Search Results (4,125)

Objective: To develop a superoxide dismutase (SOD) fluorescent detection probe based on Phycoerythrin (PE) from Porphyridium cruentum for real-time monitoring of SOD activity, a core biomarker of oxidative stress, in a nonalcoholic fatty liver disease (NAFLD) model, and to explore the regulatory effect of astaxanthin. Methods: Phycoerythrin and SOD were covalently coupled using the heterobifunctional cross-linker N-Succinimidyl 3-(2-pyridyldithio) propionate (SPDP), and the probe concentration and incubation time were optimized. A NAFLD model was established in HepG2 cells induced by free fatty acids (FFAs). The fluorescence intensity of the probe was detected by flow cytometry, and the intervention effect of astaxanthin was evaluated by measuring triglyceride (TG)/total cholesterol (TC) contents and SOD activity. Results: The optimal conditions for the Phycoerythrin-SOD probe were determined. Astaxanthin at 20 μM significantly reduced FFA-induced TG (56.8%) and TC (63.6%) contents and restored SOD activity to 60% of that in the control group. Conclusion: The Phycoerythrin-SOD probe serves as an efficient tool for dynamic monitoring of SOD activity in NAFLD. Astaxanthin alleviates liver injury by multi-target regulation of lipid metabolism and antioxidant pathways. Full article

Background: Children with special healthcare needs (CSHCNs) face persistent barriers to timely immunization in China, but comparative evidence across disease groups and vaccines, and data on immune function, are limited. Methods: We conducted a retrospective cohort study linking electronic medical records, vaccination records, and a structured telephone and questionnaire follow-up. We estimated timely vaccination by National Immunization Program (NIP) dose definitions, assessed catch-up completion at follow-up, and compared cellular/humoral/complement immune indices with published pediatric reference ranges. Group differences used ANOVA/Kruskal–Wallis and chi-square (χ²)/Fisher’s exact tests with Bonferroni correction. Results: Timely vaccination was lower than the national healthy child benchmarks for all NIP vaccines (all p < 0.001); the Japanese encephalitis virus (JE; 24.0%) and measles-containing vaccine (MCV; 25.9%) had the lowest timely completion. A subset of CSHCNs did not receive recommended catch-up vaccinations, primarily due to persistent caregivers’ concern and point of vaccination (POV) staff’s hesitancy. Delays clustered in neonatal/perinatal disorders for Bacillus Calmette–Guérin (BCG) and hepatitis B vaccine, dose 1 (HepB1). Catch-up completion was highest for hepatitis B vaccine, dose 3 (HepB3) (86.3%) and BCG (81.8%), and lowest for the diphtheria and tetanus vaccine (DT) (49.4%); MCV2 completion was particularly low in hematological diseases. Immunoglobulin A (IgA) and immunoglobulin G (IgG) concentrations were significantly lower in neonatal/perinatal disorders and infectious disease groups versus neurological and immune disorder groups (p < 0.05). No severe adverse events were reported after catch-up. Conclusions: CSHCNs in China face substantial barriers to timely NIP immunization. Timeliness and catch-up vary substantially by vaccine and underlying condition; neonatal/perinatal disorders contribute disproportionately to early-life delays. Disease-specific guidance, strengthened POV–specialist clinic coordination, immunological monitoring, and supportive policies could improve the vaccination coverage and effectiveness in this vulnerable population. Full article

