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Mol Pharm ; 17(12): 4572-4588, 2020 12 07.
Article in English | MEDLINE | ID: mdl-33125243

ABSTRACT

Neurotensin (NTS)-polyplex is a multicomponent nonviral vector that enables gene delivery via internalization of the neurotensin type 1 receptor (NTSR1) to dopaminergic neurons and cancer cells. An approach to improving its therapeutic safety is replacing the viral karyophilic component (peptide KPSV40; MAPTKRKGSCPGAAPNKPK), which performs the nuclear import activity, by a shorter synthetic peptide (KPRa; KMAPKKRK). We explored this issue and the mechanism of plasmid DNA translocation through the expression of the green fluorescent protein or red fluorescent protein fused with KPRa and internalization assays and whole-cell patch-clamp configuration experiments in a single cell together with importin α/ß pathway blockers. We showed that KPRa electrostatically bound to plasmid DNA increased the transgene expression compared with KPSV40 and enabled nuclear translocation of KPRa-fused red fluorescent proteins and plasmid DNA. Such translocation was blocked with ivermectin or mifepristone, suggesting importin α/ß pathway mediation. KPRa also enabled NTS-polyplex-mediated expression of reporter or physiological genes such as human mesencephalic-derived neurotrophic factor (hMANF) in dopaminergic neurons in vivo. KPRa is a synthetic monopartite peptide that showed nuclear import activity in NTS-polyplex vector-mediated gene delivery. KPRa could also improve the transfection of other nonviral vectors used in gene therapy.


Subject(s)
Drug Carriers/chemical synthesis , Gene Transfer Techniques , Genetic Vectors/administration & dosage , Neurotensin/administration & dosage , Peptide Fragments/chemical synthesis , Active Transport, Cell Nucleus , Animals , Cell Line , Cell Nucleus/metabolism , Dopaminergic Neurons/cytology , Dopaminergic Neurons/metabolism , Genetic Therapy/methods , Genetic Vectors/genetics , Male , Mice , Models, Animal , Nanoparticles/chemistry , Neurotensin/genetics , Neurotensin/pharmacokinetics , Patch-Clamp Techniques , Plasmids/genetics , Rats , Receptors, Neurotensin/metabolism , Single-Cell Analysis , Stereotaxic Techniques
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