Effective Therapy Using a Liposomal siRNA that Targets the Tumor Vasculature in a Model Murine Breast Cancer with Lung Metastasis

Sakurai, Yasuhisa; Hada, Tomoya; Kato, Aki; Hagino, Yuta; Mizumura, Wataru; Harashima, Hideyoshi

doi:10.1016/j.omto.2018.10.004

Cited by 22 publications

(19 citation statements)

References 35 publications

(43 reference statements)

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“…[73][74][75][76][77] The inhibition of DLL4 by RGD peptide-modified lipid nanoparticles (RGD-LNPs) encapsulating siRNA prolongs the OS of mouse models of BC with lung metastasis. 78 In addition, lung metastasis in BC can be inhibited by the anti-cancer therapeutic peptides AD-01 and ALM201, which downregulate DLL4 and Notch4. 74 Preventing DLL4 activation in BC using antibodybased drugs represents another potential DLL4-targeting strategy, exhibiting potent anti-tumor activity in preclinical studies.…”

Section: Delta-like Ligands In Breast Cancermentioning

confidence: 99%

<p>The Role of DLLs in Cancer: A Novel Therapeutic Target</p>

Xiu

Liu

Kuang

2020

OTT

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Delta-like ligands (DLLs) control Notch signaling. DLL1, DLL3 and DLL4 are frequently deregulated in cancer and influence tumor growth, the tumor vasculature and tumor immunity, which play different roles in cancer progression. DLLs have attracted intense research interest as anti-cancer therapeutics. In this review, we discuss the role of DLLs in cancer and summarize the emerging DLL-relevant targeting methods to aid future studies.

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Section: Delta-like Ligands In Breast Cancermentioning

confidence: 99%

<p>The Role of DLLs in Cancer: A Novel Therapeutic Target</p>

Xiu

Liu

Kuang

2020

OTT

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“…[ 139 ] Due to the strong uptake in lung tissue, further work assessed the treatment of murine breast cancer metastases in the lungs using RGD‐YSK05 nanoparticles. [ 140 ] Delivery of siVEGFR2 resulted in significantly reduced VEGFR2 expression in cancerous regions of the lung but not in normal lung tissue, demonstrating the improved targeting ability of the nanoparticles (Figure 14E,F). [ 140 ] Similarly, delivery of siRNA against delta‐like ligand 4 (DLL4), another endothelial gene involved in neovascularization, showed improved overall survival in mice with lung metastases (Figure 14G).…”

Section: Preclinical Assessment Of Environment‐responsive Lipid/sirnamentioning

confidence: 99%

“…[ 140 ] Delivery of siVEGFR2 resulted in significantly reduced VEGFR2 expression in cancerous regions of the lung but not in normal lung tissue, demonstrating the improved targeting ability of the nanoparticles (Figure 14E,F). [ 140 ] Similarly, delivery of siRNA against delta‐like ligand 4 (DLL4), another endothelial gene involved in neovascularization, showed improved overall survival in mice with lung metastases (Figure 14G). [ 140 ] These studies suggest the potential for improved tumor‐specific targeting and efficient delivery of siRNA to enhance therapeutic effect.…”

Section: Preclinical Assessment Of Environment‐responsive Lipid/sirnamentioning

confidence: 99%

Environment‐Responsive Lipid/siRNA Nanoparticles for Cancer Therapy

Lü

Laney

Hall

et al. 2020

Adv Healthcare Materials

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RNA interference (RNAi) is a promising technology to regulate oncogenes for treating cancer. The primary limitation of siRNA for clinical application is the safe and efficacious delivery of therapeutic siRNA into target cells. Lipid‐based delivery systems are developed to protect siRNA during the delivery process and to facilitate intracellular uptake. There is a significant progress in lipid nanoparticle systems that utilize cationic and protonatable amino lipid systems to deliver siRNA to tumors. Among these lipids, environment‐responsive lipids are a class of novel lipid delivery systems that are capable of responding to the environment changes during the delivery process and demonstrate great promise for clinical translation for siRNA therapeutics. Protonatable or ionizable amino lipids and switchable lipids as well as pH‐sensitive multifunctional amino lipids are the presentative environment‐responsive lipids for siRNA delivery. These lipids are able to respond to environmental changes during the delivery process to facilitate efficient cytosolic siRNA delivery. Environment‐responsive lipid/siRNA nanoparticles (ERLNP) are developed with the lipids and are tested for efficient delivery of therapeutic siRNA into the cytoplasm of cancer cells to silence target genes for cancer treatment in preclinical development. This review summarizes the recent developments in environment‐response lipids and nanoparticles for siRNA delivery in cancer therapy.

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“…We also revealed that the RGD-MEND accumulated in TECs in tumor-bearing mice, and that an RGD-MEND encapsulating anti-VEGFR2 siRNA significantly inhibited tumor growth (50% effective dose: 0.75 mg/kg). The RGD-MEND could also be applied to a lung metastasis model [33]. In the case of a lung-metastasis model, VEGFR2 inhibition by the RGD-MEND failed to inhibit tumor growth.…”

Section: For Targeting Tumor Endothelial Cellsmentioning

confidence: 99%

Targeting Tumor Endothelial Cells with Nanoparticles

Sakurai

Akita

Harashima

2019

IJMS

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Because angiogenesis is a major contributor to cancer progression and metastasis, it is an attractive target for cancer therapy. Although a diverse number of small compounds for anti-angiogenic therapy have been developed, severe adverse effects commonly occur, since small compounds can affect not only tumor endothelial cells (TECs), but also normal endothelial cells. This low selectivity for TECs has motivated researchers to develop alternate types of drug delivery systems (DDSs). In this review, we summarize the current state of knowledge concerning the delivery of nano DDSs to TECs. Their payloads range from small compounds to nucleic acids. Perspectives regarding new therapeutic targets are also mentioned.

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Effective Therapy Using a Liposomal siRNA that Targets the Tumor Vasculature in a Model Murine Breast Cancer with Lung Metastasis

Cited by 22 publications

References 35 publications

<p>The Role of DLLs in Cancer: A Novel Therapeutic Target</p>

<p>The Role of DLLs in Cancer: A Novel Therapeutic Target</p>

Environment‐Responsive Lipid/siRNA Nanoparticles for Cancer Therapy

Targeting Tumor Endothelial Cells with Nanoparticles

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