Bioassay-guided discovery and identification of new potent α-glucosidase inhibitors from Morus alba L. and the interaction mechanism.

ETHNOPHARMACOLOGICAL RELEVANCE: Morus alba L. (mulberry) is a well-known medicinal species that has been used by herbalist doctors for the treatment of diabetes for a long history, and modern ethnopharmacological studies have demonstrated the ameliorating effects of different mulberry extracts toward diabetes-related symptoms and identified a number of α-glucosidase inhibitors as hypoglycemic ingredients. AIM OF THE STUDY: The present study aims to explore new potent α-glucosidase inhibitors from the root bark of M. alba (known as Sang-Bai-Pi in traditional medicine) based on an in vivo antidiabetic evaluation of its extract fractions and further characterize the preliminary mechanism of the new active constituents. MATERIALS AND METHODS: α-Glucosidase inhibitory assay and diabetic mice model were used to locate and evaluate the active fractions from the extract. Diverse separation techniques (e.g. Sephadex LH-20 column chromatograph (CC) and HPLC) and spectroscopic methods (e.g. MS, NMR and ECD) were employed to isolate and structurally characterize the obtained constituents, respectively. Fluorescence quenching, kinetics and molecular docking experiments were conducted to investigate the enzyme inhibitory mechanism of the active compounds. RESULTS: The 80% ethanol eluate from the macroporous resin CC exerted good antidiabetic effects in the tested mice. Fifty-two flavonoids including 22 new ones were then separated and identified, and most of them showed strong inhibition against α-glucosidase with their structure-activity relationship being also discussed. The four new most active ingredients were further characterized to be mixed type of α-glucosidase inhibitors, and their binding modes with the enzyme were also explored. CONCLUSIONS: Our current work has demonstrated that the root bark of M. alba is an extremely rich source of flavonoids as potent α-glucosidase inhibitors and potential antidiabetic agents, which makes it a promising candidate species to develop new natural remedies for the prevention and treatment of diabetes.

Preparation of PCL/lecithin/bacteriocin CAMT6 antimicrobial and antioxidant nanofiber films using emulsion electrospinning: Characteristics and application in chilled salmon preservation.

Multi-functional packaging materials are an important development for food preservation. Emulsion electrospinning is a novel and simple method that can be used to prepare multi-functional packaging materials, which can effectively protect the loaded active substances during the preparation process. In this study, PCL/lecithin/bacteriocin CAMT6 nanofiber films with antimicrobial and antioxidant activity were prepared by emulsion electrostatic spinning. The morphology and homogeneity of the prepared nanofibrous membranes could be improved by optimising the formulation of the emulsion for electrospinning. Analytical testing of the prepared nanofiber films revealed that the nanofibers had a core-shell structure, with bacteriocin CAMT6 effectively encapsulated in the core layer and the PCL and phospholipids homogeneously mixed to form the shell layer. Additionally, the nanofiber films had acceptable tensile properties and water absorption capacity. In chilled salmon meat, the nanofiber film effectively inhibited the growth of bacteria, slowed the oxidation of oil and slowed water loss, which was a good protective effect. This study provides a reference for the encapsulation application of food-active packaging materials and bacteriocins.

New di-spirocyclic labdane diterpenoids from the aerial parts of Leonurus japonicus.

Phytochemical investigation on the ethanol extract of a well-known medicinal herb Leonurus japonicus, led to the separation of 18 labdane type diterpenoids (1-18). Through comprehensive spectroscopic analyses and quantum chemical calculations, these compounds were structurally characterized as six new interesting 5,5,5-di-spirocyclic ones (1-6), two new (7 and 8) and six known (13-18) interesting 6,5,5-di-spirocyclic ones, a new rare 14,15-dinor derivative (9), and three new ones incorporating a γ-lactone unit (10-12). An in vitro neuroprotective assay in RSC96 cells revealed that compounds 7 and 12 exhibited neuroprotective activity in a concentration-dependent way, comparable to the reference drug N-acetylcysteine.

