Polysaccharides derived from Chinese medicinal herbs: A promising choice of vaccine adjuvants.

Adjuvants have been used in vaccines for a long time to promote the body's immune response, reducing vaccine dosage and production costs. Although many vaccine adjuvants are developed, the use in human vaccines is limited because of either limited action or side effects. Therefore, the development of new vaccine adjuvants is required. Many studies have found that natural polysaccharides derived from Traditional Chinese medicine (TCM) possess good immune promoting effects and simultaneously improve humoral, cellular and mucosal immunity. Recently polysaccharide adjuvants have attracted much attention in vaccine preparation because of their intrinsic characteristics: immunomodulation, biocompatibility, biodegradability, low toxicity and safety. This review article systematically analysed the literature on polysaccharides possessing vaccine adjuvant activity from TCM plants, such as Astragalus polysaccharide (APS), Rehmannia glutinosa polysaccharide (RGP), Isatis indigotica root polysaccharides (IRPS), etc. and their derivatives. We believe that polysaccharide adjuvants can be used to prepare the vaccines for clinical use provided their mechanisms of action are studied in detail.

Carbon nitride-based nanocaptor: An intelligent nanosystem with metal ions chelating effect for enhanced magnetic targeting phototherapy of Alzheimer's disease.

Metal ions imbalance, a well-established pathologic feature of alzheimer's disease (AD), ultimately results in the deposition of amyloid-ß peptide (Aß) proteins and Aß-induced neurotoxicity. Herein, to overcome these hurdles, an intelligent Aß nanocaptor with the capacity to chelate metal ions and targeted therapy is developed by anchoring carbon nitride (C3N4) nanodots to Fe3O4@mesoporous silica nanospheres, and decorated with benzothiazole aniline (BTA) (designated as B-FeCN). The C3N4 nanodots could effectively capture superfluous Cu2+ to suppress the formation of Cu2+-Aß complex thereby eliminating Aß aggregation. Simultaneously, the nanocaptor enables local low-temperature hyperthermia to promote the dissolution of preformed fiber precipitates, therefore, maximizing the therapeutic benefits. Owing to its favorable photothermal effect, the blood-brain barrier (BBB) permeability of the nanocaptor is noticeably ameliorated upon laser illumination, which conquers the limitations associated with traditional anti-AD drugs, as evidenced by in vivo and in vitro studies. Besides, leveraging on the magnetic properties of Fe3O4 core, the nanocaptor is magnetized to access to the targeted Aß regions under extrinsic magnetic field. BTA conjugation, which specifically binds to the ß2 position of the Aß fibers, executes specific targeting at Aß plaques, and synchronously endows the BTA-modified nanocaptor with fluorescent imaging property for sensitively detecting Aß aggregates. In view of these superiorities, nanocaptors combine metallostasis restoration and Aß targeted therapy can surmount the interference of copper ions, enhance BBB permeability and protect cells against Aß-induced neurotoxicity, which provides new avenues for developing neuroprotective nanosystems for the treatment of alzheimer's disease.

PRP-chitosan thermoresponsive hydrogel combined with black phosphorus nanosheets as injectable biomaterial for biotherapy and phototherapy treatment of rheumatoid arthritis.

Rheumatoid arthritis (RA) is a chronic inflammatory autoimmune disease causing destruction of bone and cartilago articularis. Traditional treatment methods have many side effects, or too concerne about the anti-inflammatory mechanisms but ignore osteanagenesis. In this work, a novel therapeutic platform combined black phosphorus nanosheets (BPNs) into platelet-rich plasma (PRP)-chitosan thermoresponsive hydrogel has been prepared for management of RA. The BPNs generate local heat upon near-infrared irradiation, and delivering reactive oxygen species (ROS) to the inflamed joints simultaneously for removing hyperplastic synovial tissue. The injectable chitosan thermoresponsive hydrogel can take control of the releasing of BPNs degradation products, which provide ample raw materials for osteanagenesis. In addition, the PRP can effectively improve the adhesion and increase capacity of mesenchymal stem cells on chitosan thermosensitive hydrogels. And this thermoresponsive hydrogel can protect articular cartilage by reducing the friction on the surrounding tissue. Drug delayed release property was indicated by the release and uptake of methotrexate. The edema degree of the arthritic mouse was reduced obviously by the BPNs/Chitosan/PRP thermoresponsive hydrogel. Both in vitro and in vivo studies suggest that the thermoresponsive hydrogel can provide a potential possibility for the management of RA.

Evaluation of berberine as a natural fungicide: biodegradation and antimicrobial mechanism.

Berberine (BBR) is a traditional Chinese medicine which recently was applied as a biological pesticide. Here, we studied the antimicrobial mode of BBR and its impact on soil bacterial diversity. BBR was more effective against fungi than bacteria due to the specific interaction between BBR and glucan. Also, BBR was degraded rapidly in soil, leading to the limited effect on soil bacterial diversity. Collectively, BBR is an environment-friendly pesticide and it is promising in dealing with fungal plant diseases.