Comparison of Gene Delivery to the Kidney by Adenovirus, Adeno-Associated Virus, and Lentiviral Vectors After Intravenous and Direct Kidney Injections

Rubin, Jeffrey D.; Nguyen, Tien Van; Allen, Kari L.; Ayasoufi, Katayoun; Barry, Michael A.

doi:10.1089/hum.2019.127

Cited by 54 publications

(48 citation statements)

References 51 publications

(73 reference statements)

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“…Gene therapy has been attempted against cancer for the past 28 years, with more than 67% of clinical trials of gene therapy designed to treat cancer patients [ 1 ]. However, progress has been hindered, mostly by a lack of tumor-selective gene delivery vectors efficient via clinical systemic routes and by problems with repeated vector administrations [ 2 , 3 ]. Currently, the most common vectors are eukaryotic viruses, because they can enter cells and deliver genes as part of the natural infection process.…”

Section: Introductionmentioning

confidence: 99%

Doxorubicin Improves Cancer Cell Targeting by Filamentous Phage Gene Delivery Vectors

Tsafa

Bentayebi

Topanurak

et al. 2020

IJMS

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Merging targeted systemic gene delivery and systemic chemotherapy against cancer, chemovirotherapy, has the potential to improve chemotherapy and gene therapy treatments and overcome cancer resistance. We introduced a bacteriophage (phage) vector, named human adeno-associated virus (AAV)/phage or AAVP, for the systemic targeting of therapeutic genes to cancer. The vector was designed as a hybrid between a recombinant adeno-associated virus genome (rAAV) and a filamentous phage capsid. To achieve tumor targeting, we displayed on the phage capsid the double-cyclic CDCRGDCFC (RGD4C) ligand that binds the alpha-V/beta-3 (αvβ3) integrin receptor. Here, we investigated a combination of doxorubicin chemotherapeutic drug and targeted gene delivery by the RGD4C/AAVP vector. Firstly, we showed that doxorubicin boosts transgene expression from the RGD4C/AAVP in two-dimensional (2D) cell cultures and three-dimensional (3D) tumor spheres established from human and murine cancer cells, while preserving selective gene delivery by RGD4C/AAVP. Next, we confirmed that doxorubicin does not increase vector attachment to cancer cells nor vector cell entry. In contrast, doxorubicin may alter the intracellular trafficking of the vector by facilitating nuclear accumulation of the RGD4C/AAVP genome through destabilization of the nuclear membrane. Finally, a combination of doxorubicin and RGD4C/AAVP-targeted suicide gene therapy exerts a synergistic effect to destroy human and murine tumor cells in 2D and 3D tumor sphere settings.

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Section: Introductionmentioning

confidence: 99%

Doxorubicin Improves Cancer Cell Targeting by Filamentous Phage Gene Delivery Vectors

Tsafa

Bentayebi

Topanurak

et al. 2020

IJMS

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“…Several publications provide a comprehensive overview of recent progresses using viral vectors for direct gene transfer to the kidney. Different strategies have been developed to demonstrate viral vector transduction in all types of cells within the kidney, including the glomeruli, tubular epithelial cells in the cortex and medulla, and interstitial cells [ 22 , 23 ]. Important to state, is the fact that in this work, total renal expression of hMMP8 was the primary aim of AdMMP8 administration, regardless of the type of a specific protein-expressing cell.…”

Section: Discussionmentioning

confidence: 99%

Fibrosis regression is induced by AdhMMP8 in a murine model of chronic kidney injury

