Full thermal ablation versus partial thermal ablation for secondary hyperparathyroidism: A meta-analysis.

BACKGROUND: Regarding the thermal ablation treatment of refractory secondary hyperparathyroidism (SHPT), there is no consensus on the ablation range of the hyperplastic parathyroid gland. Therefore, this meta-analysis was conducted to evaluate the efficacy and complications between full and partial thermal ablation in patients with refractory SHPT. METHODS: Databases including PubMed, EMbase, the Cochrane Library, CNKI (China National Knowledge Infrastructure), and Wanfang databases were searched from inception to July 1, 2023. Eligible studies comparing full thermal ablation and partial thermal ablation for SHPT were included. Data were analyzed using Review Manager Version 5.3. RESULTS: Four studies were included in the meta-analysis. Three cohort studies and one randomized controlled trial involving 62 patients in the full thermal ablation group and 63 patients in the partial thermal ablation group were included. The serum parathyroid hormone (PTH), calcium, and phosphorus levels after full ablation were all lower than those after partial ablation (P < .05). There was no significant difference between the partial and full ablation groups concerning the incidence rate of severe hypocalcemia (P = .09). There was no significant difference between the partial and full ablation groups concerning symptom improvement, including bone joint pain, itching, and myasthenia (P < .05). CONCLUSION: Full ablation was superior to partial ablation in terms of reducing PTH, calcium and phosphorus levels. Full ablation might not significantly increase the incidence of severe hypocalcemia. Larger multicentre randomized controlled trials are necessary to confirm the conclusion.

Influence of Lactose Supplementation on Regulation of Streptococcus thermophilus on Gut Microbiota.

It has been found that Streptococcus thermophilus (S. thermophilus) influenced the gut microbiota and host metabolism with strain specificity in C57BL/6J mice in the previous study, though it remains unclear whether lactose as a dietary factor associated with dairy consumption is involved as the mediator in the interaction. In the present study, integrated analysis of 16S rRNA gene sequencing and untargeted metabolomics by liquid chromatography-mass spectrometry of fecal samples in C57BL/6J mice was applied to evaluate the effect of lactose on the regulation of gut microbiota by two S. thermophilus strains (4M6 and DYNDL13-4). The results showed that the influence of lactose supplementation on gut microbiota induced by S. thermophilus ingestion was strain-specific. Although two S. thermophilus strains ingestion introduced similar perturbations in the fecal microbiota and gut microbial metabolism, the regulation of DYNDL13-4 on the gut microbiota and metabolism was more affected by lactose than 4M6. More specifically, lactose and 4M6 supplementation mainly enriched pathways of d-glutamine and d-glutamate metabolism, alanine, aspartate, and glutamate metabolism, and tryptophan and phenylalanine metabolism in the gut, whereas 4M6 only enriched tryptophan and phenylalanine metabolism. DYNDL13-4-L (DYNDL13-4 with lactose) had significant effects on sulfur, taurine, and hypotaurine metabolism in the gut and on phenylalanine, tyrosine, tryptophan biosynthesis, and linoleic acid metabolism in serum relative to the DYNDL13-4. Our study demonstrated the strain-specific effect of lactose and S. thermophilus supplementation on gut microbiota and host metabolism. However, considering the complexity of the gut microbiota, further research is necessary to provide insights to facilitate the design of personalized fermented milk products as a dietary therapeutic strategy for improving host health.

40 Hz Electroacupuncture relieves the memory dysfunction of 5xFAD mice by regulating neuronal electrical activity.

In this investigation, we probed the impacts of 40 Hz Electroacupuncture (EA) on the cognitive function and brain activity in 5xFAD mice. Three groups of mice were constituted: the Model group of 5xFAD mice, the Wild Type (WT) group of littermate controls, and the EA group of 5xFAD mice subjected to EA treatment. Behavioral tests were conducted to evaluate memory function and anxiety levels, while the presence of Aß plaques were detected via immunostaining, and neuronal activity was measured using multichannel recordings. Our results indicated that EA therapy enhanced memory function and anxiety-like behavior in 5xFAD mice, as well as diminishing the abundance and dimensions of Aß plaques in the hippocampus and mPFC regions. Notably, the suppression of astrocyte activation was observed, which was potentially associated with alterations in gamma oscillation. Furthermore, the synaptic transmission of neurons was amplified, suggesting a possible modulation in neural activity. These findings indicate that 40 Hz EA could influence cognitive performance and potentially affect neuronal activity in 5xFAD mice, while the direct connection between EA and neuronal electrical activity regulation requires further exploration. The potential frequency-specific effects of EA on protective mechanisms in the brain was not addressed in this study and thus presents a direction for future research.