Discovery of a new chemical scaffold for the treatment of superbug Candida auris infections.

Candida auris has emerged as a serious threat of public health and caused global epidemic due to multi-drug resistance, remarkable transmissibility and high mortality. To tackle the challenging super fungus, novel benzoanilide antifungal agents were discovered by an integrated strategy of phenotypic screen, hit optimization, antifungal assays and mechanism exploration. The most promising compound A1 showed potent in vitro and in vivo efficacy against Candida auris infection. Mechanism investigation revealed that compound A1 blocked the biosynthesis of virulence factors and fungal cell walls through the inhibition of glycosylphosphatidylinositol (GPI) and GPI-anchored proteins. Thus, compound A1 represents a promising lead compound to combat drug-resistant candidiasis.

Anti-inflammatory labdane diterpenoids from the aerial parts of Leonurus japonicus.

Twenty-two labdane-type diterpenoids, including ten pairs of 15-epimers and a pair of 13,15-epimers, were obtained from the aerial parts of a well-known medicinal plant Leonurus japonicus Houtt. While these epimers were separated by chiral HPLC, their structures were established mainly via spectroscopic methods especially NMR, X-ray crystallography and ECD techniques. Among them, seventeen compounds, encompassing three pairs of solvolysis artefacts likely due to the use of ethanol as extracting solvent, were reported for the first time in the current work. Our preliminary anti-inflammatory screening demonstrated that seven diterpenoids displayed noteworthy inhibitory effect on the NO production in LPS-induced RAW264.7 cells. In addition, the release of pro-inflammatory factors TNF-α, IL-1ß and IL-6, as well as the expression of iNOS and COX-2 proteins, was also suppressed by the unreported 15,16-epoxy-6ß-hydroxy-15α-methoxy-7,16-dioxolabd-8,13-diene. Further investigation into the preliminary anti-inflammatory mechanism of this compound indicated that it could block the activation of NF-κB signaling pathway.

Reduction-responsive worm-like nanoparticles for synergistic cancer chemo-photodynamic therapy.

Chemo-photodynamic therapy shows great potential for cancer treatment. However, the rational integration of chemotherapeutic agents and photosensitizers to construct an intelligent nanoplatform with synergistic therapeutic effect is still a great challenge. In this work, curcumin-loaded reduction-responsive prodrug nanoparticles of new indocyanine green (Cur@IR820-ss-PEG) were developed for synergistic cancer chemo-photodynamic therapy. Cur@IR820-ss-PEG exhibit high drug loading content and special worm-like morphology, contributing to their efficient cellular uptake. Due to the presence of the disulfide bond between IR820 and PEG, Cur@IR820-ss-PEG display reduction responsive drug release behaviors. The efficient cellular uptake and reduction triggered drug release of Cur@IR820-ss-PEG lead to their enhanced in vitro cytotoxicity against 4T1cells as compared to the mixture of IR820 and curcumin (IR820/Cur) under laser irradiation. Besides, Cur@IR820-ss-PEG exhibit prolonged blood half-life time, better tumor accumulation and retention, enhanced tumor hypoxia-inducible factor-1α (HIF-1α) and vascular endothelial cell growth factor (VEGF) suppression effect as compared to IR820/Cur. In vivo antitumor activity study, Cur@IR820-ss-PEG effectively inhibit the tumor angiogenesis, which potentiates the PDT efficacy and leads to the best in vivo antitumor effect of Cur@IR820-ss-PEG. This work provides a novel and relatively simple strategy for synergistic cancer chemo-photodynamic therapy.

Conjugates of lactobionic acid and IR820: New photosensitizers for efficient photodynamic therapy of hepatoma cells.

