Pancreatic Transduction by Helper-Dependent Adenoviral Vectors via Intraductal Delivery

Morró, Meritxell; Teichenne, Joan; Jiménez, Verónica; Kratzer, Ramona F.; Marletta, Serena; Maggioni, Luca; Mallol, Cristina; Ruberte, Jesús; Kochanek, Stefan; Bosch, Fátima; Ayuso, Eduard

doi:10.1089/hum.2013.182

Cited by 9 publications

(7 citation statements)

References 48 publications

(70 reference statements)

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“…With respect to clinical applications, the substitution of first generation adenoviral vectors with other type of vectors that are less immunogenic and toxic than adenovirus, such as AAV or helper-dependent adenoviral (HD-Ad) vectors, is desirable [ 47 ]. Our laboratory has shown that efficient and persistent transduction of the pancreas in vivo is possible using AAV and HD-Ad vectors via intraductal administration [ 48 , 49 ]. Thus, to induce acinar-to-β cell reprogramming in immunocompetent animals and humans, it might be feasible to co-express PNM and miRNAs of interest in vivo (for instance, those that are activated by first generation adenoviral vectors) using AAV or HD-Ad vectors.…”

Section: Discussionmentioning

confidence: 99%

Identification of miRNAs Involved in Reprogramming Acinar Cells into Insulin Producing Cells

et al. 2015

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Reprogramming acinar cells into insulin producing cells using adenoviral (Ad)-mediated delivery of Pdx1, Ngn3 and MafA (PNM) is an innovative approach for the treatment of diabetes. Here, we aimed to investigate the molecular mechanisms involved in this process and in particular, the role of microRNAs. To this end, we performed a comparative study of acinar-to-β cell reprogramming efficiency in the rat acinar cell line AR42J and its subclone B13 after transduction with Ad-PNM. B13 cells were more efficiently reprogrammed than AR42J cells, which was demonstrated by a strong activation of β cell markers (Ins1, Ins2, IAPP, NeuroD1 and Pax4). miRNome panels were used to analyze differentially expressed miRNAs in acinar cells under four experimental conditions (i) non-transduced AR42J cells, (ii) non-transduced B13 cells, (iii) B13 cells transduced with Ad-GFP vectors and (iv) B13 cells transduced with Ad-PNM vectors. A total of 59 miRNAs were found to be differentially expressed between non-transduced AR42J and B13 cells. Specifically, the miR-200 family was completely repressed in B13 cells, suggesting that these cells exist in a less differentiated state than AR42J cells and as a consequence they present a greater plasticity. Adenoviral transduction per se induced dedifferentiation of acinar cells and 11 miRNAs were putatively involved in this process, whereas 8 miRNAs were found to be associated with PNM expression. Of note, Ad-PNM reprogrammed B13 cells presented the same levels of miR-137-3p, miR-135a-5p, miR-204-5p and miR-210-3p of those detected in islets, highlighting their role in the process. In conclusion, this study led to the identification of miRNAs that might be of compelling importance to improve acinar-to-β cell conversion for the future treatment of diabetes.

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Section: Discussionmentioning

confidence: 99%

Identification of miRNAs Involved in Reprogramming Acinar Cells into Insulin Producing Cells

et al. 2015

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“…Their data proved that most of the vector genomes were found in the liver, lungs, and spleen via intravenous administration. In contrast, a highly significant reduction of systemic dissemination of vector genomes to these off‐target organs was detected when the same dose of vectors was administered through the intrapancreatic duct …”

Section: Introductionmentioning

confidence: 94%

“…In contrast, a highly significant reduction of systemic dissemination of vector genomes to these off-target organs was detected when the same dose of vectors was administered through the intrapancreatic duct. 12 These studies point to the fact that the intrapancreatic ductal injection route would result in a better transduction of the target organ with reduced systemic dissemination. An additional important benefit derives from the fact that intrapancreatic duct injection is an approved clinical method.…”

Section: Introductionmentioning

confidence: 99%

Magnetic resonance imaging of intra‐pancreatic ductal nanoparticle delivery to islet cells

Wang

Ross

Yoo

et al. 2017

Diabetes Metabolism Res

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“…HDAd eliminate the problem of viral gene expression in transfected cells, which accompanies AAV [45]. HDAd have been reported to show long-term expression of transgenes in the pancreas [46]. …”

Section: Gene Therapy Delivery Systems For the Treatment Of Diabetes mentioning

confidence: 99%

Transgene and islet cell delivery systems using nano-sized carriers for the treatment of diabetes mellitus

Ookawara

Ishibashi

et al. 2017

Nano Reviews & Experiments

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Gene therapy that targets the pancreas and intestines with delivery systems using nano-sized carriers such as viral and non-viral vectors could improve the control of blood glucose levels, resulting in an improved prognosis for patients with diabetes mellitus. Allogenic pancreatic islet cell transplantations using such delivery systems have been developed as therapeutic options for diabetes mellitus. This review focuses on transgenes and islet cell delivery systems using nano-sized carriers for the treatment of diabetes mellitus.

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Pancreatic Transduction by Helper-Dependent Adenoviral Vectors via Intraductal Delivery

Cited by 9 publications

References 48 publications

Identification of miRNAs Involved in Reprogramming Acinar Cells into Insulin Producing Cells

Identification of miRNAs Involved in Reprogramming Acinar Cells into Insulin Producing Cells

Magnetic resonance imaging of intra‐pancreatic ductal nanoparticle delivery to islet cells

Transgene and islet cell delivery systems using nano-sized carriers for the treatment of diabetes mellitus

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