Index In Mice Research Articles

Preventive Effect of 3,3'-dimethoxy-4,4'-dihydroxy-stilbene Triazole on Pulmonary Fibrosis through Inhibition of Inflammation and Down-regulation of TGF-b Signaling Pathway.

In the present study effect of 3,3'-dimethoxy-4,4'-dihydroxy-stilbene triazole (STT) on plmonary fibrosis development was investigated in vitro in primary lung fibroblasts as well as in vivo in mice model. The results demonstrated that STT treatment effectively inhibited the TGF-β1 induced increase in expression of α-SMA and collagen I proteins in PLFs. STT treatment effectively reversed the TGF-β1 induced increase in expression of LOXL2 protein and phosphorylation of Smad2/3 proteins. Treatment of PLFs with STT reversed the TGF-β1-induced increase in expression of NOX4 and suppression of p-AMPK protein. In mice model of pulmonary fibrosis STT treatment significantly inhibited the BLM-mediated decrease in body weight and survival rate. The BLM induced increase in pulmonary index in mice was also effectively inhibited on treatment with STT. Treatment of the mice with STT inhibited the BLM-induced increase in α-SMA and Col I protein expression in pulmonary tissues. The BLM-induced increase in TGF-β1 protein expression in pulmonary tissues of the mice was inhibited on treatment with STT. Treatment with STT effectively promoted the AMPK activation in lung tissues of the BLM administered mice. In summary, the present study demonstrates that STT treatment prevents TGF-β1 induced up-regulation of α-SMA, collagen I, LOXL2 protein expression and targets phosphorylation of Smad2/3 proteins in PLFs. Moreover, it inhibits TGF-β1-induced increase in expression of NOX4 and reverses TGF-β1-mediated suppression in expression of p-AMPK protein. Therefore, STT inhibits fibrosis development in vitro as well as in vivo and therefore can be investigated further as a therapeutic agent for the treatment of lung fibrosis.

The Inhibitory Effects of Anti-GPC3 Antibody on Wnt/β-Catenin Signaling Pathway as a Biological Therapy in Liver Cancer.

To investigate the effects of anti-GPC3 antibody on the Wnt/catenin pathway in liver cancer biology, thus providing a new target for the biological treatment of the disease. A total of 12 BALB/C experimental nude mice were selected as experimental objects. The mice were all male, weighed 15-20g and aged 4-5weeks. First, mouse liver cancer models were constructed. Then, the HepG2 liver cancer cells in logarithmic growth period were inoculated into the caudal veins of mouse models. On the 3rd day after inoculation, the tumor formations of nude mice were observed. Second, the anti-GPC3 antibody was designed and constructed, and the activity of anti-GPC3 antibody was detected. The mouse models were divided into the experimental group (EG) and the control group (CG), with 6 mice in each group. In the EG, mice were injected with 3mg/kg of anti-GPC3 antibody in the caudal veins once a day for three consecutive days, while in the CG mice were injected with the same amount of saline as the control. Mice in both groups received 3 injections in total. After the last administration, all mice were euthanized using the decapitation method following anesthesia with ethyl ether. The liver cancer cells of nude mice were extracted and cultured in DMEM medium. The effects of anti-GPC3 antibody on Wnt/β-catenin in liver cancer nude mice and the effects of anti-GPC3 antibody on epithelial-mesenchymal transition (EMT) in mouse liver cancer cells were observed. The bodyweight, liver weight and index of mice in the EG increased significantly (P < 0.05). The serum alanine transaminase (ALT), aspartate transaminase (AST), alkaline phosphatase (ALP) levels of mice in the EG were reduced than those in the CG (P < 0.05). Compared with the CG, the superoxide dismutase (SOD) concentration increased, while the malonaldehyde (MDA) concentration decreased in the liver tissues of mice in the EG (P < 0.05). There was binding activity between GPC3 recombinant protein and the antibody; the affinity constant was KD = 1.4 × 10-6 M, compared with the commercial anti-GPC3 antibody, the affinity constant was lower. The interference effects of siRNA on anti-GPC3 antibody were detected by Western Blot. After the injection of anti-GPC3 antibody, the expression of β-catenin siRNA in liver cancer cells decreased significantly. The optical microscope images of mouse liver cancer cells in groups were compared. Through down-regulating the Wnt/β-catenin by anti-GPC3 antibody, the morphology of epithelial cells was maintained, the cells were arranged orderly, the cubic structure was kept stable, and the occurrence of EMT was reduced. However, in the CG, the structure of mouse liver cancer cells was disordered, the obvious EMT occurred (P < 0.05). Through down-regulating the expression of Wnt/β-catenin by anti-GPC3 antibody, the invasiveness, and metastasis of liver cancer cells could be effectively inhibited. Compared with the CG, the number of cells passing through the chamber was significantly reduced (P < 0.05). The anti-GPC3 antibody had inhibitory effect on Wnt/β-catenin signaling pathway. The occurrence of EMT and the invasiveness of liver cancer cells were inhibited effectively. Therefore, the anti-GPC3 antibody could be used as a reference for clinical molecular targeted therapy of liver cancer.