Net zero greenhouse emissions and energy recovery from food waste: manifestation from modelling a city-wide food waste management plan.

Food waste (FW) being a major solid waste component and of degradable nature is the most challenging to manage and mitigate greenhouse gas emissions (GHEs). Policymakers seek innovative approaches to achieve net zero objectives and recover resources from the FW which requires a comparative and holistic investigation of contemporary treatment methods. This study assessed the lifecycle of six alternative scenarios for reducing net GHEs and energy use potential from FW management in a metropolis, taking Hong Kong as a reference. In both impact categories, the business-as-usual (landfilling) was the worst-case scenario. The combined anaerobic digestion and composting (ADC) technique was ranked best in the global warming impact but was more energy intensive than anaerobic digestion with sludge landfilling (ADL). Incineration ranked second in net GHEs but less favourable for energy recovery from FW alone. The proposed integration of FW and biological wastewater treatment represented an enticing alternative. Integration by co-disposal and treatment with wastewater (CoDT-WW) performed above average in both categories, while anaerobic co-digestion with sewage sludge (AnCoD-SS) ranked fourth. The sensitivity analysis further identified critical parameters inherent to individual scenarios along with biogenic carbon emission and sequestration, revealing their significance on the magnitude of GHEs and scenarios' ranking. Capacity assessment of the studied treatment facilities showed a FW diversion potential of ∼60% while reducing the net GHEs by ∼70% compared to the base-case, indicating potential of net zero carbon emissions and energy footprint by increasing treatment capacity. From this study, policymakers can gain insights and guidelines for low-carbon urban infrastructure development worldwide.

Black soldier fly pretreatment promotes humification and phosphorus activation during food waste composting.

Black soldier fly (BSF) and thermophilic composting (TC) treatments are commonly adopted to manage food waste. In this study, 30 days of TC of food waste following seven days BSF pretreatment (BC) was compared to 37 days of TC of food waste (TC, the control). Fluorescence spectrum and 16S rRNA high-throughput sequencing analysis were used to compare the BC and TC treatments. Results showed that BC could decrease protein-like substances and increase humus substances more quickly, and that the humification index of compost products was 106.8% higher than that of TC, suggesting that the humification process was accelerated by BSF pretreatment resulting in a 21.6% shorter maturity time. Meanwhile, the concentrations of total and available phosphorus rose from 7.2 and 3.3 g kg-1 to 44.2 and 5.5 g kg-1, respectively, which were 90.5% and 118.8% higher in compost products from BC as compared to those in TC. Furthermore, BC had higher richness and diversity of humus synthesis and phosphate-solubilizing bacteria (PSB), with Nocardiopsis (53.8%) and Pseudomonas (47.0%) being the dominant PSB. Correlation analysis demonstrated that the introduction of BSF gut bacteria contributed to the effectiveness of related functional bacteria, resulting in a rapid humification process and phosphorus activation. Our findings advance understanding of the humification process and provide novel perspectives on food waste management.

Synthesis, applications and biosafety evaluation of carbon dots derived from herbal medicine.

Carbon dots (CDs) are novel zero-dimensional spherical nanoparticles with water solubility, biocompatibility and photoluminescence properties. As the variety of raw materials for CDs synthesis becomes more and more abundant, people tend to choose precursors from nature. Many recent studies have shown that CDs can inherit properties similar to their carbon sources. Chinese herbal medicine has a variety of therapeutic effects to many diseases. In recent years, many literatures have chosen herbal medicine as raw materials, however, how the properties of raw materials affect CDs has not been systematically summarized. The intrinsic bioactivity and potential pharmacological effects of CDs have not received sufficient attention and have become a 'blind spot' for research. In this paper, the main synthesis methods were introduced and the effects of carbon sources from different herbal medicine on the properties of CDs and related applications were reviewed. In addition, we briefly review some of the biosafety assessments of CDs, and make recommendations for biomedical applications. CDs that inherit the therapeutic properties of herbs can enable diagnosis and treatment of clinical diseases, bioimaging, and biosensing in the future.

