A  89 Zr-labeled lipoplex nanosystem for image-guided gene delivery: design, evaluation of stability and in vivo behavior

Hajdú, István; Makhlouf, Amal I.; Solomon, Viswas Raja; Michel, Deborah; Al-Dulaymi, Mays Aiyed Mohan; Wasan, Kishor M; Fonge, Humphrey; Badea, Ildiko

doi:10.2147/IJN.S179806

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A ⁸⁹Zr-labeled lipoplex nanosystem for image-guided gene delivery: design, evaluation of stability and in vivo behavior

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Author(s): Istvan Hajdu ¹ , Amal Makhlouf ¹ ^, ² , Viswas Raja Solomon ³ , Deborah Michel ¹ , Mays Al-Dulaymi ¹ , Kishor M Wasan ¹ , Humphrey Fonge ³ ^, ⁴ , Ildiko Badea ¹

Publication date (Electronic): 21 November 2018

Journal: International Journal of Nanomedicine

Publisher: Dove Medical Press

Keywords: gemini surfactant, pharmacokinetic, biodistribution, melanoma, microPET imaging

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Abstract

Background

With the advances in radiopharmaceutical research, the development of image-guided therapy has become a major interest. While the development of theranostic nanotherapeutics is frequently associated with cancer chemotherapy, phototherapy and radiotherapy, there is little information available on the in vivo monitoring of gene delivery systems and the application of image-guided approach in gene therapy. The goal of this work was to determine the in vivo behavior of DNA delivery nanosystems - based on cationic gemini surfactants – designed for image-guided gene therapy. We tested the feasibility of monitoring tumor accumulation of gene delivery nanoparticles by positron emission tomography.

Methods

To be able to conjugate radiotracers to the nanoparticles, a deferoxamine-modified gemini surfactant was synthesized, DNA-containing lipoplex nanoparticles were formulated, and radiolabeled with Zirconium-89 ( ⁸⁹Zr). The pharmacokinetics and biodistribution of ⁸⁹Zr labeled surfactant and ⁸⁹Zr labeled nanoparticles were monitored in mice by microPET/CT imaging and ex vivo gamma counting.

Results

Modification of the nanoparticles with deferoxamine did not alter their physicochemical properties. The radiolabeled nanoparticles (labeling efficiency of 95±3%) were stable in PBS and serum. The biological half-life of the ⁸⁹Zr labeled nanoparticles was significantly higher compared to ⁸⁹Zr labeled surfactant. As expected, the nanoparticles had significantly higher liver accumulation than the radiolabeled surfactant alone and lower kidney accumulation. Tumor uptake was detected at 2 hours post injection and decreased throughout the 3-day monitoring.

Conclusion

We propose that radiolabeling DNA delivery lipoplex nanosystems is a promising approach for the design and optimization of image-guided nanomedicines, especially in the context of cancer gene therapy.

Most cited references 51

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Analysis of nanoparticle delivery to tumours

Stefan Wilhelm, Anthony Tavares, Huan-Qin Dai … (2016)

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The first targeted delivery of siRNA in humans via a self-assembling, cyclodextrin polymer-based nanoparticle: from concept to clinic.

Mark E. Davis (2009)

Experimental therapeutics developed to exploit RNA interference (RNAi) are now in clinical studies. Here, the translation from concept to clinic for the first experimental therapeutic to provide targeted delivery of synthetic, small interfering RNA (siRNA) in humans is described. This targeted, nanoparticle formulation of siRNA, denoted as CALAA-01, consists of a cyclodextrin-containing polymer (CDP), a polythethylene glycol (PEG) steric stabilization agent, and human transferrin (Tf) as a targeting ligand for binding to transferrin receptors (TfR) that are typically upregulated on cancer cells. The four component formulation is self-assembled into nanoparticles in the pharmacy and administered intravenously (iv) to patients. The designed features of this experimental therapeutic are described, and their functions illustrated.

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Conjugation and radiolabeling of monoclonal antibodies with zirconium-89 for PET imaging using the bifunctional chelate p-isothiocyanatobenzyl-desferrioxamine.

Maria J W D Vosjan, Lars R Perk, Gerard W M Visser … (2010)

The positron emitter zirconium-89 ((89)Zr) has very attractive properties for positron emission tomography (PET) imaging of intact monoclonal antibodies (mAbs) using immuno-PET. This protocol describes the step-by-step procedure for the facile radiolabeling of mAbs or other proteins with (89)Zr using p-isothiocyanatobenzyl-desferrioxamine (Df-Bz-NCS). First, Df-Bz-NCS is coupled to the lysine-NH(2) groups of a mAb at pH 9.0 (pre-modification), followed by purification using gel filtration. Next, the pre-modified mAb is labeled at room temperature by the addition of [(89)Zr]Zr-oxalic acid solution followed by purification using gel filtration. The entire process of pre-modification, radiolabeling and purification steps will take about 2.5 h.

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Author and article information

Journal

Journal ID (nlm-ta): Int J Nanomedicine

Journal ID (iso-abbrev): Int J Nanomedicine

Journal ID (publisher-id): International Journal of Nanomedicine

Title: International Journal of Nanomedicine

Publisher: Dove Medical Press

ISSN (Print): 1176-9114

ISSN (Electronic): 1178-2013

Publication date Collection: 2018

Publication date (Electronic): 21 November 2018

Volume: 13

Pages: 7801-7818

Affiliations

[1 ]Drug Discovery and Development Research Group, College of Pharmacy and Nutrition, University of Saskatchewan, Saskatoon, SK S7N 5E5, Canada, ildiko.badea@ 123456usask.ca

[2 ]Department of Pharmaceutics and Industrial Pharmacy, Faculty of Pharmacy, Cairo University, 12411 Cairo, Egypt

[3 ]Department of Medical Imaging, College of Medicine, University of Saskatchewan, Saskatoon, SK S7N 0W8, Canada, humphrey.fonge@ 123456usask.ca

[4 ]Department of Medical Imaging, Royal University Hospital Saskatoon, SK S7N 0W8, Canada, humphrey.fonge@ 123456usask.ca

Author notes

Correspondence: Humphrey Fonge, Department of Medical Imaging, College of Medicine, University of Saskatchewan, 103 University Drive, Saskatoon, SK S7N 0W8, Canada, Tel +1 306 655 3353, Email humphrey.fonge@ 123456usask.ca

Ildiko Badea, Drug Discovery and Development Research Group, College of Pharmacy and Nutrition, University of Saskatchewan, 107 Wiggins Road, Saskatoon, SK S7N 5E5, Canada, Tel +1 306 966 6349, Fax +1 306 966 6377, Email ildiko.badea@ 123456usask.ca

Article

Publisher ID: ijn-13-7801

DOI: 10.2147/IJN.S179806

PMC ID: 6257135

SO-VID: dd6afeea-506a-4e0a-999e-587c9e53a68d

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