New indocyanine green (IR820) is an indocyanine green analog which has attracted increasing attention in cancer phototherapy for the prominent absorbance at near-infrared region and improved stability. However, the lack of tumor targeting ability is still an obstacle that severely limits the application of IR820. Lactobionic acid (LA) is a ligand for the asialoglycoprotein receptors which are overexpressed on the membrane of hepatocellular carcinoma cells. In this work, three conjugates of LA and IR-820, namely LA-IR820, LA-SS-IR820, and LA-DEG-IR820, were developed for targeted photodynamic therapy of hepatocellular carcinoma (HCC). The in vitro photodynamic effect study shows that LA-IR820, LA-SS-IR820 and LA-DEG-IR820 exhibit similar singlet oxygen quantum yield as compared to free IR820. The cellular uptake study demonstrates that LA-IR820, LA-SS-IR820, and LA-DEG-IR820 exhibit enhanced cellular uptake amount as compared to free IR820 due to the ligand-receptor interactions between LA and asialoglycoprotein receptor overexpressed on the membrane of HepG2 cells. Among these three conjugates, LA-IR820 with hydrodynamic diameter of 154.6 ± 6.1 nm exhibits the highest cellular uptake amount. The cellular reactive oxygen species (ROS) generation study shows that LA-IR820, LA-SS-IR820 and LA-DEG-IR820 display enhanced cellular ROS level as compared to free IR820 and LA-IR820 exhibits the highest cellular ROS level upon 600 mW/cm2 660 nm laser irradiation. As a result, LA-IR820, LA-SS-IR820 and LA-DEG-IR820 exhibit enhanced photocytotoxicity against HepG2 cells as compared to free IR820 and LA-IR820 exhibits the highest photocytotoxicity. LA-IR820, LA-SS-IR820, and LA-DEG-IR820 show significant potential for the targeted photodynamic therapy of HCC.

Mesoporous polydopamine-based multifunctional nanoparticles for enhanced cancer phototherapy.

Cancer phototherapy has attracted increasing attention for its effectiveness, relatively low side effect, and noninvasiveness. The combination of photothermal therapy (PTT) and photodynamic therapy (PDT) has been shown to exhibit promising prospects in cancer treatment. However, the tumor hypoxia, high level of intracellular glutathione (GSH), and insufficient photosensitizer uptake significantly limit the PDT efficacy. In this work, we combine oxygen supply, GSH depletion, and tumor targeting in one nanoplatform, folate-decorated mesoporous polydopamine nanoparticles (FA-MPPD) co-loaded with new indocyanine green (IR-820) and perfluorooctane (PFO) (IR-820/PFO@FA-MPPD), to overcome the PDT resistance for enhanced cancer PDT/PTT. IR-820/PFO@FA-MPPD exhibit efficient singlet oxygen generation and photothermal effect under 808 nm laser irradiation, GSH-promoted IR-820 release, and efficient cellular uptake, resulting in high intracellular reactive oxygen species (ROS) level under 808 nm laser irradiation and strong photocytotoxicity in vitro. Following intratumoral injection, IR-820/PFO@FA-MPPD can relieve tumor hypoxia sustainably by PFO-mediated oxygen transport and deplete intracellular GSH by the Michael addition reaction, which boost the PDT effect and lead to the most potent antitumor effect upon 808 nm laser irradiation. The multifunctional IR-820/PFO@FA-MPPD developed in this work offer a relatively simple and effective strategy to potentiate PDT for efficient cancer phototherapy.

Lignans with NO inhibitory activity from Tinospora sinensis.

Two new lignan glucosides, tinsinlignans A and B (1 and 2), two new oxyneolignans, tinsinlignans C and D (3 and 4), along with one known analogue (5), were isolated from the stems of Tinospora sinensis. The structures of the new compounds were elucidated based on analysis of spectroscopic data, and the absolute configuration of 1 was determined through electronic circular dichroism (ECD) calculation based on the time-dependent density functional theory (TD-DFT). Compounds 1-4 were evaluated for their inhibitory effects on nitric oxide (NO) production induced by lipopolysaccharide (LPS) in murine RAW264.7 macrophage cells and compounds 1 and 2 exhibited moderate inhibitory activities with IC50 values of 18.5 ± 2.0 and 28.8 ± 1.2 µmol·L-1, respectively.