Pulsed Electric Fields (PEFs) are widely investigated in cancer research, yet interpretation and optimisation of exposure protocols remain challenging due to the complex interplay between electrical parameters, thermal effects, and biological response. While voltage amplitude is often emphasised, the influence of pulse timing and structure under dose-constrained conditions is less systematically examined. This work presents an exploratory in vitro study on the HepG2 hepatocellular carcinoma cell line using a custom-built bipolar pulse delivery system. Seventy experimental conditions were tested, each varying a single pulse parameter (voltage, width, period, pulses per burst, burst count, or burst period), with temperature monitored during exposure. Cell metabolic viability was quantified 24 h post-treatment using an MTT assay. The results show that short-term viability suppression and thermal behaviour depend on pulse configuration and not on total electric dose alone. Based on comparative trends, a qualitative hierarchy of parameter influence is proposed, with total electric dosage and pulse width showing the strongest association with viability reduction, followed by voltage, pulse period, pulses per burst, and burst period. Elevated temperatures observed in some regimes indicate possibly combined electro–thermal effects rather than purely electrical responses. Overall, the study provides a parameter-sensitivity overview that highlights the importance of pulse timing and thermal management alongside voltage amplitude in PEF experiments. Full article

Hepatitis B virus (HBV) remains a major global health threat because covalently closed circular DNA (cccDNA) persists in hepatocytes and limits the efficacy of current antiviral therapies. Effective HBV research and drug screening require culture models that recapitulate the complete viral life cycle and allow for quantitative monitoring of replication. In this study, an 11-amino acid luminescent reporter, HiBiT, was inserted at multiple sites within the preS1 region of a genotype D HBV genome, and the C terminus of preS1 was identified as optimal for maintaining robust replication. We then established HepG2-B4 cells stably replicating HiBiT-HBV with HiBiT at the preS1 C terminus. Extracellular HiBiT activity and supernatant levels of HBV-DNA, HBsAg, and HBcAg increased continuously until day 42 and were reduced by nucleos(t)ide analog treatment, and cccDNA was confirmed by Southern blot analysis. Supernatants from HepG2-B4 cells infected naïve HepG2-NTCP cells and primary human hepatocytes, as shown by extracellular HiBiT activity. Transcriptome analysis revealed distinct gene expression changes in HepG2-B4 cells compared with parental HepG2 cells. These findings indicate that the HepG2-B4 system provides a rapid, quantitative, and scalable platform for HBV replication and infection studies and is suitable for mechanistic investigations and high-throughput antiviral screening. Full article

The intestine–liver–muscle axis plays an essential role in drug and nutrient absorption, metabolism, and energy balance. Yet in vitro models capable of recapitulating this inter-organ communication remain limited. Here, we present a pump-free, 3D-printed multi-organ-on-a-chip device that enables dynamic co-culture of Caco-2 intestinal epithelial cells, HepG2 hepatocytes, and primary human skeletal myoblasts (HSkMs) under gravity-driven oscillatory flow. The device consists of five interconnected chambers designed to accommodate Transwell cell culture inserts for intestine and muscle compartments and hydrogel-embedded hepatocyte spheroids in the central hepatic compartment. The device was fabricated by low-cost fused deposition modeling (FDM) using acrylonitrile butadiene styrene (ABS) polymers. Under dynamic rocking, oscillatory perfusion promoted inter-organ communication without the need for external pumps or complex tubing. Biological assessments revealed that dynamic co-culture significantly enhanced the characteristics of skeletal muscle, as indicated by increased myosin heavy chain expression and elevated lactate production, while HepG2 spheroids exhibited improved hepatic function with higher albumin expression compared with monoculture. Additionally, Caco-2 cells maintained stable tight junctions and transepithelial electrical resistance, demonstrating preserved intestinal barrier integrity under dynamic flow. These results establish the device as a versatile, accessible 3D-printed platform for modeling the intestine–liver–muscle axis and investigating metabolic cross-talk in drug discovery and disease modeling. Full article