Nutritional and potential health benefits of chufa oil, olive oil, and anhydrous milk fat against gallstone disease in a C57BL/6N mouse model.

Dietary lipids play a major role in many diseases, particularly cardiovascular diseases. Recently, the health value of plant oils, particularly heart health, has been recognized. Despite these facts, limited information is available on the potential nutritional and anti-arteriolosclerosis effects of chufa oil, olive oil, and anhydrous milk fat in C57BL/6N mice. In the present study, the effects of olive oil (OO), chufa oil (CO), and anhydrous milk fat (AMF) on 4-week-old C57BL/6N male mice, a model for studies of diet-induced atherosclerosis, were investigated. The AIN-93G-based diet was supplemented with 15% of either OO, CO, or AMF. The final mixture of the diets contained 15% fat, approximately 1.25% cholesterol, and 0.5% sodium cholate. The data obtained showed that most mice had gallstone disease. The highest percentage of the gallstones formed were found in AMF groups (approximately 85.7% of the mice). However, the lowest one was found in the chufa oil group (42.9%), followed by the olive oil group (57.1%). Although the mice's food intake significantly differed, their body weights did not change during the feeding period. The diet supplemented with CO resulted in a significant reduction in serum cholesterol compared with the other groups. Livers from the CO-fed group showed higher triglyceride levels than those from the AMF group. No significant differences were found in atherosclerotic lesions in the aortic valve between the groups. Collectively, our results show no deleterious nutritional effects of the fats used on C57BL/6N mice fed cholesterol-rich diets. Chufa oil improved cholesterol metabolism and atherogenic index in mice. However, the major issue is the formation of gallstones in all mice, which is most prominent in AMF, followed by olive oil and chufa oil diets.

Colonization of microbiota derived from Macaca fascicularis, Bama miniature pigs, beagle dogs, and C57BL/6J mice alleviates DSS-induced colitis in germ-free mice.

Fecal microbiota transplantation (FMT) is an innovative and promising treatment for inflammatory bowel disease (IBD), which is related to the capability of FMT to supply functional microorganisms to improve recipient gut health. Numerous studies have highlighted considerable variability in the efficacy of FMT interventions for IBD. Several factors, including the composition of the donor microorganisms, significantly affect the efficacy of FMT in the treatment of IBD. Consequently, identifying the functional microorganisms in the donor is crucial for enhancing the efficacy of FMT. To explore potential common anti-inflammatory bacteria with therapeutic implications for IBD, germ-free (GF) BALB/c mice were pre-colonized with fecal microbiota obtained from diverse donors, including Macaca fascicularis (MCC_FMT), Bama miniature pigs (BP_FMT), beagle dogs (BD_FMT), and C57BL/6 J mice (Mice_FMT). Subsequently, mice were treated with dextran sodium sulfate (DSS). As expected, the symptoms of colitis were alleviated by MCC_FMT, BP_FMT, BD_FMT, and Mice_FMT, as demonstrated by the prevention of an elevated disease activity index in mice. Additionally, the utilization of distinct donors protected the intestinal barrier and contributed to the regulation of cytokine homeostasis. Metagenomic sequencing data showed that the microbial community structure and dominant species were significantly different among the four groups, which may be linked to variations in the anti-inflammatory efficacy observed in the respective groups. Notably, Lactobacillus reuteri and Flavonifractor plautii were consistently present in all four groups. L. reuteri exhibited a significant negative correlation with IL-1β, and animal studies further confirmed its efficacy in alleviating IBD, suggesting the presence of common functional bacteria across different donors that exert anti-inflammatory effects. This study provides essential foundational data for the potential clinical applications of FMT.IMPORTANCEDespite variations in efficacy observed among donors, numerous studies have underscored the potential of fecal microbiota transplantation (FMT) for managing inflammatory bowel disease (IBD), indicating the presence of shared anti-IBD bacterial species. In the present study, the collective anti-inflammatory efficacy observed across all four donor groups prompted the identification of two common bacterial species using metagenomics. A significant negative correlation between Lactobacillus reuteri and IL-1β was revealed. Furthermore, mice gavaged with L. reuteri successfully managed the colitis challenge induced by dextran sodium sulfate (DSS), suggesting that L. reuteri may act as an efficacious bacterium mediating shared anti-inflammatory effects among variable donors. This finding highlights the utilization of variable donors to screen FMT core bacteria, which may be a novel strategy for developing FMT applications.

