Your search keyword '"dextran sulfate"' showing total 7,541 results

1. Dextran sulfate inhibits proliferation and metastasis of human gastric cancer cells via miR-34c-5p

Author

Zhao, Yuan, Ma, Qian, Gao, Wenwei, Li, Zhaojun, Yu, Guangfu, Li, Bing, Xu, Yuanyi, and Huang, Yunning

Published

2024

2. Dermal injury drives a skin to gut axis that disrupts the intestinal microbiome and intestinal immune homeostasis in mice.

Author

Dokoshi, Tatsuya, Chen, Yang, Cavagnero, Kellen, Rahman, Gibraan, Hakim, Daniel, Brinton, Samantha, Schwarz, Hana, Brown, Elizabeth, ONeill, Alan, Nakamura, Yoshiyuki, Li, Fengwu, Salzman, Nita, Knight, Rob, and Gallo, Richard

Subjects

Mice, Animals, Gastrointestinal Microbiome, Hyaluronic Acid, Colitis, Intestinal Mucosa, Fecal Microbiota Transplantation, Dextran Sulfate, Mice, Inbred C57BL, Disease Models, Animal, Colon

Abstract

The composition of the microbial community in the intestine may influence the functions of distant organs such as the brain, lung, and skin. These microbes can promote disease or have beneficial functions, leading to the hypothesis that microbes in the gut explain the co-occurrence of intestinal and skin diseases. Here, we show that the reverse can occur, and that skin directly alters the gut microbiome. Disruption of the dermis by skin wounding or the digestion of dermal hyaluronan results in increased expression in the colon of the host defense genes Reg3 and Muc2, and skin wounding changes the composition and behavior of intestinal bacteria. Enhanced expression Reg3 and Muc2 is induced in vitro by exposure to hyaluronan released by these skin interventions. The change in the colon microbiome after skin wounding is functionally important as these bacteria penetrate the intestinal epithelium and enhance colitis from dextran sodium sulfate (DSS) as seen by the ability to rescue skin associated DSS colitis with oral antibiotics, in germ-free mice, and fecal microbiome transplantation to unwounded mice from mice with skin wounds. These observations provide direct evidence of a skin-gut axis by demonstrating that damage to the skin disrupts homeostasis in intestinal host defense and alters the gut microbiome.

Published

2024

3. Glycosidic linkages of fungus polysaccharides influence the anti-inflammatory activity in mice.

Author

Yuan, Qin, Liu, Wen, Hao, Wei, Chen, Yi, Xiao, Yaqin, Li, Hongyi, Shui, Mingju, Wu, Ding-Tao, and Wang, Shengpeng

Subjects

*ULCERATIVE colitis, *DEXTRAN sulfate, *GUT microbiome, *ANTI-inflammatory agents, *SODIUM sulfate

Abstract

[Display omitted] • Two fungus polysaccharides from Dictyophora indusiata (DIP) and Tremella fuciformis (TFP) with distinct glycosidic linkages were extracted and purified. • DIP and TFP ameliorated colitis in mice in a microbiota-dependent manner. • DIP, composed of l,3-β-D-glucan, and β-1,4- and β-1,6-linked glucan as branched chains, exerted better anti-inflammatory activity compared to the TFP. • Glycosidic linkages play a pivotal role in the anti-inflammatory activities of fungus polysaccharides. Over decades, the source-function relationships of bioactive polysaccharides have been progressively investigated, however, it is still unclear how a defined structure may conduce to the bioactivities of polysaccharides. To explore the structure–function relationship of fungus polysaccharides, we employed a dextran sulfate sodium (DSS)‐induced colitis mouse model to compare the anti-inflammatory activity of two fungus polysaccharides from Dictyophora indusiata (DIP) and Tremella fuciformis (TFP), which exhibit distinct glycosidic linkages. The structures of DIP and TFP were characterized through molecular weight detection, molecular morphology analysis, methylation analysis, and NMR analysis. Subsequently, we employed a DSS-induced colitis model to assess the anti-inflammatory efficacy of DIP and TFP. The colitis symptoms, histological morphology, intestinal inflammatory cytokines, and the composition and function of gut microbiota before and after polysaccharides treatment in colitis mice were also investigated. DIP, l,3-β-D-glucan with 1,4-β and 1,6-β-D-Glcp as branched chains, exhibited superior therapeutic effect than that of TFP consisted of a linear 1,3-α-D-mannose backbone with D-xylose and L-fucose in the side chains. Both DIP and TFP relieved DSS-induced colitis in a gut microbiota-dependent manner. Furthermore, metagenomics showed that DIP and TFP could partially reverse the bacterial function in colitis mice. Glycoside Hydrolase 1 (GH1) and GH3 were identified as being involved in hydrolyzing the glucose linkages in DIP, while GH92 and GH29 were predicted to be active in cleaving the α-1,3-linked mannose linkages and the glycosidic bonds of L-fucose residues in TFP. Our findings highlight the pivotal role of glycosidic linkages in anti-inflammatory activities of fungus polysaccharides and would promote the design and discovery of polysaccharides with designated activity to be used as functional foods and/or therapeutics. [ABSTRACT FROM AUTHOR]