Chemical constituents from Tinospora sagittata and their biological activities.

Six undescribed low-polarity compounds including three rare 14-methylergostane steroids (1-3), one euphane triterpenoid (4) and two octadecanoic acid ethyl esters (5 and 6), along with ten previously reported terpenyl cometabolites (7-16), were isolated from the stems of Tinospora sagittata. Their structures were determined by detailed spectroscopic analyses and comparison with structurally related known compounds, and all of them have been reported from T. sagittata for the first time. Compounds 4-6 and 16 showed potent in vitro inhibitory activity against the diabetes target α-glucosidase, while compounds 10 and 14 displayed promising antibacterial effect toward Staphylococcus aureus ATCC 25923.

Lanosterol 14α-demethylase (CYP51)/histone deacetylase (HDAC) dual inhibitors for treatment of Candida tropicalis and Cryptococcus neoformans infections.

Invasive fungal infections remain a challenge due to lack of effective antifungal agents and serious drug resistance. Discovery of antifungal agents with novel antifungal mechanism is important and urgent. Previously, we designed the first CYP51/HDAC dual inhibitors with potent activity against resistant Candida albicans infections. To better understand the antifungal spectrum and synergistic mechanism, herein new CYP51/HDAC dual inhibitors were designed which showed potent in vitro and in vivo antifungal activity against C. neoformans and C. tropicalis infections. Antifungal mechanism studies revealed that the CYP51/HDAC dual inhibitors acted by inhibiting various virulence factors of C. tropicalis and C. neoformans and down-regulating resistance-associated genes. This study highlights the potential of CYP51/HDAC dual inhibitors as a promising strategy for the discovery of novel broad-spectrum antifungal agents.

A review of the effects and molecular mechanisms of dimethylcurcumin (ASC-J9) on androgen receptor-related diseases.

Dimethylcurcumin (ASC-J9) is a curcumin analogue capable of inhibiting prostate cancer cell proliferation. The mechanism is associated with the unique role of ASC-J9 in enhancing androgen receptor (AR) degradation. So far, ASC-J9 has been investigated in typical AR-associated diseases such as prostate cancer, benign prostatic hypertrophy, bladder cancer, renal diseases, liver diseases, cardiovascular diseases, cutaneous wound, spinal and bulbar muscular atrophy, ovarian cancer and melanoma, exhibiting great potentials in disease control. In this review, the effects and molecular mechanisms of ASC-J9 on various AR-associated diseases are summarized. Importantly, the effects of ASC-J9 and AR antagonists enzalutamide/bicalutamide on prostate cancer are compared in detail and crucial differences are highlighted. At last, the pharmacological effects of ASC-J9 are summarized and the future applications of ASC-J9 in AR-associated disease control are discussed.

Regulation by walnut protein hydrolysate on the components and structural degradation of photoaged skin in SD rats.

Skin photoaging induced by consecutive exposure of skin to ultraviolet radiation is primarily responsible for skin aging and preparation of food-derived ingredients with anti-aging functions has been the hot topic worldwide. Dietary consumption of food supplements has been found to modulate skin functions and can be useful in the prevention of skin aging. To evaluate the effect of walnut protein hydrolysate (WPH) on photoaged skin, Sprague-Dawley rats (SD rats) were orally administered with WPH and then were regularly exposed to ultraviolet radiation (UV-R). After a consecutive UV-R for 18 weeks, the delaying efficiency of WPH against elasticity degradation was examined and the mechanical mechanism was explored subsequently. The contents of hydroxyproline (Hyp) and hyaluronic acid (HA) in the extracellular matrix (ECM) were measured by biochemical reactions and color rendering procedures; the levels of types I and III collagen (Col I and III) and the activity of matrix metalloproteinase-1 (MMP-1) were detected by enzyme-linked immunosorbent assay (ELISA); the protein levels of elastin and fibrillin-1 were examined by western blotting. Moreover, the histological change in the skin structure was illustrated by hematoxylin & eosin (HE) and Masson staining. The results revealed that WPH evidently enhanced the elasticity of photoaged skin and stimulated the biosynthesis of ECM components Col I, Hyp and HA in the dermal layer; meanwhile WPH inhibited the MMP-1 activity, alleviated epidermal hyperplasia, and repaired the damaged skin mechanical structure in a dose-dependent manner. In particular, in comparison with the UV-R group, the WPH group in which WPH was administered at a high-dose level showed significantly improved skin appearance, ECM components and structure (P < 0.05). Taken together, the elasticity improvement caused by WPH against the skin photoaging process can be attributed to the regulation of the metabolism of the components and repair of the damaged mechanical structure of the ECM. This research proved the potential of WPH as a functional ingredient for the development of anti-photoaging foods.