Toxicity assessment of 3-O-[6-deoxy-3-O-methyl-β-D-allopyranosyl-(1 → 4)-β-D-oleandropyranosyl]-17β–marsdenin isolated from Gongronema latifolium leaf on selected brain and kidney function indices in mice

The safety of bioactive compounds, especially those isolated from medicinal plants, is a major concern for health authorities, pharmaceutical industries, and the public. Of recent, anti-tumor pregnane glycosides were isolated from Gongronema latifolium leaf, of which the toxicity of one, 3-O-[6-deoxy-3-O-methyl-β-D-allopyranosyl-(1 → 4)-β-D-oleandropyranosyl]-17β–marsdenin (3DMAOM), has not been evaluated. This study, therefore, evaluated the effects of 3DMAOM on selected brain and kidney function indices in mice. Female Swiss albino mice were randomly administered 5% dimethyl sulphoxide and different doses of 3DMAOM (0.5, 1, 2, and 4 mg/kg body weight) for fourteen (14) days, and their blood, brains, and kidneys were collected for biochemical analysis. There was no significant alteration in the activities of alkaline phosphatase (ALP), acetylcholinesterase, creatine kinase, Na+/K+-ATPase, Ca2+/Mg2+-ATPase, and Mg2+-ATPase in the brain of the treated groups compared to control. Also, no significant changes in the activities of ALP, gamma-glutamyltransferase, Na+/K+-ATPase, Ca2+/Mg2+-ATPase, and Mg2+-ATPase in the kidney of the treated groups compared to control. The plasma concentrations of Na+, K+, Cl−, PO43−, creatinine, and urea of mice were not significantly altered at all doses of the 3DMAOM compared to controls. However, the plasma concentration of Ca2+ was significantly reduced (p < 0.05) at all doses of the 3DMAOM, and the plasma concentration of uric acid was significantly reduced (p < 0.05) at 2 mg/kg body weight of the 3DMAOM compared to controls. These findings suggest that 3DMAOM isolated from Gongronema latifolium leaf may not adversely affect brain function but may affect calcium ion homeostasis in subjects.

Investigation of Rhizopus oligosporus Metabolites in Fermented Wheat Bran and Its Bio Function in Alleviating Colitis in Mice Model.

Wheat bran (WB) is a low-value by-product of the wheat milling industry. Solid-state fermentation with Rhizopus oligosporus is performed to improve WB's nutritional quality (RH). Twenty-five mice (11-week-old C57BL/6N male mice) were divided into three groups. The first group was fed a control diet (n = 8), the second group a 10% WB-supplemented diet (n = 8), and the last group had a 10% RH-supplemented diet (n = 9). The diet treatment was administered for 4 days before dextran sodium sulfate (DSS, 3% in drinking water) was administered for 9 days. RH supplementation prevented bodyweight loss and reduced the disease activity index in mice. An increase in the level of SCFAs in mouse intestines was detected post-RH supplementation, suggesting that SCFAs might have contributed to its anti-colitis effect. Metabolome analysis was conducted to explore other bioactive compounds in RH. R. oligosporus fermentation significantly increased the amounts of ergothioneine, arginine, branched-chain amino acids, and adenosine in wheat bran. All of these compounds are known to have antioxidant and anti-inflammatory capacities. These bioactive compounds might also have contributed to the RH's ability to ameliorate DSS-induced colitis.

Chronic Treatment with Oxcarbazepine Attenuates Its Anticonvulsant Effect in the Maximal Electroshock Model in Mice.

The objective of this study was to assess the impact of acute and chronic treatment with oxcarbazepine on its anticonvulsant activity, neurological adverse effects, and protective index in mice. Oxcarbazepine was administered in four protocols: once or twice daily for one week (7 × 1 or 7 × 2) and once or twice daily for two weeks (14 × 1 or 14 × 2). A single dose of the drug was employed as a control. The anticonvulsant effect was evaluated in the maximal electroshock test in mice. Motor and long-term memory impairment were assessed using the chimney test and the passive avoidance task, respectively. The concentrations of oxcarbazepine in the brain and plasma were determined via high-performance liquid chromatography. Two weeks of oxcarbazepine treatment resulted in a significant reduction in the anticonvulsant (in the 14 × 1; 14 × 2 protocols) and neurotoxic (in the 14 × 2 schedule) effects of this drug. In contrast, the protective index for oxcarbazepine in the 14 × 2 protocol was found to be lower than that calculated for the control. No significant deficits in memory or motor coordination were observed following repeated administration of oxcarbazepine. The plasma and brain concentrations of this anticonvulsant were found to be significantly higher in the one-week protocols. Chronic treatment with oxcarbazepine may result in the development of tolerance to its anticonvulsant and neurotoxic effects, which appears to be dependent on pharmacodynamic mechanisms.