Objective: Based on our previous findings, we designed new molecules by extending functionalized pyrazole derivatives containing iodine atoms, which are linked via an amino bond to halogen-substituted phenyl groups. In addition, these newly developed pyrazole compounds exhibit anti-tumor, antibacterial, and anti-biofilm activities. Methods: Three new series of pyrazole compounds were designed. Fifteen novel pyrazole derivatives, distributed across three series (4a–d, 5a–d, and 6a–g), were synthesized and structurally characterized by ¹H-NMR, ¹³C-NMR, FTIR, UV-Vis spectroscopy, and elemental analysis. Results: Among them, compound 4c, which exhibited notable anti-tumor activity, crystallized in a monoclinic system and was further analyzed via single-crystal X-ray diffraction. All synthesized compounds were evaluated in vitro on NCTC normal fibroblast cells and HEp-2 tumor epithelial cells. Compound 4c demonstrated significant anti-tumor activity while displaying no cytotoxic effects on normal cells. The antibacterial and anti-biofilm activities of the compounds were also assessed against four bacterial strains. Compounds 5a and 5c exhibited the highest antibacterial activity against Staphylococcus aureus ATCC 25923, both with a minimum inhibitory concentration (MIC) of 0.023 μg/mL. Additionally, compounds 4a, 5a, 6a, 6e, and 6f showed the strongest anti-biofilm effects, each presenting a minimum biofilm inhibition concentration (MBIC) of 0.023 μg/mL. ADME and ADMET in silico predictions indicated that all compounds exhibit generally favorable, drug-like physicochemical properties. Conclusions: The study reinforces the applicability of these compounds as promising anticancer, antibacterial, and anti-biofilm drugs. Full article

Background/Objectives: To investigate the antagonistic effect of probiotic Lactiplantibacillus plantarum GUANKE against respiratory syncytial virus (RSV) and its underlying molecular mechanisms. Methods: in vitro cell models (A549 and HEp2 cells) and an in vivo mouse model (BALB/c mice) were employed. RT-qPCR, TCID50 assay, immunofluorescence, ELISA, Western blot, and histopathological analysis were used to investigate the effects of GUANKE on RSV replication, inflammatory responses, and the type I interferon pathway. Results: Oral administration of GUANKE effectively cleared RSV and alleviated RSV-induced pulmonary inflammatory responses. GUANKE inhibited viral replication. The GUANKE intervention group exhibited significantly reduced pathological damage to lung tissue and decreased the expression of inflammatory cytokines (IL-1β, IL-6, MCP-1, TNF-α). GUANKE augmented the early type I interferon response and activated the STING-TBK1-IRF3-IFN signaling pathway. Conclusions: GUANKE exerts anti-RSV effects by enhancing the early type I interferon response and activating the STING-TBK1-IRF3-IFN signaling pathway, thereby inhibiting RSV replication and alleviating pulmonary inflammatory responses. This suggests its potential value as an anti-RSV agent. Full article

Drug- and alcohol-induced liver injury involves impaired bile acids or bilirubin secretion, but it is not known how senescence influences the secretion of hepatocytes exposed to drugs and alcohol. In this study, the toxic effects of ritonavir, lopinavir, and alcohol on hepatocyte transporters and the secretion of bile acids and bilirubin were investigated in hydrogen peroxide-induced senescent HepG2 and doxorubicin-induced senescent primary human hepatocytes. In HepG2, intracellular conjugated bilirubin increased upon senescence and extracellular conjugated bilirubin in culture medium was decreased by ritonavir and lopinavir treatment. In the primary hepatocytes, intracellular bile acids or medium bilirubin were not significantly changed upon senescence. However, intracellular bile acids were increased, and medium conjugated bilirubin were decreased in senescent primary hepatocytes treated with alcohol and the two drugs. Transcriptional expressions of adenosine triphosphate (ATP)-binding cassette (ABC) transporters (ABCB4, ABCC6, ABCB11, and ABCD3) were decreased whereas UDP-glucuronosyltransferase (UGT1A1) was increased by ritonavir and lopinavir in senescent HepG2. In senescent primary hepatocytes, expressions of ABCB11, ABCC1, ABCC2, ABCC3, ABCC4, and ABCC6 were apparently reduced whereas UGT1A1 and the cytochrome P450 enzyme CYP7A1 were markedly increased by alcohol combined with ritonavir and lopinavir. Selective ABCC6 knockdown in the primary hepatocytes altered expressions of two senescence markers, Lamin A/C and cyclin-dependent kinase inhibitor CKI (p21), increased expressions of CYP7A1 and hydroxy methyl glutaryl-CoA reductase (HMGCR), and increased intracellular bile acids. Further, anti-cholestasis agents, ursodeoxycholic acid and glycyrrhizin, significantly ameliorated the impaired secretions of bile acids and bilirubin as well as reducing intracellular lipid accumulation and cell death caused by ritonavir, lopinavir, and alcohol in the primary hepatocytes with ABCC6 knockdown. These results indicate that senescence moderately impairs the ABC transporters of hepatocytes and secretion of bile acids or bilirubin, which become worse in the presence of the drugs and alcohol but could be improved by anti-cholestasis agents. Full article

