Multifunctional Nanoparticles Facilitate Molecular Targeting and miRNA Delivery to Inhibit Atherosclerosis in ApoE<sup>–/–</sup> Mice

Kheirolomoom, Azadeh; Kim, Chan Woo; Seo, Jai Woong; Kumar, Sandeep; Son, Dong Ju; Gagnon, M. Karen J.; Ingham, Elizabeth S.; Ferrara, Katherine W.; Jo, Hanjoong

doi:10.1021/acsnano.5b02611

Cited by 159 publications

(160 citation statements)

References 45 publications

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“…Importantly, quantitative polymerase chain reaction (qPCR) and immunohistochemistry analysis showed that Timp3 and Reck mRNA and protein expression were significantly decreased in partially-ligated LCA compared with contralateral RCA in non-Tg control mice (Figs. 6A, B), consistent with previous findings 34, 35, but upregulated in the LCA and aorta tissue from hIL-32α-Tg-mice LCA (Figs. 6A, B; Supplementary Fig.…”

Section: Resultssupporting

confidence: 93%

Interleukin-32α Inhibits Endothelial Inflammation, Vascular Smooth Muscle Cell Activation, and Atherosclerosis by Upregulating Timp3 and Reck through suppressing microRNA-205 Biogenesis

et al. 2017

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Interleukin-32 (IL-32) is a multifaceted cytokine that promotes inflammation and regulates vascular endothelial cell behavior. Although some IL-32 isoforms have been reported to contribute to vascular inflammation and atherosclerosis, the functional role of IL-32α in vascular inflammation and atherogenesis has not been studied.Methods: IL-32α function was assessed in cells with transient IL-32α overexpression or treated with recombinant human IL-32α by western blotting and mRNA expression analysis. Vascular smooth muscle cell (VSMC) proliferation and migration was examined by BrdU incorporation and wound healing assays, respectively. In addition, the participation of IL-32α on vascular inflammation, arterial wall thickening, and atherosclerosis in vivo was monitored in human IL-32α transgenic (hIL-32α-Tg) mice with or without ApoE knockout (ApoE-/-/hIL-32α-Tg).Results: Our analyses showed that IL-32α suppresses genes involved in the inflammatory and immune responses and cell proliferation, and by limiting matrix metalloproteinase (MMP) function. In vivo, administration of hIL-32α inhibited vascular inflammation and atherosclerosis in hIL-32α-Tg and ApoE-/-/hIL-32α-Tg mice. Subsequent microarray and in silico analysis also revealed a marked decreased in inflammatory gene expression in hIL-32α-Tg mice. Collectively, our studies demonstrated that IL-32α upregulates the atheroprotective genes Timp3 and Reck by downregulating microRNA-205 through regulation of the Rprd2-Dgcr8/Ddx5-Dicer1 biogenesis pathway.Conclusion: Our findings provide the first direct evidence that IL-32α is an anti-inflammatory and anti-atherogenic cytokine that may be useful as a diagnostic and therapeutic protein in atherosclerosis.

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Section: Resultssupporting

confidence: 93%

Interleukin-32α Inhibits Endothelial Inflammation, Vascular Smooth Muscle Cell Activation, and Atherosclerosis by Upregulating Timp3 and Reck through suppressing microRNA-205 Biogenesis

et al. 2017

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“…As such, mimics are designed as double-stranded duplexes, consisting of the guide strand identical to the miRNA and a complementary passenger strand that is often modified to increase or shift utilization to the guide strand (van Rooij, Purcell, & Levin, 2012); however, this renders the mimics difficult to transport through cell membranes and they can be degraded in circulation. To circumvent this barrier, several delivery vehicles have been put forward, including DNA vectors and adeno-associated virus (Kota, et al, 2009), lentivirus (Kortylewski & Nechaev, 2014), nanoparticles (Diaz & Vivas-Mejia, 2013; Kheirolomoom, et al, 2015), liposomes (Akinc, et al, 2010; Akinc, et al, 2008; Morrissey, et al, 2005), and stents (D. Wang, et al, 2015).…”