Cardioprotective role of oleanolic acid in patients with type 2 diabetes mellitus

BackgroundPatients with type 2 diabetes mellitus (T2DM) experience a decline in cardiac function, resulting in poor prognosis. Therefore, restoration of cardiac function and improvement of myocardial fibrosis is an important treatment goal for patients with T2DM. Material and methodsThe chemical structure of oleanolic acid(OA) was downloaded from PubChem and uploaded to PharmMapper. GeneCards and OMIM databases were searched for genes related to OA and disease and plotted into a Venn diagram. Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment analyses were performed using R software. Then, a mouse model of diabetes mellitus was established, and ELISA, echocardiographic analysis of cardiac function, TUNEL assay, and reactive oxygen species assay were performed. ResultsNetwork pharmacology analysis identified the related targets and potential molecular mechanisms underlying the effects of OA in T2DM. ELISA, echocardiographic analysis of cardiac function, and TUNEL assay results showed that OA inhibits apoptosis and improves apoptotic indexes in mice with T2DM-induced myocardial injury. ConclusionThe results demonstrate the myocardial protective effect of OA in this mouse model.

Bruceine A alleviates alcoholic liver disease by inhibiting AIM2 inflammasome activation via activating FXR

BackgroundAlcoholic liver disease (ALD), a public health challenge worldwide caused by long-term persistent drinking, is life-threatening with minimal approved therapies. Hepatic steatosis accompanied by inflammation is an initial and inevitable stage in the complex progression of simple alcoholic liver injury to more severe liver diseases such as hepatitis, liver fibrosis, cirrhosis and liver cancer. PurposeWe aimed to identify the therapeutic role of Bruceine A (BA) in ALD whilst attempting to explore whether its protective effects depend specifically on the farnesoid X receptor (FXR). MethodsAutodock was applied to detect the affinity between BA and FXR. Lieber-DeCarli liquid diet with 5 % ethanol (v/v) was adopted to establish the mouse ALD model. The lentivirus mediating FXR (LV-FXR) was injected into mice via the tail vein to establish FXR-overexpressed mice. FXR silencing or overexpression plasmids were transfected into AML-12 cells prior to ethanol stimulation. Quantitative real-time PCR, Western blotting and immunofluorescence assays were employed to determine the expression of related genes. We subjected liver sections to H&E and Oil Red O staining to evaluate the liver histological injury and the deposition of lipid droplets. ResultsBA significantly reduced body weight and liver-to-body weight ratios as well as biochemical indexes in mice. Ethanol-induced liver damage and lipid accumulation could be alleviated by BA treatment. BA bound to FXR by two hydrogen bonds. There was a positive correlation between BA administration and FXR expression. BA inhibited the expression of lipid synthesis genes and enhanced the expression of lipid metabolism genes by activating FXR, thus alleviating steatosis in ALD. Moreover, BA exerted an ameliorative effect against inflammation by inhibiting the activation of absent in melanoma 2 (AIM2) inflammasome by activating FXR. FXR overexpression possessed the ability to counter the accumulation of lipid and the activation of AIM2 inflammasome caused by ethanol. FXR deficiency exacerbated ethanol-induced liver steatosis and inflammation. The hepatoprotective effect of BA could be disrupted by FXR antagonist guggulsterone (GS) in vivo and FXR siRNA in vitro. ConclusionBA alleviated alcoholic liver disease by inhibiting AIM2 inflammasome activation through an FXR-dependent mechanism. This study may potentially represent a new therapeutic approach for ALD.

The selenoprotein from selenium-rich glutinous rice improves spleen immune protection by inhibiting the NF-κB pathway

Moderate amounts of selenium supplementation have a positive effect on the immune response. Selenium deficiency status can lead to reduced immunity, but the benefits of a natural selenium-rich diet for selenium deficiency are unknown. In this experiment, low selenium feed (0.02 mg Se/kg diet) was given to the mice for 5 weeks and selenium supplementation with selenoprotein (SeP) for 4 weeks, and the selenium-deficient mouse model was successfully established. SeP supplementation had significant protective effects, including increased antioxidant capacity and alleviation of inflammatory damage. SeP markedly elevated the activities of thioredoxin reductase (TrxR) and glutathione peroxidase (GSH-Px) in the serum, kidney, liver, and spleen of selenium-deficient mice. SeP can restore the condition of damaged spleen tissue, raise the spleen index in mice, and encourage an increase in immunoglobulin (IgA, IgG, and IgM) content. The levels of catalase (CAT), total antioxidant capacity (T-AOC), GSH-Px, and cytokines (IL-1β, IL-6, and TNF-α) were all significantly elevated by SeP. SeP showed superior immunomodulatory effects over inorganic selenium (Na2SeO3). Together, these results suggest that SeP may be a potential dietary selenium supplement that can reduce symptoms of spleen damage caused by selenium deficiency.

