Sustained Reduction of Vein Graft Neointima Formation by Ex Vivo TIMP-3 Gene Therapy

George, Sarah J.; Wan, Song; Hu, Jia; Macdonald, R. Glen; Johnson, Jason L.; Baker, Andrew H.

doi:10.1161/circulationaha.110.012732

Cited by 67 publications

(51 citation statements)

References 36 publications

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“…VSMCs are one of the major cellular components of the vessel wall and are implicitly involved in neointimal formation [25]. For example (and aligned to our own research) in vein graft disease, VSMC proliferation and migration contributes to the increased vein graft medial thickening, neointimal formation and superimposed atherosclerosis [26].…”

Section: The Role Of Mirnas In Pathological Vascular Remodellingmentioning

confidence: 58%

Role of noncoding RNA in vascular remodelling

Lin

Bradshaw

Baker

2016

Current Opinion in Lipidology

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Purpose of review: Non-coding RNA (ncRNAs), such as microRNAs (miRNAs) and long non-coding RNAs (LncRNAs), are becoming fundamentally important in the pathophysiology relating to injury-induced vascular remodelling. We highlight recent studies that demonstrate the involvement of ncRNAs in vein graft disease, in in-stent restenosis (ISR) and in pulmonary arterial hypertension (PAH), with a particular focus on endothelial cell (EC) and vascular smooth muscle cell (VSMC) function. We also briefly discuss the emerging role of exosomal-derived ncRNAs and how this mechanism impacts on vascular function.

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Section: The Role Of Mirnas In Pathological Vascular Remodellingmentioning

confidence: 58%

Role of noncoding RNA in vascular remodelling

Lin

Bradshaw

Baker

2016

Current Opinion in Lipidology

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“…TIMP3 was selected for further study since the miR-712 interactome analysis (Figure 3a; Supplementary Figure S8) suggested its potential role as a key gene hub connected to numerous genes of interest, including matrix metalloproteinases-2/9 (MMP2/9) and a disintegrin and metalloproteinase 10/17 (ADAM10/17), ADAM with thrombospondin type 1 motif, 4 (ADAMTS4) and versican that are known to play a critical role in the regulation of vascular inflammation, permeability and atherosclerosis 23,24,25,26,27,28 .…”

Section: Mir-712 Targets Timp3 In the Endotheliummentioning

confidence: 99%

The atypical mechanosensitive microrna-712 derived from pre-ribosomal RNA induces endothelial inflammation and atherosclerosis

Son

Kumar

2014

Atherosclerosis

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MicroRNAs (miRNAs) regulate cardiovascular biology and disease, but the role of flow-sensitive microRNAs in atherosclerosis is still unclear. Here we identify miRNA-712 (miR-712) as a mechanosensitive miRNA upregulated by disturbed flow (d-flow) in endothelial cells, in vitro and in vivo. We also show that miR-712 is derived from an unexpected source, pre-ribosomal RNA, in an exoribonuclease-dependent but DiGeorge Syndrome Critical Region-8 (DGCR8)-independent manner, suggesting that it is an atypical miRNA. Mechanistically, d-flow-induced miR-712 downregulates tissue inhibitor of metalloproteinase-3 (TIMP3) expression, which in turn activates the downstream matrix metalloproteinases (MMPs) and a disintegrin and metalloproteases (ADAMs) and stimulate pro-atherogenic responses, endothelial inflammation and permeability. Author Contribution DJS and SK contributed equally to the manuscript. DJS, SK, WT, CN, JWS and KWF designed the experiments. DJS, SK, WT, CN, CW, JWS, SK, IHJ and NAG performed the experiments. DJS, WT, SK, CN, CWK, SOK, WKK, JWS, and NAG analyzed the data. AHB and KWF provided key reagents. SK, DJS, and HJ wrote the manuscript. HJ supervised the overall research, secured funding, designed experiments and interpreted results and wrote the manuscript. Accession codesThe microarray data have been deposited in NCBI's Gene Expression Omnibus (GEO) and are accessible through GEO Series accession number GSE52243.Conflict of Interest None. Furthermore, silencing miR-712 by anti-miR-712 rescues TIMP3 expression and prevents atherosclerosis in murine models of atherosclerosis. Finally, we report that human miR-205 shares the same "seed sequence" as murine-specific miR-712, and also targets TIMP3 in a flowdependent manner. Targeting these mechanosensitive "athero-miRs" may provide a new treatment paradigm in atherosclerosis. HHS Public Access

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“…62,63 Furthermore, direct proof of the involvement of MMPs in vein graft intimal thickening has been provided by the observation that overexpression of the endogenous MMP inhibitors tissue inhibitors of MMPs (TIMPs) significantly retarded intimal thickening. [64][65][66][67] Overproduction of superoxide (O 2 À ) is an important pathological component of vein graft failure, the principal source being nicotinamide adenine dinucleotide phosphate oxidase (for a review, see Jeremy et al 68 ). Nicotinamide adenine dinucleotide phosphate oxidase is upregulated by many platelets and leukocytes factors such as entothelin-1, leukotrienes and serotonin.…”

Section: Pathogenesis Of Vein Graft Diseasementioning

confidence: 99%

“…For example, some early studies showed enhanced neointima formation following arterial gene transfer in rabbits as well as high levels of inflammatory markers on endothelium; 82 however, we recently reported that there was no difference in inflammatory markers in long-term pig grafts using Ad5 vectors. 67 This may represent differences in responses in different models (rabbit/pig) and potential differences in virus quality control. Clearly, modulation of virus infection to maintain/improve target cell infection within the constraints imposed in the vein graft gene therapy setting would be advantageous.…”

Section: Vectors For Gene Delivery To Bypass Graftsmentioning

confidence: 99%

“…66 We have recently performed longer term experiments in a pig vein graft model and shown sustained efficacy out to 3 months post gene transfer. 67 This is important since it illustrates that short-term transgene overexpression leads to lasting effects on neointima formation. Taken together with other studies, this presents a new opportunity to treat late vein graft failure using an Ad gene therapy approach and is a goal that we are aiming to test clinically in the future.…”

Section: Studies Using Gene Therapy For Vein Graftsmentioning

confidence: 99%

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Vein graft failure: current clinical practice and potential for gene therapeutics

et al. 2012

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Autologous saphenous vein is commonly used as a conduit to bypass atherosclerotic lesions in coronary and femoral arteries. Despite the wide use of arterial conduits, which are less susceptible to complications and failure, as alternative conduits, the saphenous vein will continue to be used in coronary artery bypass grafting until acceptable alternative approaches are evaluated. Hence, preservation of vein graft patency is essential for the long-term success. Gene therapy is attractive in this setting as an ex-vivo technology to genetically manipulate the conduit before grafting. The use of safe and efficient vectors for delivery is a necessity as well as a strategy to improve patency in the long term. Here, we review the current clinical practice, the pathogenesis of bypass graft failure and adenovirus-mediated gene therapy strategies designed to improve late vein graft failure by modulation of smooth muscle cells in the vein wall.

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Sustained Reduction of Vein Graft Neointima Formation by Ex Vivo TIMP-3 Gene Therapy

Cited by 67 publications

References 36 publications

Role of noncoding RNA in vascular remodelling

Role of noncoding RNA in vascular remodelling

The atypical mechanosensitive microrna-712 derived from pre-ribosomal RNA induces endothelial inflammation and atherosclerosis

Vein graft failure: current clinical practice and potential for gene therapeutics

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