et al. 2020

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Adenoviral vector AdhMMP8 (human Metalloproteinase-8 cDNA) administration has been proven beneficial in various experimental models of liver injury improving liver function and decreasing fibrosis. In this study, we evaluated the potential therapeutic AdhMMP8 effect in a chronic kidney damage experimental model. Chronic injury was induced by orogastric adenine administration (100mg/kg/day) to Wistar rats for 4 weeks. AdhMMP8 (3x1011vp/kg) was administrated in renal vein during an induced-ligation-ischemic period to facilitate kidney transduction causing no-additional kidney injury as determined by histology and serum creatinine. Animals were sacrificed at 7- and 14-days post-Ad injection. Fibrosis, histopathological features, serum creatinine (sCr), BUN, and renal mRNA expression of αSMA, Col-1α, TGF-β1, CTGF, BMP7, IL-1, TNFα, VEGF and PAX2 were analyzed. Interestingly, AdhMMP8 administration resulted in cognate human MMP8 protein detection in both kidneys, whereas hMMP8 mRNA was detected only in the left kidney. AdhMMP8 significantly reduced kidney tubule-interstitial fibrosis and glomerulosclerosis. Also, tubular atrophy and interstitial inflammation were clearly decreased rendering improved histopathology, and down regulation of profibrogenic genes expression. Functionally, sCr and BUN were positively modified. The results showed that AdhMMP8 decreased renal fibrosis, suggesting that MMP8 could be a possible therapeutic candidate for kidney fibrosis treatment.

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“…Podocytes within the glomerulus create slit diaphragms with diameters of only 10 nm. Results from a number of studies targeting the renal tubules via renal artery injection suggest that this glomerular filtration barrier can be temporarily disrupted by controlled hydrodynamic-pressure upon injection, potentially allowing the administration of large bioconjugates and nanoparticles [ 118 ]; (2) retrograde renal vein administration, predominantly targeting the renal tubules through the basolateral domain. Similar to what occurs in the renal artery, increased localized pressure in the renal capillaries creates transient pores on cell membranes, resulting in nucleic acid extravasation [ 18 , 22 , 61 ]; (3) retrograde ureteral administration, targeting the tubular epithelium; (4) intraparenchymal administration.…”

Section: Overcoming Delivery Problemsmentioning

confidence: 99%

“…Although viral vectors are excluded by the glomerular filtration barrier, even those based on adeno-associated virus (AAV), which have the smallest capsid diameters (25 nm), the use of direct routes of administration has successfully achieved renal transduction [ 118 , 120 , 121 ]. This indicates the feasibility of using viral vectors and similar large-sized nanoparticles to deliver oligonucleotides.…”

Section: Overcoming Delivery Problemsmentioning

confidence: 99%

“…The same strategies employed for their use in gene therapy can be adapted here, including the possibility of a rational design and modification of the viral particles to improve renal tropism [ 123 ], or kidney-specific promoters that increase specificity and expression in renal cells [ 124 ]. As previously mentioned, this strategy has already been successfully tested for gene therapy purposes [ 118 , 119 ].…”

Section: Overcoming Delivery Problemsmentioning

confidence: 99%

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Oligonucleotide-Based Therapies for Renal Diseases

et al. 2021

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The global burden of chronic kidney disease (CKD) is increasing every year and represents a great cost for public healthcare systems, as the majority of these diseases are progressive. Therefore, there is an urgent need to develop new therapies. Oligonucleotide-based drugs are emerging as novel and promising alternatives to traditional drugs. Their expansion corresponds with new knowledge regarding the molecular basis underlying CKD, and they are already showing encouraging preclinical results, with two candidates being evaluated in clinical trials. However, despite recent technological advances, efficient kidney delivery remains challenging, and the presence of off-targets and side-effects precludes development and translation to the clinic. In this review, we provide an overview of the various oligotherapeutic strategies used preclinically, emphasizing the most recent findings in the field, together with the different strategies employed to achieve proper kidney delivery. The use of different nanotechnological platforms, including nanocarriers, nanoparticles, viral vectors or aptamers, and their potential for the development of more specific and effective treatments is also outlined.

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Comparison of Gene Delivery to the Kidney by Adenovirus, Adeno-Associated Virus, and Lentiviral Vectors After Intravenous and Direct Kidney Injections

Cited by 54 publications

References 51 publications

Doxorubicin Improves Cancer Cell Targeting by Filamentous Phage Gene Delivery Vectors

Doxorubicin Improves Cancer Cell Targeting by Filamentous Phage Gene Delivery Vectors

Fibrosis regression is induced by AdhMMP8 in a murine model of chronic kidney injury

Oligonucleotide-Based Therapies for Renal Diseases

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