The Potential Mechanism of the Anti-Liver Fibrotic Effect of Curcumin in the Gut-Liver Axis.

This study aimed to explore the curative effect of curcumin on liver fibrosis and its correlation with the gut-liver axis in animal models. Histological staining was utilized to conduct histological analysis of the liver and intestine. An automatic biochemical analyzer or enzyme-linked immunosorbent assay system was utilized for analyzing the biochemical indexes in mice. Western blotting was employed to examine the level of relevant proteins. Furthermore, 16S rRNA high-throughput sequencing was performed to explore the impact of curcumin on intestinal microorganisms in rats with liver fibrosis. Ultrahigh-performance liquid chromatography with quadrupole-orbitrap mass spectrometry was utilized to analyze the effect of curcumin on rat feces metabolites. Our results showed that curcumin reduced the formation of collagen fibers caused by carbon tetrachloride in a dose-dependent manner. In addition, curcumin was able to restore intestinal permeability in rats with liver fibrosis. By adopting α diversity analysis (Chao 1 index, Shannon index, and Simpson index), we observed that both the diversity and the abundance of intestinal flora in rats with liver fibrosis were increased. The principal component analysis diagram demonstrated that curcumin could enhance the abundance and diversity of intestinal flora, and also restore the composition of model rat flora, which was similar to that in normal rats, thereby correcting the imbalance of flora in rats with liver fibrosis. In addition, curcumin regulated feces metabolites and their signaling pathways, including glycerophospholipid metabolism, pantothenate and CoA biosynthesis. Our findings suggest that curcumin exhibits antiliver fibrosis effects, and its antiliver fibrosis effects might correlate with gut-liver axis.

Abstract LB041: Exploiting a multi-center pre-clinical mouse PDX mini trial to identify new clinical opportunities for protein-drug conjugates (PDCs) targeting ROR1

Abstract The oncofetal cell surface receptor tyrosine kinase ROR1, is expressed on a broad range of solid tumors and hematological malignancies but is largely absent from normal adult tissue. Increased ROR1 expression correlates with poor clinical outcome in certain cancer indications, consistent with its functional role in tumorigenesis, increased metastatic potential and drug resistance. The oncofetal expression pattern of ROR1, coupled with its role in cancer pathology and therapy resistance, and its scaffolding function in caveolae, makes it a highly attractive target for a protein-drug conjugate (PDC) approach. A number of ROR1-targeting ADC and PDC agents are in clinical and pre-clinical development. Understanding the molecular determinants that drive the efficacy of these agents, may open-up patient selection strategies to improve clinical outcomes for ROR1-targeted ADC/PDC therapy. We utilized a small-domain protein-drug-conjugate platform to develop a PDC Candidate Drug (ADP-c389) which produced complete and sustained tumor regressions in patient-derived xenograft (PDX) models of triple negative breast cancer (TNBC) and had an excellent therapeutic index in mice and NHPs. To further inform our clinical planning and assess the broader clinical opportunity afforded by this agent, ADP-c389 was evaluated in a multi-center, multi-indication, 30-PDX mouse mini trial covering 5 different solid tumor indications (lung, ovarian, endometrial, esophageal, gastric). Covariates of target expression, site, model, mouse strain and treatment effect were analysed longitudinally and a multi-metric (TGI, AUC, Best Average Response (BAR), mRECIST) effects analysis undertaken to evaluate response. Efficacy was observed in each of the cancer indications tested, with 77% of models showing an anti-tumor response. Furthermore, the results in NSCLC lung and ovarian PDX models indicated that these are compelling additional cancer types in which to position ADP-c389 clinically. Whilst all responders are ROR1 positive, ROR1 expression itself is necessary but not sufficient to predict the degree of response. Linear Mixed Effect Model (LMM) and multi-omics (RNA-Seq and Proteomics) analysis of the resulting responder/non-responder cohorts has enabled us to determine markers of sensitivity to ADP-c389. In summary, ADP-c389 represents a highly differentiated product for the treatment of a variety of solid tumors. The learnings from this mouse mini trial are also being applied to bi-specific ROR1-based PDCs. Citation Format: Aaron N. Cranston, Mark Wappett, Estelle G. McLean, Chiara Saladino, Aidan McCann, Wei-Wei Kung, Jennifer Thom, Paul Trumper, Andy Porter, Caroline Barelle, Tim Harrison, Graham Cotton. Exploiting a multi-center pre-clinical mouse PDX mini trial to identify new clinical opportunities for protein-drug conjugates (PDCs) targeting ROR1 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(7_Suppl):Abstract nr LB041.