Exploring the mechanism of action of herbal compounding in the treatment of myasthenia gravis based on network pharmacology.

Myasthenia gravis is a major disease in the context of an ageing society, and the discovery of effective herbal compound and herbal active ingredients is a highly promising direction for the treatment of myasthenia gravis. In this study, we selected shujiao, dried ginger and ginseng from the compound ingredients through a network pathology approach. The three ingredients were used to obtain drug targets in Traditional Chinese Medicine Systems Pharmacology (TCMSP), HERB and BATMAN-TCM data and intersected with the disease targets of myasthenia gravis. The resulting regulatory network maps were then used to identify core genes through the String database, and finally the core genes were molecularly aligned with the corresponding active ingredients using Autodock vina software. The 'herbal-component-target' regulatory network of the Chinese herbal formulae was constructed, which is important for finding the potential molecular mechanism for the treatment of myasthenia gravis. It will provide a theoretical basis for the therapeutic and clinical research of myasthenia gravis.

Recent advances in carbon dots: synthesis and applications in bone tissue engineering.

Bone tissue engineering (BTE), based on the perfect combination of seed cells, scaffold materials and growth factors, has shown unparalleled potential in the treatment of bone defects and related diseases. As the site of cell attachment, proliferation and differentiation, scaffolds composed of biomaterials play a crucial role in BTE. Over the past years, carbon dots (CDs), a new type of carbon-based nanomaterial, have attracted extensive research attention due to their good biocompatibility, unique optical properties, and abundant functional groups. This paper reviews recent research progress in the use of CDs in the field of BTE. Firstly, different preparation methods of CDs are summarized. Then, the properties and categories of CDs applied in BTE are described in detail. Subsequently, the applications of CDs in BTE, including osteogenesis, fluorescence tracing, phototherapy and antibacterial activity, are presented. Finally, the challenges and future perspectives of CDs in BTE are briefly discussed to give a comprehensive picture of CDs. This review provides a theoretical basis and advanced design strategies for the application of CDs in BTE.

Conditioned medium of mesenchymal stem cells pretreated with H2O2 promotes intestinal mucosal repair in acute experimental colitis.

Mesenchymal stem cells (MSCs) are a new therapeutic strategy for inflammatory bowel disease (IBD), and their efficacy has been widely recognized. However, there are still some challenges in cell therapy, including stable cell passage, laboratory conditions for cell culture, high-cost burden, and poor transplantation. The conditioned medium (CM) of MSCs is considered be an excellent alternative to cell transplantation, but the paracrine group in MSC-CM is limited in variety and low in concentration, which cannot meet the therapeutic needs of injured tissues and needs to be optimized. Pretreatment with low concentration of hydrogen peroxide (H2O2) can not only protect cells from oxidative damage, but also play a role similar to growth factors and regulate the physiological function of stem cells, to obtain an improved conditioned medium. To determine the optimal protocol for pretreatment of MSCs with H2O2, and to study the efficacy and potential mechanism of MSC-CM pretreated with H2O2 on Dextran Sulfate Sodium (DSS)-induced acute experimental colitis. MSCs were exposed to different concentrations of H2O2, and the optimal H2O2 pretreatment conditions were determined by evaluating their critical cell functional properties. H2O2-pretreated MSC-CM was transplanted into experimental mouse colitis by enema at 2, 4, and 6 days in modeling, and the changes of colonic tissue structure, the levels of inflammation and oxidative stress, the molecular changes of Nrf2/Keap1/ARE axis, and the related indicators of apoptosis in colonic epithelial cells were observed in each group. In vitro, Pretreated MSCs with 25 µM H2O2 significantly enhanced cell proliferation, migration, and survival, but had no effect on apoptosis. In vivo, MSC-CM treatment decreased apoptosis and extracellular matrix deposition, and maintained the mechanical barrier and permeability of colonic epithelial cells in experimental mouse colitis. Mechanistically, H2O2-pretreated MSC-CM against reactive oxygen species (ROS) production and MDA generation, accompanied by increases in components of the enzymatic antioxidant system includes SOD, CAT, GSH-PX, and T-AOC, which is through the up-regulation of the Nrf2, HO-1, and NQO-1 antioxidant genes. Our data confirmed that 25 µM H2O2 pretreated MSC-CM treatment could effectively improve intestinal mucosal repair in experimental colitis, which may be achieved by activating Nrf2/Keap1/ARE pathway.