Published

2025

4. Sinomenine hydrochloride improves DSS-induced colitis in mice through inhibition of the Notch signaling pathway.

Author

Xu, Linxia, Liu, Wei, Huang, Xixiang, Sun, Tong, Mei, Letian, Liu, Man, Ren, Zhi, Wang, Meng, Zheng, Hailun, Wang, Qiangwu, Li, Dapeng, Wang, Qizhi, and Ke, Xiquan

Subjects

*NOTCH signaling pathway, *ULCERATIVE colitis, *NOTCH proteins, *SODIUM sulfate, *DEXTRAN sulfate

Abstract

Objective: To study the therapeutic effect of sinomenine hydrochloride (SH) on dextran sodium sulfate (DSS)-induced colitis in mice as an animal model and the changes of Notch signaling pathway in colon tissue of mice after treatment. Methods: Twenty-four mice were randomly divided into control group, model group, SH low-dose group (20 mg/kg) and SH high-dose group (60 mg/kg), with 6 mice in each group. Disease activity index (DAI), colonic mucosal injury index and colonic histopathological score were calculated. The expression levels of related genes, proteins in Notch signaling pathway and inflammatory factors were quantified. Results: SH can significantly reduce the symptoms of colitis mice, and can significantly reduce the DAI score (Model: 3.44 ± 0.27; SH-20: 2.50 ± 0.18; SH-60: 1.89 ± 0.17; P < 0.001) and histopathological injury degree (Model: 7.67 ± 0.52; SH-20: 5.17 ± 0.75, P < 0.01; SH-60: 3.33 ± 0.52, P < 0.001). SH can down-regulate the expression levels of Notch1, NICD1, Jagged1 and Hes1 proteins in colon tissue of colitis mice (Model: 1.92 ± 0.16, 1.83 ± 0.21, 2.23 ± 0.22, 1.91 ± 0.17; SH-20: 1.56 ± 0.12, 1.39 ± 0.13, 1.58 ± 0.12, 1.38 ± 0.11; SH-60: 1.24 ± 0.09, 1.23 ± 0.10, 1.23 ± 0.11, 1.22 ± 0.09; P < 0.01), and reduce the contents of serum pro-inflammatory cytokines TNF-α, IL-1β and IL-6 (Model: 718.53 ± 81.81, 51.62 ± 2.80, 444.07 ± 67.77; SH-20: 544.72 ± 90.03, 34.10 ± 2.90, 345.43 ± 43.40; SH-60: 434.11 ± 71.75, 29.44 ± 3.70, 236.11 ± 29.35; P < 0.001). Conclusion: The therapeutic effect of SH on DSS-induced colitis in mice may be related to inhibiting the overactivation of Notch signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2024

5. Quercetin alleviates ulcerative colitis through inhibiting CXCL8-CXCR1/2 axis: a network and transcriptome analysis.

Author

Jiang, Zhangyu, Yan, Mingjuan, Qin, Yanmi, Liu, Zhenglin, Duan, Yilin, Wang, Yingju, Zhang, Ruisen, Lin, Wenjia, Li, Yanwu, Xie, Tian, and Ke, Junyu

Subjects

ULCERATIVE colitis, CHINESE medicine, INFLAMMATORY mediators, TREATMENT effectiveness, DEXTRAN sulfate, OCCLUDINS

