Transporter-mediated Nano-delivery System in Promoting Oral Absorption of Drugs：A Review / 中国实验方剂学杂志

Oral administration is the most convenient way of drug delivery， but due to the existence of intestinal barrier， the oral bioavailability of drugs is generally low， especially for drugs with low water solubility， poor permeability and macromolecules. For decades， researchers have demonstrated that nano-delivery system is one of the most effective strategies to solve this problem， but nano-delivery systems have shown limited improvement in the oral bioavailability of drugs. Therefore， researchers have proposed to use transporter-mediated nano-delivery systems to promote the oral absorption of drugs. The intestinal tract were highly expressed as a transporter for ingesting various nutrients（such as glucose， oligopeptides and bile acids）， which was an excellent target of oral drug delivery system. Its substrate were modified on the nano-delivery system， and the loaded drugs could cross the intestinal barrier and enter the systemic circulation more efficiently through the targeting effect of transporters. At present， more and more evidences supported the potential of transporters in the field of oral drug delivery system. Therefore， this paper reviewed the research on intestinal transporters-mediated nano-delivery system to promote oral absorption of drugs， including the distribution of intestinal transporters， three strategies of transporter substrate modification， the transport properties of different types of transporters and their effects of mediating the nano-delivery system for promoting the oral absorption of drugs or treating diseases， with the aim of providing an important theoretical reference for the development of intestinal targeted nano-delivery systems.

Application of PDX model in the evaluation of nano-delivery systems / 药学学报

Malignant tumor is a major disease affecting human health. The nano-delivery system itself has a unique size effect and it can achieve tumor-targeted distribution of drug molecules, improve the therapeutic effect, and reduce the toxic and side effects on normal tissues and cells after functional modification. Patient-derived xenografts (PDX) models can be established by transplanting patient-derived cancer cells or small tumor tissue into immunodeficient mice directly. Compared with the tumor cell line model, this model can preserve the key features of the primary tumor such as histomorphology, heterogeneity, and genetic abnormalities, and keep them stable between generations. PDX models are widely used in drug evaluation, target discovery and biomarker development, especially providing a reliable research platform for the diagnosis and treatment evaluation of nano-delivery systems. This review summarizes the application of several common cancer PDX models in the evaluation of nano-delivery systems, in order to provide references for researchers to perform related research.

Research progress of nano delivery system in breast cancer treatment / 中国药房

Breast cancer is a malignant tumor that seriously threatens women’s health at present. Although surgical treatment is the most direct and effective， it is limited by many factors and needs to be assisted by other treatments. In addition to conventional radiotherapy， these adjuvant therapies also include chemotherapy， gene therapy， phototherapy and so on. However， the therapeutic agents used in these treatment methods have some limitations， such as poor water-solubility， instability and targeting. With the development of nano-technology， more and more researchers construct and study nano delivery system for breast tumor treatment， such as response system designed based on tumor microenvironment， temperature sensitive response system， nano delivery system based on specific proteins of tumor cell membrane， etc. The author summarizes the nano delivery system， and finds that these nano delivery systems can not only improve the water-solubility and stability of the therapeutic agents， but also accurately deliver them to the breast tumor site by targeted means， improve the efficacy and reduce toxic side effects， which provides new ideas for the treatment of breast cancer in the future.

Recent Progress of Nano-drug Combined with Chimeric Antigen Receptor T Cell Therapy in the Treatment of Soild Tumors / 中国肺癌杂志

Chimeric antigen receptor T cell (CAR-T) therapy has shown remarkable success in treating hematological malignancies. However, CAR-T therapy for solid tumors is still limited due to the unique solid-tumor microenvironment and heterogeneous target antigen expression, which leads to an urgent need of combining other therapies. At present, nano delivery system has become one of the most promising directions for the development of anti-tumor drugs. Based on the background of CAR-T and tumor treatment, we focus on the research progress of nanomedicine combined with CAR-T therapy, and systematically review the strategies and examples in recent years in the aspects of in vivo delivery of mRNA, regulation of tumor microenvironment, combination with photothermal therapy. And we also look forward to the future direction of this filed.
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Transdermal drug delivery technology for brain-targeted drug delivery / 药学学报

Intracerebral delivery of drugs for the treatment of central nervous system disorders is usually limited by the blood-brain barrier (BBB). Transdermal drug delivery systems (TDDS) have the advantage of improving patient compliance and avoiding first-pass effects compared to intravenous, oral and intranasal drug delivery, and are an emerging non-invasive drug delivery route that facilitates long-term drug delivery to patients. The discovery of direct subcutaneous targeting of lymphatic pathways to brain tissue has made TDDS a new brain-targeted drug delivery strategy. At the same time, the development of nano-delivery technology has further facilitated the application of TDDS for targeted drug delivery to the brain. This review summarizes the mechanism of transdermal drug delivery into the brain and the application of TDDS in the treatment of brain diseases, providing new ideas and methods for the treatment of central nervous system diseases.

Research progress of nano delivery system in mRNA tumor vaccines / 药学学报

Tumor vaccine is one of the most promising therapeutic strategies in tumor immunotherapy. It promotes the antigen presentation process by delivering tumor antigen and then activates the anti-tumor immune response. As a new class of vaccines, messenger RNA (mRNA) vaccines can activate the immune system to achieve the purpose of immunotherapy by delivering the mRNA sequence of a specific antigen into the body and expressing the corresponding antigen protein. Compared with traditional vaccines, mRNA vaccines have the advantages of a short production cycle, high effectiveness, and strong immunogenicity. In recent years, the application of mRNA vaccines in tumor immunotherapy has attracted widespread attention, but the instability and low delivery efficiency of mRNA limit its application. Nano delivery system can effectively solve the problem of mRNA vaccine delivery, greatly promote the research process and clinical application of mRNA tumor vaccines, and has become a hot spot in the research of mRNA vaccines. In this review, we introduced the mRNA tumor vaccines, focusing on the application of nano delivery system in mRNA tumor vaccines, in order to provide new ideas and new methods for the efficient delivery of mRNA tumor vaccines and tumor immunotherapy.

Advances of research on oxygen-enhancing nano-delivery system for photodynamic therapy / 中国药科大学学报

@#Photodynamic therapy, a new type of non-invasive treatment, is based on the principle that the photosensitizer excited by laser can transfer energy to oxygen, which generates cytotoxic singlet oxygen and thus induce tumor cell apoptosis or necrosis. As an oxygen-dependent therapy, the antitumor effect of photodynamic therapy is obviously limited by hypoxia environment of solid tumor tissue. Therefore, reversing and improving the hypoxia of tumor tissue can significantly enhance the efficacy of photodynamic therapy. This review focuses on the progress of tumor oxygenation strategy mediated by nano-delivery system, including direct oxygen delivery strategies, catalytic oxygen production strategies, responsive material in situ oxygen supply strategies and microorganism oxygen supply strategies, aiming to improve the antitumor effect of photodynamic therapy. It provides new ideas and new approaches for further study of oxygen-enchancing nano-delivery system for photodynamic therapy.