普鲁兰多糖在药物释放系统中的应用

本综述重点介绍了近年来普鲁兰多糖作为药物释放系统载体材料的研究进展及其在药物释放系统中的应用情况。     

Control of Drug Release through the In Situ Assembly of Stimuli‐Responsive Ordered Mesoporous Silica with Magnetic Particles

A site‐selective controlled delivery system for controlled drug release is fabricated through the in situ assembly of stimuli‐responsive ordered SBA‐15 and magnetic particles. This approach is based on the formation of ordered mesoporous silica with magnetic particles formed from Fe(CO)₅ via the surfactant‐template sol‐gel method and control of transport through polymerization of N‐isopropyl acrylamide inside the pores. Hydrophobic Fe(CO)₅ acts as a swelling agent as well as being the source of the magnetic particles. The obtained system demonstrates a high pore diameter (7.1 nm) and pore volume (0.41 cm³ g^?1), which improves drug storage for relatively large molecules. Controlled drug release through the porous network is demonstrated by measuring the uptake and release of ibuprofen (IBU). The delivery system displays a high IBU storage capacity of 71.5 wt %, which is almost twice as large as the highest value based on SBA‐15 ever reported. In vitro testing of IBU loading and release exhibits a pronounced transition at around 32 °C, indicating a typical thermosensitive controlled release.     

有序介孔材料在生物医药领域中的应用

本文简述了有序介孔材料的特性,详细介绍了其在生物医药领域中的应用研究,如用于酶的固定化、生物传感器、药物的包埋和控释、生物活性材料、生物分子的吸附和分离等,阐述了不同类型的有序介孔材料在这些应用中的性能以及为适用于该领域应用进行的材料开发和结构修饰,最后对材料的改进和应用前景进行了展望。     

Emerging Applications of Phase‐Change Materials (PCMs): Teaching an Old Dog New Tricks

The nebulous term phase‐change material (PCM) simply refers to any substance that has a large heat of fusion and a sharp melting point. PCMs have been used for many years in commercial applications, mainly for heat management purposes. However, these fascinating materials have recently been rediscovered and applied to a broad range of technologies, such as smart drug delivery, information storage, barcoding, and detection. With the hope of kindling interest in this incredibly versatile range of materials, this Review presents an array of aspects related to the compositions, preparations, and emerging applications of PCMs.     

无机层状复合氢氧化物中顺铂-DNA模型分子的选择性插入

药物分子的选择性包裹和控制释放是药物研究领域中具有挑战性的研究方向。本文研究表明:顺铂-DNA模型分子cis-[Pt(NH₃)₂(5′-GMP)₂](5′-GMP 5′-单磷酸鸟苷)可插入无机层状复合氢氧化物[Zn_0.68Al_0.32(OH)₂](NO₃)_0.32·mH₂O。但另一种层状复合氢氧化物[LiAl₂(OH)₆]Cl·H₂O由于其阳离子层中正电荷密度较高、阳离子层与层间阴离子之间静电作用较强,因而顺铂-DNA模型分子不能通过离子交换方式插入其层间。光谱数据证实插入层间的顺铂-DNA模型分子结构不变。这可能为铂-DNA分子的传递提供新的方法。     

Controlled Chemical and Drug Delivery via the Internal and External Surfaces of Layered Compounds

Abstract

We demonstrate, and review the very small, but growing body of literature regarding a recently discovered application of layered compounds, which involves the ability of layered materials to sequester and later release molecules of chemical and biological significance. The application relies upon intercalation chemistry; a reversible process whereby atoms, molecules, macromolecules, and polymers may be inserted into the interstices of a layered matrix. We demonstrate that layered materials are able to effectively getter water‐soluble atoms and molecules from aqueous dispersions, and further demonstrate that the absorbed molecules can be later released from the interlayer region to perform a desired chemical function. Work in our laboratory involving the application of layered hybrid materials in photographic media is described in detail and we establish two general release mechanisms whereby intercalated functional chemistry can be first sequestrated and later delivered via a chemical switch to perform a desired function. The process has enormous potential as a general method for the controlled, temporal release of materials of chemical and biological significance.     

Redox‐ and Temperature‐Controlled Drug Release from Hollow Mesoporous Silica Nanoparticles

A controlled drug‐delivery system has been developed based on mesoporous silica nanoparticles that deliver anticancer drugs into cancer cells with minimized side effects. The copolymer of two oligo(ethylene glycol) macromonomers cross‐linked by the disulfide linker N,N′‐bis(acryloyl)cystamine is used to cap hollow mesoporous silica nanoparticles (HMSNs) to form a core/shell structure. The HMSN core is applied as a drug storage unit for its high drug loading capability, whereas the polymer shell is employed as a switch owing to its redox/temperature dual responses. The release behavior in vitro of doxorubicin demonstrated that the loaded drugs could be released rapidly at higher temperature or in the presence of glutathione (GSH). Thus, the dual‐stimulus polymer shell exhibiting a volume phase transition temperature higher than 37 °C can effectively avoid drug leakage in the bloodstream owing to the swollen state of the shell. Once internalized into cells, the carriers shed the polymer shell because of cleavage of the disulfide bonds by GSH, which results in the release of the loaded drugs in cytosol. This work may prove to be a significant development in on‐demand drug release systems for cancer therapy.     