Background/Objectives: Nutraceuticals, including short-chain fatty acids (SCFAs) and antioxidants (AOXs), are nutrient-derived bioactive compounds considered as potential treatments for metabolic-associated steatotic liver disease (MASLD). However, in vitro studies of their effects are limited by inconsistent experimental conditions, including differences in cell lines, methods of steatosis induction, and culture media, and by reliance on qualitative rather than quantitative assessments. Here, we systematically evaluate the anti-steatotic potential of eight commonly used nutraceuticals—three SCFAs (butyrate, acetate, and propionate) and five AOXs (resveratrol, curcumin, berberine, chlorogenic acid, and vitamin E)—using a standardized in vitro approach. Methods: Following a systematic literature review to identify common experimental conditions, we developed an assay to validate steatosis induction and quantified the effects of the nutraceuticals. For our studies we used the HepG2 liver cancer cell line and the Fa2N-4 immortalized hepatocyte cell line. Steatosis was modeled by stimulating cells with free fatty acids and fructose for 48 h. Nutraceuticals were added either concurrently with steatotic stimulation, to assess preventive effects, or after 24 h to assess therapeutic effects. Anti-steatotic drugs (resmetirom, semaglutide, obeticholic acid, and a DGAT2 inhibitor) were included as positive controls. Intracellular triglyceride levels were measured to quantify steatosis. Results: A systematic review of 46 studies revealed large differences in culture conditions, steatosis induction, and nutraceutical assessment. In our experiments, most nutraceuticals did not reduce intracellular triglycerides, with the exception of vitamin E. Surprisingly, butyrate, berberine, and curcumin increased triglyceride accumulation. Resmetirom was the only drug that significantly decreased triglycerides, while obeticholic acid, semaglutide, and the DGAT2 inhibitor showed minimal or inconsistent effects. Fa2N-4 cells were generally more sensitive than HepG2 cells, showing larger absolute changes in triglyceride levels in response to both nutraceuticals and resmetirom. Conclusions: We established a standardized in vitro assay to evaluate the anti-steatotic potential of nutraceuticals. Using this system, we found that SCFAs and AOXs did not consistently reduce intracellular triglycerides, highlighting the need for quantitative assessments and careful validation when studying anti-steatotic interventions in vitro. Full article

Alzheimer’s disease and related neurodegenerative disorders are associated with progressive cognitive decline, primarily driven by cholinergic dysfunction and impaired synaptic signaling. Hericium erinaceus, also known as lion’s mane mushroom, has been reported to promote neuronal differentiation and synaptic plasticity. In this study, a standardized H. erinaceus extract powder (HEP) was prepared from fruiting bodies and quantified using hericene A as a marker compound. The neuroprotective effects of HEP were then evaluated in both cellular and animal models of scopolamine-induced cognitive dysfunction. Pretreatment of SH-SY5Y human neuroblastoma cells with HEP (5–25 μg/mL) significantly improved cell viability and reduced scopolamine-induced apoptosis, while enhancing the activation of neuroplasticity-related signaling proteins, including brain-derived neurotrophic factor (BDNF), cAMP response element-binding protein (CREB), and extracellular signal-regulated kinase (ERK). In vivo, oral administration of HEP (300 mg/kg) to scopolamine-treated ICR mice markedly improved cognitive performance, increasing the recognition index to 63.8% compared with 41.6% in the scopolamine group, and enhancing spontaneous alternation in the Y-maze test to 59.6%. These cognitive improvements were accompanied by preserved hippocampal neuronal structure and increased BDNF immunoreactivity. Additionally, HEP improved cholinergic function by restoring serum acetylcholine levels and reducing acetylcholinesterase activity. Collectively, these findings suggest that standardized HEP exerts neuroprotective and cognition-enhancing effects via modulation of cholinergic markers and activation of BDNF-mediated neuroplasticity, highlighting its potential as a functional food ingredient or nutraceutical for preventing cognitive decline related to cholinergic dysfunction. Full article