Abstract

Introduction: Ulcerative colitis (UC) is a chronic inflammatory condition of the intestinal tract in which mucosal healing is a crucial measure of therapeutic efficacy. Quercetin, a flavonoid prevalent in various foods and traditional Chinese medicines, exhibits notable pharmacological properties, including antioxidant and anti-inflammatory activities. Consequently, it warrants investigation to determine its potential therapeutic effects on UC. The objective of this study was to investigate the effects and underlying mechanisms of quercetin in a murine model of UC. Methods: A comprehensive approach integrating network predictions with transcriptomic analyses was employed to identify the potential targets and enriched pathways associated with quercetin in UC. Subsequently, the effects of quercetin on pathological morphology, inflammatory mediators, and mucosal barrier-associated proteins, as well as the identified potential targets and enriched pathways, were systematically investigated in a murine model of dextran sulfate sodium (DSS)-induced UC. Results: Network analyses identified CXCL8 and its receptors, CXCR1 and CXCR2, as primary target genes for therapeutic intervention in UC. Further validation through transcriptomic analysis and immunofluorescence staining demonstrated significant upregulation of the CXCL8-CXCR1/2 axis in the intestinal tissues of patients with UC. Experimental investigations in animal models have shown that quercetin markedly alleviates DSS-induced symptoms in mice. This effect includes the restoration of colonic crypt architecture, normalization of goblet cell structure and density, reduction of inflammatory cell infiltration, and decreased concentrations of inflammatory mediators. Quercetin enhanced the expression of tight junction (TJ) proteins, including ZO-1, MUC2 (Mucin 2), and occludin, thereby preserving the integrity of the intestinal mucosal barrier. Additionally, it significantly diminished the levels of IL-17A, NF-κB, CXCL8, CXCR1, and CXCR2 in the colonic tissues of mice with UC. Discussion: The ameliorative effects of quercetin on colon tissue damage in DSS-induced UC mice were significant, possibly due to its ability to inhibit the CXCL8-CXCR1/2 signaling axis. These findings provide a solid foundation for the clinical application and pharmaceutical advancement of quercetin. [ABSTRACT FROM AUTHOR]

Published

2024

6. Toll-like receptor 3 signaling attenuated colitis-associated cancer development in mice.

Author

Chung, Kee Young, Kim, Seulji, Yoon, Hee Tae, Kwon, So Hyun, Park, Hyun Sun, Im, Jong Pil, Kim, Joo Sung, Kim, Ji Won, Han, Yoo Min, and Koh, Seong-Joon

Subjects

*INFLAMMATORY bowel diseases, *DEXTRAN sulfate, *DISEASE risk factors, *SODIUM sulfate, *CARCINOGENESIS

Abstract

Inflammatory bowel disease is associated with a high risk of colitis-associated cancer (CAC). We evaluated the role of TLR3 in CAC using a murine model. Wild-type (WT) and TLR3-knockout (TLR3−/−) mice received azoxymethane (AOM) 12.5 mg/kg intraperitoneally on day zero, followed by three cycles of 2% dextran sulfate sodium (DSS) for five days and free water for two weeks. We evaluated clinical indices, such as weight change, colon length, histological severity of colitis, and tumor number. We performed immunofluorescence assays for phospho-IκB kinase and β-catenin in colon tissues. To elucidate the antitumorigenic mechanism of TLR3 signaling, we injected poly(I: C) or phosphate-buffered saline intraperitoneally into an AOM/DSS-induced tumorigenesis model in WT mice. We also evaluate the direct antitumor effect of TLR signaling in AOM-treated WT and TLR3−/− mice without DSS. TLR3 deficiency increased tumor burden and colitis severity in the colon tissue than in the WT mice. β-catenin immunoreactivity was higher in TLR3−/− mice, while phospho-IκB kinase expression was similar. TLR3 activation by poly(I: C) did not reduce tumor burden in WT mice, but long-term AOM administration without DSS significantly increased tumor burden in TLR3−/− mice. TLR3 signaling attenuates CAC development, suggesting it may be a target for preventing CAC in inflammatory bowel disease. [ABSTRACT FROM AUTHOR]

Published

2024

7. Berberine ameliorates dextran sulfate sodium -induced colitis through tuft cells and bitter taste signalling.

Author

Yang, Yuxuan, Li, Wenqing, Sun, Kaineng, Sun, Siyu, Zhang, Yong, Chen, Lin, Ni, Yangyue, Hou, Min, Xu, Zhipeng, Chen, Lu, and Ji, Minjun

Subjects

*INFLAMMATORY bowel diseases, *BITTERNESS (Taste), *TH2 cells, *TASTE receptors, *DEXTRAN sulfate