Section: Current Development Of Mirna Therapeutics That May Impactmentioning

confidence: 99%

HDL and microRNA therapeutics in cardiovascular disease

Michell

Vickers

2016

Pharmacology & Therapeutics

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microRNAs (miRNA) are small non-coding RNAs (sRNA) that post-transcriptionally regulate gene (mRNA) expression and are implicated in many biological processes and diseases. Many miRNAs have been reported to be altered in cardiovascular disease (CVD); both cellular and extracellular miRNA levels are affected by hypercholesterolemia and atherosclerosis. We and other groups have reported that lipoproteins transport miRNAs in circulation and these lipoprotein signatures are significantly altered in hypercholesterolemia and coronary artery disease (CAD). Extracellular miRNAs are a new class of potential biomarkers for CVD; however, they may also be new drug targets as high-density lipoproteins (HDL) transfer functional miRNAs to recipient cells in an endocrine-like form of intercellular communication that likely suppresses vascular inflammation. Recently, RNA-based drugs have emerged as the next frontier in drug therapy, and there are many miRNA inhibitors and mimics in clinical development. Here, we discuss specific miRNA drug targets and how their manipulation may impact CVD. We also address the potential for manipulating HDL-miRNA levels to treat CVD and the use of HDL as a delivery vehicle for RNA and chemical drugs. Finally, we outline the current and future challenges for HDL and miRNA-based therapeutics for the prevention and treatment of CVD.

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“…Kheirolomoom and colleagues used the shortened version of the peptide, VHPK, to coat cationic lipoparticles (CCL) containing anti-miR-712 within its core. 33 miR-712 is a pro-atherogenic, mechanosensitive miRNA that is upregulated by distributed flow in endothelial cells. VHPK-CCLs containing miR-712 inhibitors downregulated the miR and rescued the expression of its target genes, preventing atheroma formation in Apo E −/− mice.…”

Section: Peptides For Nanoparticles In Atherosclerosismentioning

confidence: 99%

Targeting and therapeutic peptides in nanomedicine for atherosclerosis

Chung

2016

Exp Biol Med (Maywood)

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Peptides in atherosclerosis nanomedicine provide structural, targeting, and therapeutic functionality, and can assist in overcoming delivery barriers of traditional pharmaceuticals. Moreover, their inherent biocompatibility and biodegradability make them especially attractive as materials intended for use in vivo. In this review, an overview of nanoparticle-associated targeting and therapeutic peptides for atherosclerosis are provided, including peptides designed for cellular targets such as endothelial cells, monocytes, and macrophages as well as for plaque components such as collagen and fibrin. An emphasis is placed on recent advances in multimodal strategies and a discussion on current challenges and barriers for clinical applicability is presented.

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Multifunctional Nanoparticles Facilitate Molecular Targeting and miRNA Delivery to Inhibit Atherosclerosis in ApoE^–/– Mice

Cited by 159 publications

References 45 publications

Interleukin-32α Inhibits Endothelial Inflammation, Vascular Smooth Muscle Cell Activation, and Atherosclerosis by Upregulating Timp3 and Reck through suppressing microRNA-205 Biogenesis

Interleukin-32α Inhibits Endothelial Inflammation, Vascular Smooth Muscle Cell Activation, and Atherosclerosis by Upregulating Timp3 and Reck through suppressing microRNA-205 Biogenesis

HDL and microRNA therapeutics in cardiovascular disease

Targeting and therapeutic peptides in nanomedicine for atherosclerosis

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Multifunctional Nanoparticles Facilitate Molecular Targeting and miRNA Delivery to Inhibit Atherosclerosis in ApoE–/– Mice

Cited by 159 publications

References 45 publications

Interleukin-32α Inhibits Endothelial Inflammation, Vascular Smooth Muscle Cell Activation, and Atherosclerosis by Upregulating Timp3 and Reck through suppressing microRNA-205 Biogenesis

Interleukin-32α Inhibits Endothelial Inflammation, Vascular Smooth Muscle Cell Activation, and Atherosclerosis by Upregulating Timp3 and Reck through suppressing microRNA-205 Biogenesis

HDL and microRNA therapeutics in cardiovascular disease

Targeting and therapeutic peptides in nanomedicine for atherosclerosis

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Multifunctional Nanoparticles Facilitate Molecular Targeting and miRNA Delivery to Inhibit Atherosclerosis in ApoE^–/– Mice