Extract of Silphium perfoliatum L. improve lipid accumulation in NAFLD mice by regulating AMPK/FXR signaling pathway

Ethnopharmacological relevanceGlobally, the incidence rate and number of patients with nonalcoholic fatty liver disease are increasing, which has become one of the greatest threats to human health. However, there is still no effective therapy and medicine so far. Silphium perfoliatum L. is a perennial herb native to North America, which is used to improve physical fitness and treat liver and spleen related diseases in the traditional medicinal herbs of Indian tribes. This herb is rich in chlorogenic acids, which have the functions of reducing blood lipids, losing weight and protecting liver. However, the effect of these compounds on nonalcoholic fatty liver disease remains unclear. Aim of the studyClarify the therapeutic effects and mechanism of the extract (CY-10) rich in chlorogenic acid and its analogues from Silphium perfoliatum L. on non-alcoholic fatty liver disease, and to determine the active compounds. Materials and methodsA free fatty acid-induced steatosis model of HepG2 cells was established to evaluate the in vitro activity of CY-10 in promoting lipid metabolism. Further, a high-fat diet-induced NAFLD model in C57BL/6 mice was established to detect the effects of CY-10 on various physiological and biochemical indexes in mice, and to elucidate the in vivo effects of the extract on regulating lipid metabolism, anti-inflammation and hepatoprotection, and nontarget lipid metabolomics was performed to analyze differential metabolites of fatty acids in the liver. Subsequently, western blotting and immunohistochemistry were used to analyze the target of the extract and elucidate its mechanism of action. Finally, the active compounds in CY-10 were elucidated through in vitro activity screening. ResultsThe results indicated that CY-10 significantly attenuated lipid droplet deposition in HepG2 cells. The results of in vivo experiments showed that CY-10 significantly reduce HFD-induced mouse body weight and organ index, improve biochemical indexes, oxidation levels and inflammatory responses in the liver and serum, thereby protecting the liver tissue. It can promote the metabolism of unsaturated fatty acids in the liver and reduce the generation of saturated fatty acids. Furthermore, it is clarified that CY-10 can promote lipid metabolism balance by regulating AMPK/FXR/SREPB-1c/PPAR-γ signal pathway. Ultimately, the main active compound was proved to be cryptochlorogenic acid, which has a strong promoting effect on the metabolism of fatty acids in cells. Impressively, the activities of CY-10 and cryptochlorogenic acid were stronger than simvastatin in vitro and in vivo. ConclusionFor the first time, it is clarified that the extract rich in chlorogenic acids and its analogues in Silphium perfoliatum L. have good therapeutic effects on non-alcoholic fatty liver disease. It is confirmed that cryptochlorogenic acid is the main active compound and has good potential for medicine.

Huang Qin decoction increases SLC6A4 expression and blocks the NFκB-mediated NLRP3/Caspase1/GSDMD pathway to disrupt colitis-associated carcinogenesis

Huang Qin decoction (HQD) is a traditional Chinese medicine formula for treating colitis, but the effects and molecular mechanism of action of HQD in colitis-associated carcinogenesis (CAC) are still unclear. Therefore, we aimed to determine the beneficial effects of HQD on CAC in mice and to reveal the underlying mechanism involved. AOM/DSS was used to induce CAC in mice, and the effects of HQD on tumorigenesis in mice were examined (with mesalazine serving as a positive control). Mesalazine or HQD treatment alleviated body weight loss and decreased the disease activity index in mice induced by AOM/DSS. Mesalazine or HQD treatment also suppressed the shortening of colon tissue length, the number of tumors, and the infiltration of inflammatory cells. The genes targeted by HQD were predicted and verified, followed by knockout experiments. Elevated SLC6A4 and inhibited serotonin production and inflammation were observed in HQD-treated mice. HQD inhibited the NFκB and NLRP3/caspase1/GSDMD pathways. The therapeutic effect of HQD was diminished in SLC6A4-deficient AOM/DSS mice. Additionally, the downregulation of SLC6A4 mitigated the inhibitory effect of HQD-containing serum on MODE-K cell pyroptosis. Our findings suggest that SLC6A4 is a pivotal regulator of HQD-alleviated CAC via its modulation of the NLRP3/caspase1/GSDMD pathway.