NIR-II-triggered doxorubicin release for orthotopic bladder cancer chemo-photothermal therapy.

Intravesical instillation has been widely utilized for bladder cancer treatment in clinic. However, due to the bladder mucosal barrier, its poor penetration efficiency and drug utilization limit the clinical therapeutic effectiveness and result in a high recurrence rate. Therefore, designing an efficient and controllable drug delivery nanoplatform is of great significance for bladder cancer treatment. Non-invasive therapy based on near-infrared-II (NIR-II) photothermal therapy (PTT) conduces to overcome bladder mucosal barrier and enhance drug delivery. Also, the photothermal nanomaterials, Au Hollow Nanorods (AuHNRs), demonstrate strong photothermal properties and drug loading capacity. Herein, a quaternized chitosan N-(2-hydroxyl)propyl-3-trimethyl ammonium chitosan chloride (HTCC)-modified nanocarrier Dox/NH4HCO3@AuHNRs-HTCC (DNAH) was designed for controlled drug release and enhanced penetration. The drug loading capacity of DNAH reached 117.20%. Also, the thermal decomposition of NH4HCO3 realized NIR-II-triggered gas-driven drug burst release, and the doxorubicin release was 2.79 times higher within 1 h after NIR-II irradiation. Also, the HTCC-modified nanocarriers significantly enhanced the bladder mucosal permeability as well as long-term drug retention, and the penetration efficiency of DNAH increased by 144%. In the orthotopic bladder cancer model, the tumor suppression rate and mouse survival time were significantly improved. DNAH showed potent inhibition of the orthotopic bladder tumor growth owing to the enhanced penetration and drug delivery. This work presents a potential drug delivery nanocarrier, which is promising for optimized bladder mucosal permeability and controlled drug burst release.

Near-Infrared-II Activatable Symbiotic 2D Carbon-Clay Nanohybrids for Dual Imaging-Guided Combinational Cancer Therapy.

Two-dimensional (2D) nanomaterials hold great potential for cancer theranostic applications, yet their clinical translation faces great challenges of high toxicity and limited therapeutic/diagnostic modality. Here, we have created a kind of symbiotic 2D carbon-2D clay nanohybrids, which are composed of a novel 2D carbon nanomaterial (carbon nanochips, or CNC), prepared by carbonizing a conjugated polymer polydiiodobutadiyne, and a 2D layered aluminosilicate clay mineral montmorillonite (MMT). Intriguingly, with the formation of the nanohybrids, MMT can help the dispersion of CNC, while CNC can significantly reduce the hemolysis and toxicity of MMT. The symbiotic combination of CNC and MMT also leads to a synergistic anti-cancer theranostic effect. CNC has a strong absorption and high photothermal conversion efficiency in the second near-infrared region (NIR-II, 1000-1700 nm), while MMT contains Fe3+ that can facilitate the generation of reactive oxygen species from highly expressed H2O2 in tumor microenvironment. The nanohybrids not only enable a synergy of photothermal therapy and chemodynamic therapy to suppress the extremely rapid growth of RM1 tumors in mice but also allow for dual photoacoustic and magnetic imaging to guide the drug delivery and NIR-II irradiation execution, hence establishing a highly efficient and biosafe "all-in-one" theranostic platform for precision nanomedicine.

miR-21 antagonist alleviates colitis and angiogenesis via the PTEN/PI3K/AKT pathway in colitis mice induced by TNBS.