Enzyme‐Responsive Silica Mesoporous Supports Capped with Azopyridinium Salts for Controlled Delivery Applications

The preparation of a new capped silica mesoporous material, Rh‐Azo‐S , for on‐command delivery applications in the presence of target enzymes is described. The material consists of nanometric mesoporous MCM‐41‐like supports loaded with Rhodamine B and capped with an azopyridine derivative. The material was designed to show “zero delivery” and to display a cargo release in the presence of reductases and esterases, which are usually present in the colon, mainly due to intestinal microflora. The opening and cargo release of Rh‐Azo‐S in vitro studies were assessed and seen to occur in the presence of these enzymes, whereas no delivery was noted in the presence of pepsine. Moreover, Rh‐Azo‐S nanoparticles were used to study controlled Rhodamine B dye delivery in intracellular media. HeLa cells were employed for testing the “non”‐toxicity of nanoparticles. Moreover, delivery of the dye in these cells, through internalization and enzyme‐mediated gate opening, was confirmed by confocal microscopy. Furthermore, the nanoparticles capped with the Azo group and loaded with a cytotoxic camptothecin ( CPT ) were also prepared (solid CPT‐Azo‐S ) and used as delivery nanodevices in HeLa cells. When this solid was employed, the cell viability decreased significantly due to internalization of the nanoparticles and delivery of the cytotoxic agent.     

Dynamic Hydrogels from Host–Guest Supramolecular Interactions

Hydrogel biomaterials are pervasive in biomedical use. Applications of these soft materials range from contact lenses to drug depots to scaffolds for transplanted cells. A subset of hydrogels is prepared from physical cross‐linking mediated by host–guest interactions. Host macrocycles, the most recognizable supramolecular motif, facilitate complex formation with an array of guests by inclusion in their portal. Commonly, an appended macrocycle forms a complex with appended guests on another polymer chain. The formation of poly(pseudo)rotaxanes is also demonstrated, wherein macrocycles are threaded by a polymer chain to give rise to physical cross‐linking by secondary non‐covalent interactions or polymer jamming. Host–guest supramolecular hydrogels lend themselves to a variety of applications resulting from their dynamic properties that arise from non‐covalent supramolecular interactions, as well as engineered responsiveness to external stimuli. These are thus an exciting new class of materials.     

Functionalized mesoporous materials for adsorption and release of different drug molecules: A comparative study

The adsorption capacity and release properties of mesoporous materials for drug molecules can be improved by functionalizing their surfaces with judiciously chosen organic groups. Functionalized ordered mesoporous materials containing various types of organic groups via a co-condensation synthetic method from 15% organosilane and by post-grafting organosilanes onto a pre-made mesoporous silica were synthesized. Comparative studies of their adsorption and release properties for various model drug molecules were then conducted. Functional groups including 3-aminopropyl, 3-mercaptopropyl, vinyl, and secondary amine groups were used to functionalize the mesoporous materials while rhodamine 6G and ibuprofen were utilized to investigate the materials’ relative adsorption and release properties. The self-assembly of the mesoporous materials was carried out in the presence of cetyltrimethylammonium bromide (CTAB) surfactant, which produced MCM-41 type materials with pore diameters of ∼2.7-3.3 nm and moderate to high surface areas up to ∼1000 m²/g. The different functional groups introduced into the materials dictated their adsorption capacity and release properties. While mercaptopropyl and vinyl functionalized samples showed high adsorption capacity for rhodamine 6G, amine functionalized samples exhibited higher adsorption capacity for ibuprofen. While the diffusional release of ibuprofen was fitted on the Fickian diffusion model, the release of rhodamine 6G followed Super Case-II transport model.     

Mesoporous materials for drug delivery

Research on mesoporous materials for biomedical purposes has experienced an outstanding increase during recent years. Since 2001, when MCM-41 was first proposed as drug-delivery system, silica-based materials, such as SBA-15 or MCM-48, and some metal-organic frameworks have been discussed as drug carriers and controlled-release systems. Mesoporous materials are intended for both systemic-delivery systems and implantable local-delivery devices. The latter application provides very promising possibilities in the field of bone-tissue repair because of the excellent behavior of these materials as bioceramics. This Minireview deals with the advances in this field by the control of the textural parameters, surface functionalization, and the synthesis of sophisticated stimuli-response systems.     

Mesoporous Silica Applications

Summary: The mesoporous silica have been considered fascinating materials for many techonological applications due to their porous and morphological characteristics. This review focuses on their use as stationary phases for liquid chromatography, supports for immobilizing biomolecules, catalysts, agent for polymer reinforcement and hard templates for the preparation of mesoporous carbons.     