Evaluation of Andrographis paniculata-supplemented Diet on the reproductive indices of Plasmodium berghei-infected mice

Ethnopharmacological relevanceThe King of Bitters (Andrographis paniculata) is a plant used to cure a wide range of infectious diseases which includes malaria, fever and others. However, there is a paucity of scientific evidence of its effect on male reproductive indices during malaria treatment. Aim of the studyThe aim of this study is to evaluate the effect of supplemented diet on antiplasmodial, hematological and male reproductive indices in mice infected with Plasmodium berghei. Materials and methodsAqueous extract of A. paniculata (King of Bitters, KGB) was prepared and the total phenol and flavonoid contents were determined. Forty-two mice, weighing 20–25 g, were distributed into 7 groups consisting of 6 mice each. The mice were innoculated with strain NK65 Plasmodium berghei (Chloroquine, CQ sensitive) and the parasitemia suppression was assessed. The mice were fed with the dietary supplementation of KGB at varying inclusions (2.5%, 5%, 7.5%, and 10%) and administered 10 mg/kg CQ (which served as the positive control) for 5 consecutive days after infection was established. The reactive malondialdeahyde (MDA), antioxidant [superoxide dismutase (SOD), catalase (CAT), reduced glutathione (GSH)] and the hematological (hemoglobin, packed cell volume and red blood cell) parameters in the infected mice were determined. The reproductive indices (serum testosterone, luteinizing hormone (LH), follicle-stimulating hormone (FSH), sperm count, sperm motility, and sperm viability) and testis histopathology were also assessed. ResultThe result revealed that KGB had a total phenol content of 32.55 mgGAE/g and total flavonoid content of 19.71 mgQUE/g. The infected mice treated with the dietary supplementation of KGB showed significantly decreased (p < 0.05) parasitaemia and MDA levels. Furthermore, the 7.5% dietary inclusion showed significant improvement in the antioxidant, hematological and reproductive indices as well as the restoration of testis morphology as seen in the histopathology plate of the infected mice treated with KGB. Hence, this study suggests that the KGB- supplemented diet (7.5%) may be a potential alternative and complementary therapy in the treatment of malaria infection and reproductive disorders.

Single and Combined Aluminium and Cadmium Exposure during Pregnancy Mediate Changes in Cardio Metabolic Indices in Mice

The potential risk of Aluminium and Cadmium co-exposure is high owing to evidence of their co-contamination of several food products. Therefore, the present study investigated effect of single and combined exposures of aluminium and cadmium during pregnancy on cardio metabolic changes in mice. Following delivery and at the end of 78 days postnatal development, it was observed that exposure to Al and Cd during pregnancy altered indices of cardiac function via pathways related to angiotensin, cardiac troponin and oxidative stress signalling which may have impacted directly on the histoarchitectural features of the heart. Comparatively, prenatal exposure to Cd alone impacted more negatively to the heart in relation to exposure to either Al only or co-exposure to Al and Cd.

Melatonin alleviates oxidative stress damage in mouse testes induced by bisphenol A.

We investigated the effect of melatonin on bisphenol A (BPA)-induced oxidative stress damage in testicular tissue and Leydig cells. Mice were gavaged with 50mg/kg BPA for 30days, and concurrently, were injected with melatonin (10mg/kg and 20mg/kg). Leydig cells were treated with 10μmol/L of BPA and melatonin. The morphology and organ index of the testis and epididymis were observed and calculated. The sperm viability and density were determined. The expressions of melatonin receptor 1A and luteinizing hormone receptor, and the levels of malonaldehyde, antioxidant enzymes, glutathione, steroid hormone synthases, aromatase, luteinizing hormone, testosterone, and estradiol were measured. TUNEL assay was utilized to detect testicular cell apoptosis. The administration of melatonin at 20mg/kg significantly improved the testicular index and epididymis index in mice treated with BPA. Additionally, melatonin promoted the development of seminiferous tubules in the testes. Furthermore, the treatment with 20mg/kg melatonin significantly increased sperm viability and sperm density in mice, while also promoting the expressions of melatonin receptor 1A and luteinizing hormone receptor in Leydig cells of BPA-treated mice. Significantly, melatonin reduced the level of malonaldehyde in testicular tissue and increased the expression of antioxidant enzymes (superoxide dismutase 1, superoxide dismutase 2, and catalase) as well as the content of glutathione. Moreover, melatonin also reduced the number of apoptotic Leydig cells and spermatogonia, aromatase expression, and estradiol level, while increasing the expression of steroid hormone synthases (steroidogenic acute regulatory protein, cytochrome P450 family 17a1, cytochrome P450 17α-hydroxylase/20-lyase, and, 17β-hydroxysteroid dehydrogenase) and the level of testosterone. Melatonin exhibited significant potential in alleviating testicular oxidative stress damage caused by BPA. These beneficial effects may be attributed to melatonin's ability to enhance the antioxidant capacity of testicular tissue, promote testosterone synthesis, and reduce testicular cell apoptosis.