Background: The pathogenesis of Crohn's disease (CD) is unknown; however, angiogenesis is known to play an important role in the disease. The present research suggests that microRNA-21 (miR-21) may play a positive regulatory role in disordered angiogenesis in CD. Methods: C57 wild-type mice were divided into 6 groups. On day 0, all mice in the 2,4,6-trinitrobenzenesulfonic acid (TNBS) group were given an enema at the concentration of TNBS 100 mg/kg mouse body weight (solvent 50% alcohol). In the control group, the enema was performed with 50% alcohol. On day 0, 2, 4, and 6, the mice of the agomir-21 + TNBS group and the agomir control + TNBS group were injected with 200 µL, 5 nmol agomir-21 or agomir control [dissolved in ribonuclease (RNase)-free water] by tail vein injection, while the antagomir-21 + TNBS group and the antagomir control + TNBS group were injected with 200 µL, 20 nmol antagomir-21 or antagomir control (dissolved in RNase-free water). The body weight and disease activity index (DAI) score were recorded daily. The colons were obtained to assess macro and microscopic colon damage. The inferior vena cava and the accompanying abdominal aorta were chosen to detect the protein expression of the phosphatase and tensin homolog (PTEN)/phosphoinositide 3-kinase (PI3K)/serine/threonine kinase (AKT)/vascular endothelial growth factor (VEGF) axis through western blotting. Serum interleukin-1 beta (IL-1ß) and tumor necrosis factor alpha (TNF-α) were detected by enzyme-linked immunosorbent assay (ELISA). The distribution and expression of neovascularization were demonstrated by cluster of differentiation 31 (CD31) immunohistochemistry. Results: Compared with the only-TNBS group, the agomir-21 + TNBS group showed significantly severer colitis symptoms and more abnormal vascular hyperplasia, while the antagomir-21 + TNBS group showed symptom relief and reduced vascular hyperplasia. In addition, agomir-21 obviously inhibited the expression of PTEN and activated the PI3K/AKT/VEGF pathway in mice induced by TNBS, while antagomir-21 effectively antagonized this effect. Conclusions: miR-21 can promote the progression of colitis in mice induced by TNBS and aggravate the disordered angiogenesis by regulating the PTEN/PI3K/AKT axis. Intravenous injection of miR-21 antagonists can effectively relieve the symptoms of colitis and inhibit colonic angiogenesis.

Biologically Safe, Versatile, and Smart Bismuthene Functionalized with a Drug Delivery System Based on Red Phosphorus Quantum Dots for Cancer Theranostics.

Two-dimensional nanomaterials are attracting attention for cancer therapy. However, high toxicity, insensitivity to external stimuli and single therapeutic modality are still key issues hindering their clinical application. Therefore, the construction of a safe, intelligent and versatile nanocomposite is needed to meet clinical expectations. Herein, we developed a nanocomposite of Bi@RP-PEG-DOX with 2D bismuthene loaded with 0D red phosphorus quantum dots and DOX. The nanocomposite with DOX loading capacity (ca. 250 %) and photothermal conversion efficiency (ca. 54 %) showed both photothermal and photodynamic effects and a sensitive response of drug release to the acidic tumor microenvironment or NIR II laser irradiation. The nanocomposite exhibits good biosafety. Through the X-ray attenuation properties of bismuth, the nanocomposite serves as an excellent CT contrast agent, providing potential to perform CT-guided therapy.

Applications of Red Mud as a Masonry Material: A Review.

Red mud (RM) is a highly alkaline by-product produced by the aluminium industry. The total stockpile of RM in the world is evaluated to be close 4 billion tons, which caused serious soil and water pollution. The use of RM in masonry materials has proven to be a prospective strategy to alleviate the environmental problems caused by RM. During the past decades, various economical treatment methods have been developed for utilization of RM as a masonry material. There are two general categories of products using RM in masonry materials: sintered products and non-sintered products. In this review, the physicochemical properties of RM are introduced, and the different application scenarios for RM in masonry materials are summarized, which is valuable for solving the environmental problems caused by the accumulation of bauxite residue. Moreover, the potential environmental risks of utilizing RM are described. Finally, suggestions for solving the RM problem are proposed.

The effect of butylphthalide on aminoacid content in the brain of epileptic mice.