高分子材料调控肿瘤免疫微环境的研究进展

随着肿瘤免疫疗法在临床应用取得巨大突破,通过抗肿瘤免疫反应提高抗肿瘤疗效的治疗方式受到了广泛的关注.然而,肿瘤组织存在复杂的免疫抑制性微环境,严重限制了部分免疫疗法的效果.长期以来,高分子材料作为重要的药物递送载体受到广泛关注,但是其在调控肿瘤免疫微环境的功能及应用方面尚未引起足够的重视.在本文中,我们一方面介绍了肿瘤组织形成免疫抑制性微环境的成因,如肿瘤组织存在多种免疫抑制性细胞,如调节性T细胞(Tregs)、髓系来源抑制性细胞(MDSCs)和肿瘤相关巨噬细胞(TAMs)等,以及免疫细胞、肿瘤细胞等分泌的大量细胞因子、趋化因子、代谢产物等.另一方面,重点介绍了近年来高分子材料作为载体递送免疫调节分子或发挥自身免疫调节功能,调控或逆转免疫抑制性微环境的策略和典型代表,证明了高分子材料在调控肿瘤免疫微环境,改善肿瘤治疗效果方面的巨大潜力.     

Stimuli-Responsive Delivery of Antimicrobial Peptides Using Polyelectrolyte Complexes

Antimicrobial peptides (AMPs) are antibiotics with the potential to address antimicrobial resistance. However, their translation to the clinic is hampered by issues such as off-target toxicity and low stability in biological media. Stimuli-responsive delivery from polyelectrolyte complexes offers a simple avenue to address these limitations, wherein delivery is triggered by changes occurring during microbial infection. The review first provides an overview of pH-responsive delivery, which exploits the intrinsic pH-responsive nature of polyelectrolytes as a mechanism to deliver these antimicrobials. The examples included illustrate the challenges faced when developing these systems, in particular balancing antimicrobial efficacy and stability, and the potential of this approach to prepare switchable surfaces or nanoparticles for intracellular delivery. The review subsequently highlights the use of other stimuli associated with microbial infection, such as the expression of degrading enzymes or changes in temperature. Polyelectrolyte complexes with dual stimuli-response based on pH and temperature are also discussed. Finally, the review presents a summary and an outlook of the challenges and opportunities faced by this field. This review is expected to encourage researchers to develop stimuli-responsive polyelectrolyte complexes that increase the stability of AMPs while providing targeted delivery, and thereby facilitate the translation of these antimicrobials.     

Fe3O4@mMoO3介孔多功能纳米载体的制备及其微波响应药物传递

以氨基功能化的Fe_3O_4纳米颗粒为磁核,结合直接沉淀法和模板法在其表面包覆上介孔MoO_3层,制备磁性-微波热转换性-介孔结构于一体的多功能核-壳结构复合纳米载体Fe_3O_4@mMoO_3,并对其结构、载药及微波控制靶向给药性进行研究。TEM图表明所得的复合纳米载体具有明显的核壳结构,完美的球形,且壳层中有清晰的孔状结构。磁性和微波热转换特性分析表明,该复合载体兼具良好的磁性和微波热转换特性,可实现药物的靶向可控给药。以布洛芬(IBU)为模型药物,对该复合纳米载体的药物负载能力和微波响应可控释放性进行研究,结果表明,在持续微波辐射90 s时IBU的释放率达到90%,远远高于仅搅拌时的释放率。     

Luminescent porous silica fibers as drug carriers

Luminescent and porous silica fibers have been successfully prepared by using the electrospinning process. The obtained multifunctional silica fibers, which possess a porous structure and display blue luminescence, can serve as a drug delivery host carrier, using ibuprofen (IBU) as a model drug, allowing the investigation of storage/release properties. Scanning electron microscopy (SEM), transmission electron microscopy (TEM), Fourier-transform infrared spectroscopy (FT-IR), N(2) adsorption/desorption, photoluminescence (PL) spectra, and kinetic decay were used to characterize the structural, morphological, and optical properties of the as-obtained samples. The results reveal that the multifunctional silica materials exhibit an irregular porous structure, and display a fiberlike morphology with dimensions of several hundred nanometers in width and several millimeters in length. The obtained silica fibers exhibit an intense broad bluish emission, which might be attributed to impurities and/or defects in the silica fibers. The IBU-loaded silica fiber system shows blue luminescence under UV irradiation and controlled release behavior for IBU. In addition, the emission intensities of silica fibers in the drug carrier system vary with the released amount of IBU, thus allowing the drug release to be easily tracked and monitored by the change of the luminescence intensity.     

聚乳酸的研究进展

本文对聚乳酸的合成、性能、共聚改性等方面的研究进展做了综述, 并讨论了聚乳酸类材料的应用现状和前景。