Berberine hydrochloride impact on physiological processes and modulation of twist levels in nasopharyngeal carcinoma CNE-1 cells.

OBJECTIVE: The main purpose of this work was to investigate the effect of berberine hydrochloride (BH) on the proliferation, apoptosis, migration, and invasion of CNE-1 nasopharyngeal carcinoma cells. Our results shed light on the functional components of traditional Chinese herbs for potential use in modern medicine. METHODS: The CNE-1 cell line was treated with different concentrations of BH and effects on cell viability and proliferation were evaluated using the Cell Counting Kit-8 (CCK-8) assay. Anti-migratory and anti-invasive actions of BH were investigated using wound healing assays and the Millicell Hanging cell culture insert system, respectively. Expression of the epithelial-mesenchymal transition (EMT)-related gene twist (Twist) was analyzed by real-time PCR and Western blotting. Apoptosis was estimated with an annexin-V fluorescein (FITC) apoptosis detection kit, as well as with reference to levels of activated caspase-3 of CNE-1 cells before and after treatment with BH utilizing fluorescence spectroscopy. RESULTS: BH was capable of reducing proliferation and viability of CNE-1 cells in a dose- and time-dependent manner, also demonstrating anti-migratory and anti-invasive capacities which correlated with reduction in expression of Twist. Finally, BH was able to induce significant amounts of apoptosis in CNE-1 cells, as demonstrated by an increase in the activity of caspase-3 and in annexin-V staining following treatment. CONCLUSION: BH extracted from rhizoma coptidis demonstrated an ability to block proliferation, induce apoptosis, and impair the migration and invasion of the CNE-1 cell line Considering these properties, our results suggest that BH could be an important compound for consideration in the treatment of nasopharyngeal carcinoma.

Differential androgen deprivation therapies with anti-androgens casodex/bicalutamide or MDV3100/Enzalutamide versus anti-androgen receptor ASC-J9(R) Lead to promotion versus suppression of prostate cancer metastasis.

Despite the fact that androgen deprivation therapy (ADT) can effectively reduce prostate cancer (PCa) size, its effect on PCa metastasis remains unclear. We examined the existing data on PCa patients treated with ADT plus anti-androgens to analyze ADT effects on primary tumor size, prostate-specific antigen (PSA) values, and metastatic incidence. We found that the current ADT with anti-androgens might lead to primary tumor reduction, with PSA decreased yet metastases increased in some PCa patients. Using in vitro and in vivo metastasis models with four human PCa cell lines, we evaluated the effects of the currently used anti-androgens, Casodex/bicalutamide and MDV3100/enzalutamide, and the newly developed anti-AR compounds, ASC-J9® and cryptotanshinone, on PCa cell growth and invasion. In vitro results showed that 10 µm Casodex or MDV3100 treatments suppressed PCa cell growth and reduced PSA level yet significantly enhanced PCa cell invasion. In vivo mice studies using an orthotopic xenograft mouse model also confirmed these results. In contrast, ASC-J9® led to suppressed PCa cell growth and cell invasion in in vitro and in vivo models. Mechanism dissection indicated these Casodex/MDV3100 treatments enhanced the TGF-ß1/Smad3/MMP9 pathway, but ASC-J9® and cryptotanshinone showed promising anti-invasion effects via down-regulation of MMP9 expression. These findings suggest the potential risks of using anti-androgens and provide a potential new therapy using ASC-J9® to battle PCa metastasis at the castration-resistant stage.