Gelatin-based dynamic response antioxidant, anti-inflammatory multifunctional hydrogel for enhanced diabetic wound repair

Diabetic wound therapy presents significant challenges in the clinical environment, where persistent bleeding, disturbed inflammatory regulation, impaired cellular proliferation, and impaired tissue remodeling are major features of diabetic wound healing. However, current treatment strategies need to be considered in the context of the dynamic and complex needs of chronic wound healing. Here, multifunctional dynamic boronic acid cross-linked hydrogels were prepared by the reaction of gelatin (Gel) inoculated with 5-carboxy 3-nitrophenylboronic acid (NPBA) and Epigallocatechin gallate (EGCG) to achieve rapid gelation at pH = 7.4, EGCG could interact electrostatically with cationic antimicrobial peptides (AMP) to achieve the effective loading of AMP in the hydrogels. This hydrogel can be injected and adhered to skin defects in diabetic patients to provide a barrier and rapid hemostasis. In a high glucose microenvironment, the rapid release of AMP effectively kills bacteria, while the responsive release of EGCG eliminates reactive oxygen species (ROS) and promotes macrophage M2 polarization. In addition, the hydrogel had excellent biocompatibility and degradability properties, degraded completely after 3 days of subcutaneous injection, and was non-toxic in H&E staining of major organs and serum liver function indices in mice. This multifunctional injectable hydrogel accelerates diabetic skin wound repair and is a promising dressing for the precise treatment of diabetic wounds.

Exogenous Nucleotides Ameliorate Age-Related Decline in Testosterone in Male Senescence-Accelerated Mouse Prone-8 (SAMP8) Mice by Modulating the Local Renin-Angiotensin System Antioxidant Pathway.

In older men, an age-related decline in testosterone is closely associated with various adverse health outcomes. With the progression of aging, hyperactivation of the local renin-angiotensin system (RAS) and oxidative stress increase in the testis. The regulation of RAS antioxidants may be a target to delay testicular aging and maintain testosterone levels. Exogenous nucleotides (NTs) have anti-aging potential in several systems, but there are no studies of their effects on the reproductive system. In our study, we examined the effects of exogenous NTs on testosterone synthesis and explored possible mechanisms of action. Therefore, senescence-accelerated mouse prone-8 (SAMP8) mice and senescence-accelerated mouse resistant 1 (SAMR1) were used in the experiment, and they were randomly divided into an NTs free group (NTs-F), a normal control group (control), a low-dose NTs group (NTs-L), a middle-dose NTs (NTs-M), a high-dose NTs group (NTs-H) and SAMR1 groups, and the testis of the mice were collected for testing after 9 months of intervention. The results showed that exogenous NTs could increase the testicular organ index in mice during aging, and delayed the age-associated decline in testosterone levels in SAMP8 male mice, possibly by modulating the local RAS antioxidant pathway and reducing oxidative stress to protect the testis. The present study provides new research clues for the development of preventive and therapeutic strategies for related diseases.

Cordycepin inhibits kidney injury by regulating GSK-3β-mediated Nrf2 activation.

We explored the role and mechanism of cordycepin (COR) in inhibiting kidney injury. A mouse model of kidney injury was established using cisplatin (CDDP), and the kidney function, histopathology, and ferroptosis indices in mice were detected after intervening with COR. The targets of COR-ferroptosis-kidney injury were analyzed by network pharmacology, based on which the association between glycogen synthase kinase-3 beta (GSK-3β) and COR was determined. HK-2 cells were cultured in vitro and treated separately with ferroptosis inducers erastin and CDDP. After the COR intervention, the level of ferroptosis was monitored. In vitro experiments found that COR could inhibit ferroptosis and CDDP-induced kidney injury. Network pharmacological analysis revealed that GSK-3β was the target of COR. After inhibiting GSK-3β expression, COR could not further inhibit the occurrence of ferroptosis. In vitro results also indicated that COR could inhibit ferroptosis in HK-2 cells. According to our findings, COR can ameliorate CDDP-induced kidney injury through GSK-3β-mediated ferroptosis signaling. We identify new pharmacological effect and target for COR, the major component of Cordyceps sinensis.