A Targeted and Responsive Nanoprodrug Delivery System for Synergistic Glioma Chemotherapy.

Doxorubicin (DOX) is widely used as a chemotherapeutic agent for both hematologic and solid tumors and is a reasonable candidate for glioma treatment. However, its effectiveness is hindered by significant toxicity and drug resistance. Moreover, the presence of the blood-brain barrier (BBB) brings a crucial challenge to glioma therapy. In response, a GSH-responsive and actively targeted nanoprodrug delivery system (cRGD/PSDOX-Cur@NPs) are developed. In this system, a disulfide bond-bridged DOX prodrug (PEG-SS-DOX) is designed to release specifically in the high glutathione (GSH) tumor environment, markedly reducing the cardiotoxicity associated with DOX. To further address DOX resistance, curcumin, serving as a P-glycoprotein (P-gp) inhibitor, effectively increased cellular DOX concentration. Consequently, cRGD/PSDOX-Cur@NPs exhibited synergistic anti-tumor effects in vitro. Furthermore, in vivo experiments validated the superior BBB penetration and brain-targeting abilities of cRGD/PSDOX-Cur@NPs, showcasing the remarkable potential for treating both subcutaneous and orthotopic gliomas. This research underscores that this nanoprodrug delivery system presents a novel approach to inhibiting glioma while addressing resistance and systemic toxicity.

Screening of neuraminidase inhibitory activities of some medicinal plants traditionally used in Lingnan Chinese medicines.

BACKGROUND: Neuraminidase (NA) is one of the key surface protein of the influenza virus, and has been established as a primary drug target for anti-influenza therapies. This study aimed to screen bioactive herbal extracts from some medicinal plants traditionally used in Lingnan Chinese Medicines by NA activity high-throughput screening assay. METHODS: One hundred ninety herbal extracts from 95 medicinal plants collected in Guangzhou were screened for their potential inhibitory activities against A (H1N1) influenza neuraminidase, and the most active extracts were further evaluated for their anti-influenza virus activities using virus-induced cytopathic effect (CPE). RESULTS: Among the tested 190 herbal extracts, 14 extracts inhibited significantly NA activity (IC50 < 40 µg/mL), and the extracts 1-5, which were obtained from Amomurn villosum Lour, Melaphis chinensis (Bell) Baker, Sanguisorba officinalis and Flos Caryophylli, showed potent inhibitory activity against NA with IC50 values ranging from 4.1 to 9.6 µg/mL. Moreover, the most bioactive extracts 1-5 were found to protect MDCK cells from A (H1N1) influenza virus infection with very low cytotoxicity to the host cells (EC50 values ranged from 1.8 to 14.1 µg/mL, CC50 values ranged from 97.0 to 779.2 µg/mL, SI values ranged from 14 to 438). In addition, quantitative RT-PCR analysis showed that the extracts 1-5 inhibited viral RNA synthesis in a dose-dependent manner. CONCLUSION: We performed in vitro screening of anti-neuraminidase activities of herbal extracts from medicinal plants used in Lingnan Chinese Medicines, and the results indicate that some bioactive extracts are worth further studies to identify the bioactive components responsible for anti-influenza virus activities, to elucidate their modes of action and finally determine their clinical potentials.

Brd4 proteolysis-targeting chimera nanoparticles sensitized colorectal cancer chemotherapy.

Bromodomain-Containing Protein 4 (BRD4) is a member of the BET family of bromodomains, which participates in gene transcription process and is closely related to tumor progression. We observed the up-regulated expression of BRD4 in colorectal cancer (CRC) after doxorubicin (DOX) treatment, which might be a potential mechanism for DOX resistance. This study constructed the tumor-targeting (cyclo (Arg-Gly-Asp-D-Phe-Lys)-poly(ethylene glycol)-poly(ε-caprolactone)) (cRGD-PEG-PCL) copolymer for co-delivery of DOX and BRD4 PROTAC degrader ARV-825 (ARV-DOX/cRGD-P) for CRC treatment. The ARV-DOX/cRGD-P complexes elicited synergistic anti-tumor effect via cell cycle arrest and the increased cell apoptosis, and mechanism studies implicated the regulation of proliferation- and apoptosis-related pathways in vitro. Moreover, the administration of ARV-DOX/cRGD-P significantly improved anti-tumor activity in subcutaneous colorectal tumors and colorectal intraperitoneal disseminated tumor models in mice by promoting tumor apoptosis, suppressing tumor proliferation and angiogenesis. Taken together, these data reveal that ARV-825 can heighten DOX sensitivity in CRC treatment and BRD4 is a potential therapeutic target for DOX-resistant CRC. The ARV-DOX/cRGD-P preparations have outstanding anti-cancer effects and may be used for clinical treatment of colorectal cancer in the future.

Polymeric Micelles with Endosome Escape and Redox-Responsive Functions for Enhanced Intracellular Drug Delivery.

Efficient intracellular delivery of bioactive compounds into cancer cells is critically important for treatment, as some compounds only validate for therapy after entering cancer cells. The boron neutron capture therapy (BNCT) applies thermal neutron irradiation to react with 10B-compounds that existed inside cancer cells to generate secondary killing irradiations to eradicate cancer cells. The effective distance of the emitted secondary killing irradiations is as long as a cellular diameter, which requires the cellular uptake of 10B-compounds for efficient tumor BNCT. However, current clinical approved 10B-compound of sodium borocaptate (BSH) exhibits low cellular uptake by cancer cells, which limits the therapeutic efficacy. Herein, the multifunctional polymeric micelles with endosome escape and redox-responsive functions have been developed by self-assembly from the BSH-conjugated block copolymers for enhanced delivery of BSH into cancer cells. The BSH-loaded polymeric micelles (BSH/micelle) showed a hydrodynamic diameter around 50 nm, and the size distribution was monodisperse. The BSH/micelle were stable in normal physiological environment, while the BSH could be released in responding to high level of redox-potential in cancer cells. Besides, intracellular delivery of BSH was highly promoted by BSH/micelle through the endosome escape function of micelles, which further increased the tumor therapeutic efficacy by BNCT.

Insights into the interaction mechanism between tiagabine hydrochloride and two serum albumins.

Tiagabine hydrochloride (TGB) is a widely used anticonvulsive drug for the treatment of epilepsy. To better understand the interactions of TGB with plasma proteins, human serum albumin (HSA) and bovine serum albumin (BSA) were selected as model proteins. TGB slightly increased thermal stability of the proteins as confirmed by VP-capillary differential scanning calorimetric (DSC) measurements. Isothermal titration calorimeter (ITC) results showed that TGB could be combined with HSA and BSA moderately, which was also corroborated by fluorescence analysis. Besides, the thermodynamic parameters (ΔH > 0, ΔS > 0) indicated that hydrophobic forces played a major role in the formulation of TGB-HSA and TGB-BSA complexes. Moreover, the main binding sites of TGB to HSA and BSA were also examined by classical fluorescent probe (dansylsarcosine and dansylamide) experiments, showing that TGB and dansylsarcosine competitively interacted with HSA and BSA at the same binding sites. Additionally, TGB had no obvious effect on the conformation change of HSA and BSA as indicated by spectroscopic analyses. This study provides useful information about the interaction mechanism of TGB and serum albumins, which could help to better utilize TGB in biomedical field.