Background and Objectives: The increase in rates of cirrhosis and hepatocellular carcinoma (HCC) due to HCV infection supported the implementation of screening programs for control of this infection in Italy. The HepCoVe network has collected cases with chronic hepatitis C (CHC) in the Veneto region of North-East Italy since the 2000s. This platform allowed us to (a) compare the characteristics of the HCV cohort exposed to parenteral risk before or after 1995 (introduction of mandatory HCV testing), and (b) track the changes induced by IFN-based therapy and the novel direct-acting antivirals (DAA). Methods: From January 2000 to December 2005, 2703 prospectively recruited cases with CHC were analyzed and followed up for 16.2 ± 8.4 years, by a per protocol analysis. Results: Two epidemic waves occurred; the first, related to blood transfusions and infection with the HCV-1b and 2a/2c genotypes, affecting an elderly population, and the second, spread through drug addiction, among young people and with a prevalence of HCV-1a, 3a/3b and 4c/4d. Patients treated with DAA had more advanced liver disease; despite this, they achieved the highest SVR rate, compared to those who received an IFN-based regimen (95.1% vs. 61.5%; p < 0.01). The 10-year HCC incidence rate by KM was 0.81, 3.75, and 1.26 per 100 person-years (p-y) in cases with or without SVR and in the untreated group, respectively (p < 0.001). Conclusions: The period of exposure to HCV in Italy (born from 1939 to 1989) was supported by two epidemic waves. Unknowing cases of HCV infection are disappearing, particularly those included in the first cohort, among the “boomers”. Despite the eradication of HCV in all treated cases, antiviral therapy does not completely eliminate the risk of HCC onset. Full article

Cisplatin (CSP) is a first-line chemotherapeutic for laryngeal squamous cell carcinoma (LSCC), but its clinical effectiveness is limited by resistance and toxicity. Hesperidin (HESP), a citrus flavonoid, may enhance chemotherapeutic efficacy through pro-apoptotic properties. This study investigated the involvement of the transient receptor potential melastatin-2 (TRPM2) channel in the HESP-mediated potentiation of CSP-induced cytotoxicity in human laryngeal carcinoma (Hep-2) cells. Hep-2 cells were treated with CSP (25 µM), HESP (25 µM), or their combination for 24 h. The findings showed that the combined application of HESP and CSP reduced cell viability by approximately 50% (p < 0.001), which was the lowest compared to CSP alone. Western blot analysis revealed that TRPM2 protein expression was higher in the CSP+HESP group compared to the control group (p < 0.001). This synergistic treatment resulted in an increase in ROS production and a decrease in MDA levels, accompanied by a reduction in cellular GSH levels (p < 0.001). Furthermore, the combination therapy increased pro-inflammatory cytokines such as IL-1β and TNF-α (p < 0.001). Functional analyses showed that HESP treatment enhanced CSP-induced Ca²⁺ influx and altered mitochondrial membrane potential (p < 0.001). The pharmacological inhibition of TRPM2 with ACA and 2-APB reversed these effects, restoring redox balance and reducing cellular damage. In conclusion, HESP amplifies CSP-induced apoptosis in Hep-2 cells through TRPM2-dependent oxidative stress, Ca²⁺ dysregulation, and mitochondrial dysfunction. These findings identify TRPM2 as a mechanistic mediator of HESP-enhanced chemosensitivity in LSCC. Full article

