Leaf Huang scite author profile

Nanoparticles show their promise for improving the efficacy of drugs with a narrow therapeutic window or low bioavailability, such as anticancer drugs and nucleic acid-based drugs. The pharmacokinetics (PK) and tissue distribution of the nanoparticles largely define their therapeutic effect and toxicity. Chemical and physical properties of the nanoparticles, including size, surface charge, and surface chemistry, are important factors that determine their PK and biodistribution. The intracellular fate of the nanoparticles after cellular internalization that affects the drug bioavailability is also discussed. Strategies for overcoming barriers for intracellular delivery and drug release are presented. Finally, future directions for improving the PK of nanoparticles and perspectives in the field are discussed.

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Amphipathic polyethyleneglycols effectively prolong the circulation time of liposomes

Klibanov

et al. 1990

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Incorporation of dioleoyl N‐(monomethoxy polyethyleneglycol succinyl)phosphotidylethanolamine (PEG‐PE) into large unilamellar liposomes composed of egg posphatidylcholine:cholesterol (1:1) does not significantly increase the content leakage when the liposomes are exposed to 90% human serum at 37°C, yet the liposomes show a significant increase in the blood circulation half‐life (t = 5 h) as compared to those without PEG‐PE(t <30 min). The PEG‐PE's activity to prolong the circulation time of liposomes is greater than that of the ganglioside GM1, awell‐described glycolipid with this activity. Another amphipathic PEG derivative, PEG stearate, also prolongs the liposome circulation time, although its activity is less than that ofGM1. Amphipathic PEGs may be useful for the sustained release and the targeted drug delivery by liposomes.

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Gene Therapy Progress and Prospects: Nonviral vectors

2002

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In vivo delivery of miRNAs for cancer therapy: Challenges and strategies

Chen

Gao

Huang

2015

Advanced Drug Delivery Reviews

576

497

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MicroRNAs (miRNAs), small non-coding RNAs, can regulate post-transcriptional gene expressions and silence a broad set of target genes. miRNAs, aberrantly expressed in cancer cells, play an important role in modulating gene expressions, thereby regulating downstream signaling pathways and affecting cancer formation and progression. Oncogenes or tumor suppressor genes regulated by miRNAs mediate cell cycle progression, metabolism, cell death, angiogenesis, metastasis and immunosuppression in cancer. Recently, miRNAs have emerged as therapeutic targets or tools and biomarkers for diagnosis and therapy monitoring in cancer. Since miRNAs can regulate multiple cancer-related genes simultaneously, using miRNAs as a therapeutic approach plays an important role in cancer therapy. However, one of the major challenges of miRNA-based cancer therapy is to achieve specific, efficient and safe systemic delivery of therapeutic miRNAs In vivo. This review discusses the key challenges to the development of the carriers for miRNA-based therapy and explores current strategies to systemically deliver miRNAs to cancer without induction of toxicity.

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Constitutive activation of Stat3 signaling abrogates apoptosis in squamous cell carcinogenesisin vivo

Grandis

Drenning

Zeng

et al. 2000

Proc. Natl. Acad. Sci. U.S.A.

560

454

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Field cancerization predisposes the upper aerodigestive tract mucosa to the formation of multiple primary tumors, when exposed to environmental carcinogens. Up-regulation of epidermal growth factor receptor occurs early in squamous cell carcinogenesis and is critical for the loss of growth control in a variety of human cancers, including head and neck squamous cell carcinomas. In these tumor cells in culture, epidermal growth factor receptor stimulation initiates signaling via persistent activation of selective STAT proteins. To determine the timing of Stat3 activation in head and neck carcinogenesis, we studied the expression and constitutive activation of Stat3 in tumors and normal mucosa from patients with head and neck cancer compared with mucosa from controls without cancer. Stat3 was up-regulated and constitutively activated in both primary human head and neck tumors as well as in normal mucosa from these cancer patients compared with control normal mucosa from patients without cancer. In vivo liposome-mediated gene therapy with a Stat3 antisense plasmid efficiently inhibited Stat3 activation, increased tumor cell apoptosis, and decreased Bcl-x L expression in a head and neck xenograft model. These findings provide evidence that constitutively activated Stat3 is an early event in head and neck carcinogenesis that contributes to the loss of growth control by an anti-apoptotic mechanism.

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Leaf Huang

Pharmacokinetics and Biodistribution of Nanoparticles

Amphipathic polyethyleneglycols effectively prolong the circulation time of liposomes

Gene Therapy Progress and Prospects: Nonviral vectors

In vivo delivery of miRNAs for cancer therapy: Challenges and strategies

Constitutive activation of Stat3 signaling abrogates apoptosis in squamous cell carcinogenesisin vivo

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