Topical delivery of siRNA-based spherical nucleic acid nanoparticle conjugates for gene regulation

Zheng, Dewen; Giljohann, David A.; Chen, David L.; Massich, Matthew D.; Wang, Xiao Qi; Iordanov, Hristo; Mirkin, Chad A.; Paller, Amy S.

doi:10.1073/pnas.1118425109

Cited by 365 publications

(297 citation statements)

References 46 publications

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“…Local delivery circumvents many of the challenges of delivery, but siRNA must still be protected from enzymatic degradation and effectively enter target cells within the tissues of interest. Only a few systems have been developed for local siRNA delivery; those that have rely on bulky hydrogel formulations that must be injected directly into tissues [17] or re-purposed nanoparticle solutions that must be applied multiple times to achieve efficacy [18] . Neither of these approaches has been demonstrated to treat a known medical condition (i.e., pathologic dysregulation) within tissues.…”

Section: Introductionmentioning

confidence: 99%

Self‐Assembled Wound Dressings Silence MMP‐9 and Improve Diabetic Wound Healing In Vivo

et al. 2015

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The direct local delivery of short interfering RNA (siRNA) to tissues may present solutions to several complex medical conditions. In particular, chronic wound healing is a serious and painful complication of diabetes mellitus (DM) affecting as many as one in four patients with a three year recurrence rate of more than 50% and leaving over 70,000 patients in the United States alone facing amputation. Here we describe the use of siRNA delivered locally into the diabetic ulcer directly and in a sustained fashion to knockdown a chronically upregulated extracellular matrix protease, matrix metalloproteinase-9 (MMP-9), to improve wound healing.

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Section: Introductionmentioning

confidence: 99%

Self‐Assembled Wound Dressings Silence MMP‐9 and Improve Diabetic Wound Healing In Vivo

et al. 2015

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“…To deliver miRNA into macrophages, AuNP with a diameter of 10 nm was included for siRNA conjugation ( Figure 4D), as described before. 25 After conjugation of nucleic acids, the AuNPs were 20-40 nm ( Figure 4E), which is the size that could be preferentially phagocytosed by macrophages. To confirm the macrophage-specific delivery, a Cy3-labeled RNA sequence with an 18-nt spacer was conjugated with AuNP, as described in the "Materials and methods" section.…”

Section: Aunp-mediated Mir155 Antagonist Delivery Promotes M2 Polarizmentioning

confidence: 99%

Gold nanoparticle-based miR155 antagonist macrophage delivery restores the cardiac function in ovariectomized diabetic mouse model

Jia

Chen

Wei

et al. 2017

IJN

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Diabetic cardiomyopathy is a common disease in postmenopausal women, in whom the estrogen deficiency aggravates the pathology. In this study, we have found that estrogen deficiency due to ovariectomy aggravates the inflammation in the hearts of diabetic mice, as depicted by excessive proinflammatory type 1 macrophages (M1) over anti-inflammatory type 2 macrophages (M2). Accordingly, an additional increase of reactive oxygen species, cell apoptosis, cardiac hypertrophy, and fibrosis was observed in the hearts of ovariectomized diabetic mice, in comparison with the diabetes-only group. Significantly, miR155, a potent promoter of M1 polarization, was found to be additionally enhanced in the macrophages and hearts by ovariectomy. Tail vein injection of miR155-AuNP, in which thiol-modified antago-miR155 was covalently conjugated with gold nanoparticle (AuNP), preferentially delivered the nucleic acids into the macrophages via phagocytosis. Together with the increased M2 ratio and reduced inflammation, in vivo delivery of antago-miR155 reduced cell apoptosis and restored the cardiac function. The restoration efficacy of miR155-AuNP was much better than general macrophage depletion by clodrosome. In summary, we revealed that M1/M2 imbalance contributes to the aggravated cardiomyopathy in ovariectomized diabetic mice, and therapeutically reducing miR155 in macrophages by AuNP serves as a promising strategy in improving cardiac function.

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“…The most direct strategy is the chemisorption of thiolated siRNA on AuNPs, due to the strong bond formed between gold and sulphur atoms [120]. Taking advantage of this simple interaction and based on previous functionalization of AuNPs with DNA [121][122][123][124][125], there are plenty of examples describing the analogue conjugation of siRNA with systems of different sizes [126][127][128] and shapes [39,129].…”

Section: Covalent Approachmentioning

confidence: 99%

15 years on siRNA delivery: Beyond the State-of-the-Art on inorganic nanoparticles for RNAi therapeutics

et al. 2015

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RNAi has always captivated scientists due to its tremendous power to modulate the phenotype of living organisms. This natural and powerful biological mechanism can now be harnessed to downregulate specific gene expression in diseased cells; opening up endless opportunities. Since most of the conventional siRNA delivery methods are limited by a narrow therapeutic index and significant side and off-target effects, we are now in the dawn of a new age in gene therapy driven by nanotechnology vehicles for RNAi therapeutics. Here, we outlook the "do's and dont's" of the 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 REVIEW NANO TODAY 2 inorganic RNAi nanomaterials developed in the last 15 years and the different strategies employed are compared and scrutinized, offering important suggestions for the next 15. *Manuscript Click here to view linked References

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Topical delivery of siRNA-based spherical nucleic acid nanoparticle conjugates for gene regulation

Cited by 365 publications

References 46 publications

Self‐Assembled Wound Dressings Silence MMP‐9 and Improve Diabetic Wound Healing In Vivo

Self‐Assembled Wound Dressings Silence MMP‐9 and Improve Diabetic Wound Healing In Vivo

Gold nanoparticle-based miR155 antagonist macrophage delivery restores the cardiac function in ovariectomized diabetic mouse model

15 years on siRNA delivery: Beyond the State-of-the-Art on inorganic nanoparticles for RNAi therapeutics

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