Osthole is a natural coumarin derivative found in several medicinal plants, including Cnidium monnieri and Angelica pubescens. It has been studied for its various biological properties, such as anti-inflammatory, neuroprotective, osteogenic, cardioprotective, antimicrobial, and antiparasitic effects. Osthole was found to induce Fibroblast growth factor 21 (FGF21) expression. Among the known transcription factors that regulate FGF21 induction, activating transcription factor 4 (ATF4) expression was found to be upregulated by osthole. Additionally, as osthole induced ATF4 downstream gene expression, it was concluded that it activates ATF4 signaling. ATF4 knockdown significantly suppressed osthole-mediated induction of FGF21 expression. These findings suggest that osthole activates FGF21 expression via ATF4 activation. Full article

The application of nanotechnology in medicine has garnered significant interest, particularly in the development of advanced drug delivery systems. Graphene oxide (GO) shows promise as a carrier for delivering microRNA (miRNA) mimics or antisense constructs. miRNAs play a crucial role in regulating gene expression, and their dysregulation is associated with various diseases, including cancer. This study aimed to evaluate the impact of graphene oxide on cellular signaling pathways and its potential as a platform for gene delivery by developing a GO–antisense miRNA-21 nanosystem in HepG2 liver cancer cells. A colloidal dispersion of GO was used to prepare GO-antisense miRNA-21 nanosystems via self-assembly. The nanosystem was characterized in terms of ultrastructure, size distribution, surface composition and binding by TEM, DLS, ATR-FTIR and UV-Vis spectra. Zeta potential measurements were conducted to evaluate nanosystem stability by assessing the release kinetics of antisense miRNA-21. The efficiency of the GO nanosystem in delivering antisense miRNA-21 into HepG2 cells was analyzed using confocal microscopy and flow cytometry. Given the central role of miRNA-21 in inflammatory and oncogenic pathways, we first assessed its expression following GO exposure. In line with previous studies reporting high miRNA-21 expression in hepatocellular carcinoma cells, GO treatment further increased miRNA-21 levels in HepG2 cells compared with untreated controls. Changes in the expression levels of IL-8, MCP-1, ICAM-1, TIMP-2, and NF-kB were quantified by qPCR analysis. The ultrastructural analysis confirmed a strong affinity between GO and antisense miRNA-21. Transfection results demonstrate that the GO-based nanosystem effectively delivered antisense miRNA-21 into HepG2 cells, leading to a reduction in the expression of key pro-inflammatory genes. These findings suggest that GO-based nanocarriers may offer a promising strategy for delivering localized intratumoral miRNA-based therapies that target gene regulation in hepatocellular carcinoma. Full article

Non-alcoholic fatty liver disease (NAFLD), often associated with obesity, has become a serious public health matter. NAFLD is characterized by an excessive lipid accumulation in hepatocytes, mainly stored as triglycerides. The marine microalga Phaeodactylum tricornutum is well known for its richness of bioactive compounds, particularly lipids. Therefore, different natural lipid extracts from P. tricornutum are deciphered to jugulate or prevent obesity leading to NAFLD. In this study, the main focus was on the effects of purified neutral and polar lipid extracts from P. tricornutum in a cellular model of NAFLD. Human HepG2 cells were used and exposed for 24 h to 250 μM palmitate to induce NAFLD with or without microalgal lipid extracts. Data showed that neutral lipid extract presented lower viability and cytotoxic activities on HepG2 at 75 µg/mL. The impact on apoptosis was around 5% and below the threshold. Nevertheless, the use of neutral lipid at 50 µg/mL induced a decrease in the number and size of lipid droplets, and so, preventing NAFLD. On the contrary, the polar lipid extract had no effect on the accumulation of triglycerides in HepG2 cells. To conclude, neutral lipid extract seemed to be a good candidate to prevent NAFLD. Full article