characterized by size, structure, protein
concentration, chelate and gadolinium contents and nanoparticle relaxivity was evaluated
at 0.47 T. Clathrin triskelia exhibited ionic relaxivity of 16 mM-1s-1, and molecular
relaxivity of 1166 mM-1s-1. A series of studies were conducted to ascertain whether
fluorescent-tagged clathrin nanoplatforms could cross the blood brain barrier. Clathrin
nanoplatforms were able to cross or bypass the BBB without enhancements following
intraperitoneal and intranasal administration in rats.
To demonstrate specific targeting clathrin triskelia were modified with dopamine-3-
receptor-antibody (D3R-Ab), as there are no small-molecule ligands that bind exclusively
to D3 receptors. One molecule of D3R-Ab was attached per clathrin triskelion and antibody
remained intact and immunoreactive after the nanoparticle preparation. Low doses (64 μg/
kg) of nanoparticles (42.3±14.8 nm) were delivered intranasally in rats. Three hours later
intact D3R-Ab-triskelia nanoparticles were found in D3R-brain regions inside neurons,
with the highest concentration detected in islands of Calleja /ventral pallidum (2753 ng/g
or 17.2% ID/g) and nucleus accumbens (1028 ng/g). High nanoprobe concentrations
(1062 ng/g) were also found in hippocampal cells that have high concentrations of D3-
receptors in the cytoplasm, but low expression of D3-receptors on the cell membrane.
Low concentrations were detected in the cerebellum (84 ng/g.) Nanoprobes were not
detected in regions lacking D3 receptors. D3R-Abs delivered without clathrin intranasally
did not enter the brain...
Authors Key words
Nanotechnology, Clathrin nanoparticles, CNS antibody delivery, Dopamine
3 receptor imaging
Authors Key words
нанотехнологија, клатринске наночестице, транспорт антитела у
ЦНС, детекција допаминског рецептора Д3
Classification
616.831:577.25(043.3)
Type
Tekst
Abstract (en)
Antibodies (Abs) have great promise for detection and treatment of central nervous
system (CNS) disorders. However, the blood-brain barrier (BBB) is a major impediment
to effective delivery. Only 0.1% of plasma Abs enter the CNS naturally via diffusion
through a compromised BBB or via BBB saturation and CNS concentrations may still be
insufficient for therapeutic efficacy. Moreover, Abs may take days to diffuse only a few
millimeters and intracellular targets are not easily accessible to Abs. Thus, new, efficient,
and noninvasive strategies are required for transporting large molecules like Abs into the
CNS and inside targeted cells. Here we tested the hypothesis that clathrin, a coat protein
naturally used to transport molecules across biological barriers and within cells, could
serve as a nanoplatform for high-efficiency delivery of antibodies and imaging agents to
the CNS.
Clathrin triskelia (17.7 nm in size) were modified to carry 81 gadolinium chelates or
25 fluorescent tags. Nanoplatforms were characterized by size, structure, protein
concentration, chelate and gadolinium contents and nanoparticle relaxivity was evaluated
at 0.47 T. Clathrin triskelia exhibited ionic relaxivity of 16 mM-1s-1, and molecular
relaxivity of 1166 mM-1s-1. A series of studies were conducted to ascertain whether
fluorescent-tagged clathrin nanoplatforms could cross the blood brain barrier. Clathrin
nanoplatforms were able to cross or bypass the BBB without enhancements following
intraperitoneal and intranasal administration in rats.
To demonstrate specific targeting clathrin triskelia were modified with dopamine-3-
receptor-antibody (D3R-Ab), as there are no small-molecule ligands that bind exclusively
to D3 receptors. One molecule of D3R-Ab was attached per clathrin triskelion and antibody
remained intact and immunoreactive after the nanoparticle preparation. Low doses (64 μg/
kg) of nanoparticles (42.3±14.8 nm) were delivered intranasally in rats. Three hours later
intact D3R-Ab-triskelia nanoparticles were found in D3R-brain regions inside neurons,
with the highest concentration detected in islands of Calleja /ventral pallidum (2753 ng/g
or 17.2% ID/g) and nucleus accumbens (1028 ng/g). High nanoprobe concentrations
(1062 ng/g) were also found in hippocampal cells that have high concentrations of D3-
receptors in the cytoplasm, but low expression of D3-receptors on the cell membrane.
Low concentrations were detected in the cerebellum (84 ng/g.) Nanoprobes were not
detected in regions lacking D3 receptors. D3R-Abs delivered without clathrin intranasally
did not enter the brain...
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