A Poly(amino acid)-Based Nanomedicine Strategy: Telomere-Telomerase Axis Targeting and Magnetic Resonance Imaging in Hepatocellular Carcinoma Treatment.

Targeting telomere maintenance has emerged as a promising strategy for hepatocellular carcinoma (HCC) treatment. However, given the duality of the telomere-telomerase axis in telomere maintenance, a comprehensive strategy is urgently needed. Herein, we develop a poly(amino acid) (D-PAAs)-based strategy for spatiotemporal codelivery of telomerase inhibitor, BIBR1523, and AKT inhibitor, isobavachalcone. By leveraging D-PAAs' modifiability, we synthesize polymer-inhibitor conjugates (PB and PI) and a folic acid-decorated tumor-targeting vector (PF). These building blocks undergo micellization to fabricate a codelivery nanomedicine (P-BI@P-FA) by exploiting D-PAAs' noncovalent assembly. P-BI@P-FA improves the pharmacokinetics, tumor selectivity, and bioavailability of small molecule inhibitors and initiates a dual telomere-specific inhibition by combining telomerase deactivation with telomere disruption. Furthermore, a hybrid tumor-targeting magnetic nanosystem is designed using D-PAAs and manganese dioxide to showcase magnetic resonance imaging capacities. Our D-PAAs-based strategy addresses the pressing need for telomere-specific HCC treatment while allowing for diagnostic application, presenting a promising avenue for nanomedicine design.

Co-Crystals of Resveratrol and Polydatin with L-Proline: Crystal Structures, Dissolution Properties, and In Vitro Cytotoxicities.

Resveratrol (RSV) and polydatin (PD) have been widely used to treat several chronic diseases, such as atherosclerosis, pulmonary fibrosis, and diabetes, among several others. However, their low solubility hinders their further applications. In this work, we show that the solubility of PD can be boosted via its co-crystallization with L-proline (L-Pro). Two different phases of co-crystals, namely the RSV-L-Pro (RSV:L-Pro = 1:2) and PD-L-Pro (PD:L-Pro = 1: 3), have been prepared and characterized. As compared to the pristine RSV and PD, the solubility and dissolution rates of PD-L-Pro in water (pH 7.0) exhibited a 15.8% increase, whereas those of RSV-L-Pro exhibited a 13.8% decrease. A 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay of pristine RSV, PD, RSV-L-Pro, and PD-L-Pro against lung cancer cell line A549 and human embryonic kidney cell line HEK-293 indicated that both compounds showed obvious cytotoxicity against A549, but significantly reduced cytotoxicity against HEK-293, with PD/PD-L-Pro further exhibiting better biological safety than that of RSV/RSV-L-Pro. This work demonstrated that the readily available and biocompatible L-Pro can be a promising adjuvant to optimize the physical and chemical properties of RSV and PD to improve their pharmacokinetics.

Safety evaluation of aqueous extract from Valeriana officinalis L. roots: Genotoxicity, acute, subchronic and teratology toxicity.

ETHNOPHARMACOLOGICAL RELEVANCE: Valeriana officinalis L., commonly known as "valerian", is a traditional herbal medicine distributed in the north temperate zones of America, Europe and Asia. In traditional Chinese medicine, valerian and its roots were used for the treatment of restlessness of the heart and mind, palpitation and insomnia caused by internal depression of emotions and moods. However, safety evaluation of valerian remains deeply unclear. AIM OF THE STUDY: This study aimed to evaluate the genotoxicity, 14-days acute oral toxicity test, 90-day subchronic oral toxicity test and teratogenicity test of aqueous extract of valerian root (AEVR). MATERIALS AND METHODS: The genotoxicity of AEVR was evaluated with bacterial reverse mutation, mouse erythrocyte micronucleus test and in vitro mammalian cell chromosome aberration test. In the 14-days acute toxicity study, Kunming mice were administered at a dosage of 96 g/kg body weigh by gavage. In the 90-day subchronic toxicity study, Sprague-Dawley rats received oral doses of 0, 3.5, 7 and 14 g/kg body weight of AEVR. In the teratogenicity study, pregnant Sprague-Dawley rats received a dose of 0, 3.5, 7 and 14 g/kg body weight of AEVR. RESULTS: AEVR did not show any genotoxicity based on the bacterial reverse mutation, mouse erythrocyte micronucleus test and in vitro mammalian cell chromosome aberration test. In the acute toxicity study, AEVR at a dose of 96 g/kg body weight did not cause death or abnormal behavior in male or female mice. In the subchronic toxicity study, at the doses of 0, 3.5, 7, 14 g/kg body weight, no dose-related effects on clinical observation, body weight, organ weight, hematology, serum biochemistry and urinalysis of AEVR were detected in male or female rats. Teratogenicity test shown that there were no significant toxicologically changes in embryonic formation, body weight of pregnant rats, external, skeletal and visceral examination observed in pregnant and fetal rats at the dosage of 0, 3.5, 7, 14 g/kg body weight. CONCLUSION: In vivo or in vitro assays demonstrated that AEVR does not exhibit genotoxicity. The LD50 of AEVR was greater than 96 g/kg body weight in both sex of mice according to acute oral toxicity study. Subchronic toxicity and teratogenicity tests showed that the no observed adverse effect level (NOAEL) of AEVR was no less than 14 g/kg body weight. This study established a non-toxic dose of AEVR, providing a foundation for the use of valerian as a new resource food in some countries and regions.

A comparative evaluation of the structure, functionality and volatile profiles of Trichosanthes kirilowii seed protein isolates based on different extraction methods.

In the present study, we hypothesised that Trichosanthes kirilowii seed protein isolate (TPI) obtained by different extraction methods have distinct structure, functional attributes and volatile profiles. Alkaline-extracted isolate (AE-TPI) exhibited lower protein content and a darker colour than the other two isolates because more polyphenols and pigments were coextracted. Salt-extracted isolate (SE-TPI) and AE-TPI had higher in vitro protein digestibility than reverse micelle-extracted isolate (RME-TPI) due to higher degrees of denaturation, which enabled them to be more susceptible to proteolysis. The SE-TPI gel resulted in a stronger gel network and greater hardness than the other two isolate gels. In the volatile profile, SE-TPI (22) yielded the largest number of volatile compounds, followed by AE-TPI (20) and RME-TPI (15). The current results indicated that the structure, functional properties and volatile profiles of TPI are largely influenced by the extraction technique.

A natural adhesive-based nanomedicine initiates photothermal-directed in situ immunotherapy with durability and maintenance.

Tumor immunotherapies have emerged as a promising frontier in the realm of cancer treatment. However, challenges persist in achieving localized, durable immunostimulation while counteracting the tumor's immunosuppressive environment. Here, we develop a natural mussel foot protein-based nanomedicine with spatiotemporal control for tumor immunotherapy. In this nanomedicine, an immunoadjuvant prodrug and a photosensitizer are integrated, which is driven by their dynamic bonding and non-covalent assembling with the protein carrier. Harnessing the protein carrier's bioadhesion, this nanomedicine achieves a drug co-delivery with spatiotemporal precision, by which it not only promotes tumor photothermal ablation but also broadens tumor antigen repertoire, facilitating in situ immunotherapy with durability and maintenance. This nanomedicine also modulates the tumor microenvironment to overcome immunosuppression, thereby amplifying antitumor responses against tumor progression. Our strategy underscores a mussel foot protein-derived design philosophy of drug delivery aimed at refining combinatorial immunotherapy, offering insights into leveraging natural proteins for cancer treatment.