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1.
Eur J Pharm Sci ; 170: 106107, 2022 Mar 01.
Artigo em Inglês | MEDLINE | ID: mdl-34958884

RESUMO

Conventional eukaryotic expression plasmids contain a DNA backbone that is dispensable for the cellular expression of the transgene. In order to reduce the vector size, minicircle DNA technology was introduced. A drawback of the minicircle technology are considerable production costs. Nanoplasmids are a relatively new class of mini-DNA constructs that are of tremendous potential for pharmaceutical applications. In this study we have designed novel suicide nanoplasmid constructs coding for plant derived ribosome-inactivating proteins. The suicide-nanoplasmids were formulated with a targeted K16-lysine domain, analyzed for size, and characterized by electron microscopy. The anti-proliferative activity of the suicide-nanoplasmids was investigated in vitro by real time microscopy and the expression kinetic was determined using an enhanced green fluorescent protein nanoplasmid variant. In an aggressive in vivo neuroblastoma tumor model, treated mice showed a reduced tumor growth whereby the therapy was well tolerated.


Assuntos
Vetores Genéticos , Proteínas Inativadoras de Ribossomos , Animais , Camundongos , Plasmídeos , Ribossomos
2.
Int J Pharm ; 605: 120830, 2021 Aug 10.
Artigo em Inglês | MEDLINE | ID: mdl-34214654

RESUMO

Minicircle DNA is a promising tool in the field of gene therapy, whose products are increasingly gaining market access. Greater transfection efficiency and longer expression time as well as lower immunogenicity contrast with cost-intensive production, which also stands in the way of a broader use of the advantages of this technology in research. Starting from a commercial minicircle production kit a simple protocol for the cost-effective small-scale production of high-quality minicircle DNA to be used at a research scale has been developed by combining and improving procedures of various publications. An optimized size-exclusion chromatography method led to almost pure minicircle DNA with a superior proportion of the desired supercoiled plasmid conformation. The pharmaceutical potential of the produced minicircle DNA was investigated in vitro by real-time impedance assays in a tumor cell model in case of coded suicide genes as well as by ELISA of the translation product in case of coded human coagulation factor IX.


Assuntos
Técnicas de Transferência de Genes , Vetores Genéticos , DNA , Humanos , Plasmídeos , Transfecção
3.
Int J Pharm ; 589: 119822, 2020 Nov 15.
Artigo em Inglês | MEDLINE | ID: mdl-32861772

RESUMO

Transfection is the process to deliver nucleic acid into eukaryotic cells. Different transfection techniques already exist. However, they can be expensive and toxic toward subjected cells. Previous research shed light on natural occurring molecules called triterpene saponins that have great potential for the non-viral gene delivery. Using a combination of different chromatographic techniques and in vitro transfection bioassays, a new triterpenoid saponin (agrostemmoside E) from the plant Agrostemma githago L. was isolated. Agrostemmoside E was characterized by mass spectrometry, intense NMR spectroscopy and was identified as 3-{O-ß-D-Galactopyranosyl-(1→2)]-[ß-D-xylopyranosyl-(1→3)]-ß-D-glucuronopyranosyl} quillaic acid 28-O-{[ß-D-4,6-di-(O-acetyl)-glucopyranosyl-(1→3)]-[ß-D-xylopyranosyl-(1→4)]-α-L-rhamnopyranosyl-(1→2)}-[3,4-di-(O-acetyl)-ß-D-quinovopyranosyl-(1→4)]-ß-D-fucopyranoside ester. Agrostemmoside E has a great potential for delivery of gene loaded nanoplexes and increased the transfection efficiency by 70% compared to 2% without agrostemmoside E. By comparative toxicity studies, we show that agrostemmoside E can be applied at high concentrations without toxicity, justifying its use as a new tool for gene transfections.


Assuntos
Agrostemma , Saponinas , Triterpenos , Espectrometria de Massas , Estrutura Molecular
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