Shikonin and its derivatives: a patent review.

INTRODUCTION: Shikonin and its derivatives are the main components of red pigment extracts from Lithospermum erythrorhizon, whose medicinal properties have been confirmed for a long history, and have aroused great interest as the hallmark molecules responsible for their significant biological activities, especially for their striking anticancer effects. AREAS COVERED: Areas covered in this paper include a review of the total synthesis, biological effects and mechanisms of shikonin and its derivatives for their anticancer activities in the past decade, basing on literature and patents. The current state and problems are also discussed. EXPERT OPINION: At present, screening for anticancer shikonin derivatives is based on cellular level to find compounds with stronger cytotoxicity. Though several compounds have been discovered with striking cytotoxicity in vitro, however, no selectivity was observed and undoubtedly, the further outcomes have been disappointing because of their great damage to normal cells. Meanwhile, the presumed mechanisms of action are also established in terms of their cytotoxicity. From a pharmacological point of view, most of the shikonin derivatives are at an early stage of their development, and thus it is difficult to determine the exact effectiveness in cancer treatment. With research in this field going deeper, it can be expected that, despite the difficulties, shikonin derivatives as potential anticancer agents will soon follow.

Cryptotanshinone suppresses androgen receptor-mediated growth in androgen dependent and castration resistant prostate cancer cells.

Androgen receptor (AR) is the major therapeutic target for the treatment of prostate cancer (PCa). Anti-androgens to reduce or prevent androgens binding to AR are widely used to suppress AR-mediated PCa growth; however, the androgen depletion therapy is only effective for a short period of time. Here we found a natural product/Chinese herbal medicine cryptotanshinone (CTS), with a structure similar to dihydrotestosterone (DHT), can effectively inhibit the DHT-induced AR transactivation and prostate cancer cell growth. Our results indicated that 0.5 µM CTS effectively suppresses the growth of AR-positive PCa cells, but has little effect on AR negative PC-3 cells and non-malignant prostate epithelial cells. Furthermore, our data indicated that CTS could modulate AR transactivation and suppress the DHT-mediated AR target genes (PSA, TMPRSS2, and TMEPA1) expression in both androgen responsive PCa LNCaP cells and castration resistant CWR22rv1 cells. Importantly, CTS selectively inhibits AR without repressing the activities of other nuclear receptors, including ERα, GR, and PR. The mechanistic studies indicate that CTS functions as an AR inhibitor to suppress androgen/AR-mediated cell growth and PSA expression by blocking AR dimerization and the AR-coregulator complex formation. Furthermore, we showed that CTS effectively inhibits CWR22Rv1 cell growth and expressions of AR target genes in the xenograft animal model. The previously un-described mechanisms of CTS may explain how CTS inhibits the growth of PCa cells and help us to establish new therapeutic concepts for the treatment of PCa.

Synthesis and antitumor activity of 6- and 2-(1-substituted-thio-4-methylpent-3-enyl)-5,8-dimethoxynaphthalene-1,4-diones.

In an attempt to develop potent and selective antitumor agents, a series of 6- and 2-(1-substituted-thio-4-methylpent-3-enyl)-5,8-dimethoxynaphthalene-1,4-diones were designed and synthesized. The cytotoxicities of these compounds were evaluated in vitro against BEL-7402, HT-29 and SPC-A1 cell lines. The pharmacological results showed that most of the prepared compounds displayed the excellent selective cytotoxicity toward HT-29 cells. From the structure-activity relationships we may conclude that the introduction of a thioether functional group at the 1'-position in the side chain of shikonin is associated with an increase in cytotoxicity.