BACKGROUND: The aim of this study is to observe the effect of butylphthalide (NBP) on the amino acid content in the brain of epileptic mice. METHODS: NBP was injected intraperitoneally into the mice, and acute epileptic mice models were made after 30 minutes. The change of the four amino (aspartic acid, gamma-aminobutyric acid, glutamate, glycine) content in the brain of the epileptic mice was investigated. RESULTS: The contents of Glu and Glu/GABA (control group: 38.78, NBP high-dose group: 5.52) in the NBP high-dose group were lower compared with the control group. The difference was statistically significant. CONCLUSIONS: NBP could regulate the balance of excitement and inhibition systems by reducing the contents of Glu and Glu/GABA, which might relieve seizures.

What Is New in the Preventive and Therapeutic Role of Dairy Products as Nutraceuticals and Functional Foods?

Nutraceuticals have taken on considerable significance due to their supposed safety and possible nutritional and medicinal effects. Pharmaceutical and dietary companies are conscious of monetary success, which benefits healthier consumers and the altering trends that result in these heart-oriented value-added products being proliferated. Numerous nutraceuticals are claimed to have multiple therapeutic benefits despite advantages, and unwanted effects encompass a lack of substantial evidence. Several common nutraceuticals involve glucosamine, omega-3, Echinacea, cod liver oil, folic acid, ginseng, orange juice supplemented with calcium, and green tea. This review is dedicated to improving the understanding of nutrients based on specific illness indications. It was reported that functional foods contain physiologically active components that confer various health benefits. Studies have shown that some foods and dietary patterns play a major role in the primary prevention of many ailment conditions that lead to putative functional foods being identified. Research and studies are needed to support the possible health benefits of different functional foods that have not yet been clinically validated for the relationships between diet and health. The term "functional foods" may additionally involve health/functional health foods, foods enriched with vitamins/minerals, nutritional improvements, or even conventional medicines.

Effects of glucagon-like peptide-1 analog liraglutide on the systemic inflammation in high-fat-diet-induced mice.

OBJECTIVE: Metabolic syndrome is a chronic-metabolic disease caused by a variety of factors, including high peripheral blood insulin levels and insulin resistance. It has been reported that GLP-1 could regulate insulin resistance. It is not known whether and how GLP-1 protects from fat-induced inflammation and immune changes. We investigated if GLP-1 alters the populations of fat-induced inflammation and immune cells and the related mechanism. METHODS: We obtained obese C57BL/6J mice by feeding them high-fat food, then treated the obese mice with GLP-1+ high-fat diet (G + Hi), normal chow diet (Nor), or high-fat diet (Hi) (n = 20 for each group) for 8 weeks. The GLP-1 receptor-/- B6 group were fed with HFD for 8 weeks (GLP-1R KO + Hi). In vivo and in vitro experiments were conducted on mice immune cells to investigate the effects of GLP-1 on the changes of the immune components and functions in obesity. RESULTS: We found that GLP-1 could efficiently change the CD4+ T subsets and level of cytokines in high-fat-induced mice by GLP-1 receptor. Further, these changes were correlated with a reduction in fat content and serum lipid level. Interestingly, GLP-1 could enhance the function of Tregs in vitro. CONCLUSION: Our data showed that GLP-1 has an important role in shaping the CD4+ T population in high-fat-diet-induced mice by GLP-1 receptor, possibly providing a new target for the treatment of metabolic syndrome.

The MRVI1-AS1/ATF3 signaling loop sensitizes nasopharyngeal cancer cells to paclitaxel by regulating the Hippo-TAZ pathway.

Long non-coding RNA (lncRNA) plays an important role in malignant tumor occurrence, development, and chemoresistance, but the mechanism of how they affect nasopharyngeal cancer (NPC) paclitaxel chemosensitivity is unclear. In this study, lncRNA array of CNE-1 and HNE-2 paclitaxel-resistant cells and their parental strains revealed that the paclitaxel-resistant strains had significantly lower MRVI1-AS1 (murine retrovirus integration site 1 homolog antisense RNA 1) expression than the parental strains, and that MRVI1-AS1 overexpression in vitro and in vivo increased paclitaxel chemosensitivity. Further, MRVI1-AS1 upregulated ATF3 (activating transcription factor 3) by simultaneously inhibiting miR-513a-5p (microRNA-513a-5p) and miR-27b-3p expression levels to increase NPC paclitaxel chemosensitivity. Chromatin immunoprecipitation and quantitative real-time PCR showed that ATF3 could feed-back MRVI1-AS1 regulation positively. Furthermore, MRVI1-AS1 and ATF3 could form a positive feedback loop, which promoted the expression of RASSF1 (Ras association domain family member 1), a Hippo-TAZ (tafazzin) signaling pathway regulatory factor, thereby inhibiting TAZ expression. The MTT (3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyltetrazolium bromide) assay and flow cytometry showed that the decreased TAZ increased NPC cell paclitaxel chemosensitivity. Overall, the results indicate that the MRVI1-AS1/ATF3 signaling pathway can increase NPC paclitaxel chemosensitivity by modulating the Hippo-TAZ signaling pathway. Therefore, targeting the loop may be a new NPC treatment strategy.

