Local gene transfer to calcified tissue cells using prolonged infusion of a lentiviral vector

Wazen, Rima; Moffatt, Pierre; Zalzal, S.; Daniel, Noëmie; Westerman, Karen A.; Nanci, Antonio

doi:10.1038/sj.gt.3302824

Cited by 19 publications

(15 citation statements)

References 59 publications

(77 reference statements)

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“…Lentiviruses have been used and showed that they can infect osteoblasts with high efficiency in vitro. When directly applied in vivo into surgically created lesions of the mandible and tibia, lentiviruses were found to infect most cell types present in bone, especially in the regenerating chondrocytic callus of the tibia (Wazen et al, 2006). A recent study showed success with lentiviral vectors as delivery system for shRNAmediated RNA interference in MC3T3 cells (Moffatt et al, 2008).…”

Section: Rna Interferencementioning

confidence: 99%

Distraction Osteogenesis and Its Challenges in Bone Regeneration

Hamdy¹,

Rendon²,

Tabrizian³

2012

Bone Regeneration

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Section: Rna Interferencementioning

confidence: 99%

Distraction Osteogenesis and Its Challenges in Bone Regeneration

Hamdy¹,

Rendon²,

Tabrizian³

2012

Bone Regeneration

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“…Moreover, it has to be mentioned that for immunotherapy, the lentiviral vectors are systemically administered, whereas in the case of gene therapy, the lentiviral vectors are most often administered in the Lentiviral vectors in cancer immunotherapy K Breckpot et al tissue of interest, resulting in transduction of these tissue-specific cells. [157][158][159][160][161] Second, when using ex vivo-transduced DC or targeting DC in vivo, terminally differentiated, nondividing cells are transduced as opposed to extensively proliferating cells in the SCID trial, thereby posing less of a risk for oncogenic transformations. Finally, when an immune response is induced in vivo, the effector cells will most likely kill cells that express the target antigen, including the transduced APC, thus, further reducing the risk for oncogenesis.…”

Section: Concerns In View Of Lentiviral Vectors As Anticancer Vaccinementioning

confidence: 99%

Lentiviral vectors for cancer immunotherapy: transforming infectious particles into therapeutics

2007

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Lentiviral vectors have emerged as promising tools for both gene therapy and immunotherapy purposes. They exhibit several advantages over other viral systems in that they are less immunogenic and are capable of transducing a wide range of different cell types, including dendritic cells (DC). DC transduced ex vivo with a whole range of different (tumor) antigens were capable of inducing strong antigen-specific T-cell responses, both in vitro and in vivo. Recently, the administration of lentiviral vectors in vivo has gained substantial interest as an alternative method for antigenspecific immunization. This method offers a number of advantages over DC vaccines as the same lentivirus can in principle be used for all patients resulting in a significantly reduced cost and requirement for considerably less expertise for the generation and administration of lentiviral vaccines. By selectively targeting lentiviral vectors to, or restricting transgene expression in certain cell types, selectivity, safety and efficacy can be further improved. This review will focus on the use of direct administration of lentiviral vectors encoding tumor-associated antigens (TAA) for the induction of tumor-specific immune responses in vivo, with a special focus on problems related to the generation of large amounts of highly purified virus and specific targeting of antigenpresenting cells (APC).

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“…An NheI-BamHI restriction fragment encompassing the PKAdn cDNA and the c-Myc tag was subcloned into pLVX-IRES-Puro between the SpeI and BamHI restriction sites of the pLVX vector. Lentivirus production and cell infection were performed as previously described (27 SDS, 5 mM EDTA, 2.5 mM sodium pyrophosphate, 1 mM ␤-glycerophosphate, 1 mM sodium orthovanadate, and 1 g/ml leupeptin, 1 g/ml aprotinin, 1 mM phenylmethylsulfonyl fluoride protease inhibitors). For immunoprecipitation (IP), the cells were collected in IP buffer (20 mM Tris-HCl [pH 7.5], 150 mM NaCl, 1 mM EDTA, 1 mM EGTA, 1% Triton X-100, 2.5 mM sodium pyrophosphate, 1 mM ␤-glycerophosphate, 1 mM sodium orthovanadate, with protease inhibitors).…”

Section: Methodsmentioning

confidence: 99%

The PTH-Gα_s-Protein Kinase A Cascade Controls αNAC Localization To Regulate Bone Mass

Pellicelli

Miller

Arabian

et al. 2014

Molecular and Cellular Biology

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The binding of PTH to its receptor induces G␣ s -dependent cyclic AMP (cAMP) accumulation to turn on effector kinases, including protein kinase A (PKA). The phenotype of mice with osteoblasts specifically deficient for G␣ s is mimicked by a mutation leading to cytoplasmic retention of the transcriptional coregulator ␣NAC, suggesting that G␣ s and ␣NAC form part of a common genetic pathway. We show that treatment of osteoblasts with PTH(1-34) or the PKA-selective activator N 6 -benzoyladenosine cAMP (6Bnz-cAMP) leads to translocation of ␣NAC to the nucleus. ␣NAC was phosphorylated by PKA at serine 99 in vitro. Phospho-S99-␣NAC accumulated in osteoblasts exposed to PTH(1-34) or 6Bnz-cAMP but not in treated cells expressing dominant-negative PKA. Nuclear accumulation was abrogated by an S99A mutation but enhanced by a phosphomimetic residue (S99D). Chromatin immunoprecipitation (ChIP) analysis showed that PTH(1-34) or 6Bnz-cAMP treatment leads to accumulation of ␣NAC at the Osteocalcin (Ocn) promoter. Altered gene dosages for G␣ s and ␣NAC in compound heterozygous mice result in reduced bone mass, increased numbers of osteocytes, and enhanced expression of Sost. Our results show that ␣NAC is a substrate of PKA following PTH signaling. This enhances ␣NAC translocation to the nucleus and leads to its accumulation at target promoters to regulate transcription and affect bone mass.

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Local gene transfer to calcified tissue cells using prolonged infusion of a lentiviral vector

Cited by 19 publications

References 59 publications

Distraction Osteogenesis and Its Challenges in Bone Regeneration

Distraction Osteogenesis and Its Challenges in Bone Regeneration

Lentiviral vectors for cancer immunotherapy: transforming infectious particles into therapeutics

The PTH-Gα_s-Protein Kinase A Cascade Controls αNAC Localization To Regulate Bone Mass

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Local gene transfer to calcified tissue cells using prolonged infusion of a lentiviral vector

Cited by 19 publications

References 59 publications

Distraction Osteogenesis and Its Challenges in Bone Regeneration

Distraction Osteogenesis and Its Challenges in Bone Regeneration

Lentiviral vectors for cancer immunotherapy: transforming infectious particles into therapeutics

The PTH-Gαs-Protein Kinase A Cascade Controls αNAC Localization To Regulate Bone Mass

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Product

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The PTH-Gα_s-Protein Kinase A Cascade Controls αNAC Localization To Regulate Bone Mass