Antitumor Effects of Ruyiping on Cell Growth and Metastasis in Breast Cancer.

Background: Ruyiping is an effective traditional Chinese herbal medicine formula for preventing postoperative recurrence and metastasis of breast cancer. However, the exact function and underlying mechanism of Ruyiping in breast cancer remain unclear. Materials and Methods: After breast cancer cell lines MDA-MB-231 and MDA-MB-468 were treated with Ruyiping, the CCK8, colony formation, wound-healing, and transwell invasion assays were used to examine cell proliferation, migration, and invasion, respectively. Flow cytometry was performed to examine the effect of Ruyiping on cell cycle distribution. Western blot was performed to examine the expression of related proteins, and the activity of MMP9 was detected using Gelatin zymography assay. Results: Ruyiping treatment significantly inhibited cell proliferation and viability of MDA-MB-231 and MDA-MB-468 cells. Ruyiping was also revealed to trigger cell cycle arrest at the G2 phase in MDA-MB-231 and MDA-MB-468 cells. Moreover, Ruyiping suppressed the migration and invasion abilities of MDA-MB-231 and MDA-MB-468 cells in vitro. Furthermore, Ruyiping blocked the activity of MMP9 in MDA-MB-231 and MDA-MB-468 cells. Additionally, western blotting showed that Ruyiping attenuated epithelial-to-mesenchymal transition (EMT) of breast cancer through downregulation of N-cadherin, Vimentin, Snail1, and Snail2 and upregulation of E-cadherin. The authors observed that the components of Ruyiping Pseudobulbus Cremastra seu pleiones polysaccharide and curcumol showed significant suppression in the growth and invasion of breast cancer cell. Conclusions: The observations of this study suggest the antitumor properties of Ruyiping in cell growth and invasion of breast cancer, which are modulated by induction of cell cycle arrest and reduction of MMP9 and EMT.

Pulsed elution modulation for on-line comprehensive two-dimensional liquid chromatography coupling reversed phase liquid chromatography and hydrophilic interaction chromatography.

In this work, a reversed phase liquid chromatography (RPLC) coupling to hydrophilic interaction chromatography (HILIC) system has been constructed, combining with pulsed elution reversed phase liquid chromatography (PE-RPLC) and HILIC to comprehensively analyze P. ginseng root extract, which is rich in saponins. By the application of pulsed elution (PE) modulation technique, the proposed RPLC × HILIC system allows the chromatographic separation to be optimized independently in both dimensions. In the first dimension (1D), PE modulation is achieved by the separation of a complex mixture, such as P. ginseng root extract, with a PE gradient. This PE gradient contains a set of pulses where the solvent strength increases gradually. Thus, the modulation of 1D eluent is realized by stepwise-pulse fractionation, rather than by a traditional two-dimensional interface. Furthermore, the number of fractions and the fractionated period can be regulated independently, which leads to independent adjustment of the separation cycle in the second dimension (2D) separation without the loss of D1 separation efficiency. To overcome the inherent solvent incompatibility of RPLC × HILIC, we introduced a newly developed trapping interface, equipped with bypass. The result indicates excellent separation of saponins in P. ginseng root extract. Compared with the traditional modulation method, the proposed RPLC × HILIC system has extreme flexibility, those modulation time could be regulated in a large range without re-optimizing the 1D PE gradient. Worthily mentioned, the proposed RPLC × HILIC system shows excellent orthogonality, and 20% more peaks could be obtained with current method compared to the traditional value based modulation method. Independent regulation of both dimensions could enable the proposed modulation method to be widely applied for complex samples analysis in ordinary laboratory.