Abstract

Background: Inflammatory bowel disease (IBD), a persistent gastrointestinal disease, is featured with impaired gut immunity. Previous studies have demonstrated that tuft cells can regulate the intestinal type 2 immune response by activating downstream ILC2 and Th2 cells and repair gut barrier upon invasion of parasitic helminths, bacteria, protozoans, and enteritis through different chemo-sensing receptors, such as bitter taste receptors. Berberine is a widely used in the treatment of diarrhea in clinic, however the mechanism underlying this effect is not clear. In this study, we aim to explore the relationship between berberine and tuft cells in dextran sulfate sodium (DSS) -induced colitis. Results: Our data showed that berberine significantly ameliorated DSS-induced colitis and regulating type 2 innate immune lymphocytes (ILC2) and Th2 immune cells via tuft cells in the gut. Furthermore, the effect of berberine on colitis was partially abolished by U73122, a bitter taste receptor inhibitor, suggesting that bitter taste signalling pathway played an important role in the effect of berberine on relieving colitis. Conclusions: Berberine ameliorates dextran sulfate sodium -induced colitis through tuft cells and bitter taste signalling. Our study reveals the unique pharmacological mechanisms of berberine in the context of colitis, laying the foundation for further clinical applications of this compound. [ABSTRACT FROM AUTHOR]

Published

2024

8. Behavioral Test Scores Could Be Linked to the Protein Expression Values of p62 and GLAST in the Brains of Mice with Neuropsychiatric Disorder-Related Behaviors.

Author

Ikeda, Yuka, Nakashima, Moeka, Yoshikawa, Sayuri, Taniguchi, Kurumi, Suga, Naoko, and Matsuda, Satoru

Subjects

*MATERNAL immune activation, *NEUROBEHAVIORAL disorders, *DEXTRAN sulfate, *SODIUM sulfate, *GLUTAMATE transporters, *BUTYRATES, *BUTYRIC acid

Abstract

Simple Summary: This study addresses the logical deliberation regarding the pathogenesis, behavioral appearances, biochemical characteristics, and reversibility of symptoms of psychiatric disorders through a dietary intervention. A mouse model of neuropsychiatric disorder was originally created with poly I:C, sodium dextran sulfate (DSS), κ-carrageenan (CGN), and Di-(2-ethylhexyl) phthalate (DEHP) usage, in which a noteworthy connection was made between alterations in p62/GLAST protein expression in mouse brains and variations in experimental behavioral test scores. In addition, a potential therapeutic study by means of dietary intervention was performed using low doses of butyrate, trehalose, and piceid. Subsequently, it was shown that these orally available molecules could effectively improve psychiatric behavior as well as the biochemical alterations in p62/GLAST in mouse brains. Neuropsychiatric disorders are a public health concern, in which diagnosis and prognosis may be based on clinical symptoms that might often diverge across individuals. Schizophrenia is a major neuropsychiatric disorder, which may affect millions worldwide. However, the biochemical alterations of this disorder have not been comprehensively distinguished. In addition, there is less confidence in finding specific biomarkers for neuropsychiatric disorders, including schizophrenia, but rather a specific characteristic behavioral pattern. In general, maternal immune activation is considered to be one of the important factors in the development of neuropsychiatric disorders. Here, a mouse model of neuropsychiatric disorders was created, in which poly I:C, sodium dextran sulfate (DSS), and κ-carrageenan (CGN) were utilized for maternal immune activation during the pregnancies of mother mice. Subsequently, we examined the link between biochemical changes in p62 and/or glutamate aspartate transporter (GLAST) in the brains of offspring mice and the alteration in their experimental behavior scores. Furthermore, a therapeutic study was conducted on these neuropsychiatric disorder model mice using butyric acid, piceid, and metformin. It was found that some molecules could effectively improve the behavioral scores of neuropsychiatric model mice. Importantly, significant correlations between certain behavioral scores and p62 protein expression, as well as between the scores and GLAST expression, were recognized. This is the first report of a significant correlation between pathological behaviors and biochemical alterations in neuropsychiatric disorder model animals. This concept could contribute to the development of innovative treatments to at least ameliorate the symptoms of several psychiatric disorders. [ABSTRACT FROM AUTHOR]

Published

2024

9. Targeted no-releasing L-arginine-induced hesperetin self-assembled nanoparticles for ulcerative colitis intervention.

Author

Chi, Xuesong, Chen, Tao, Luo, Fengxian, Zhao, Runan, Li, Yangjing, Hu, Shumeng, Li, Yanfei, Jiang, Wen, Chen, LiHang, Wu, Di, Du, Yinan, and Hu, Jiangning

Subjects

ULCERATIVE colitis, MANNICH reaction, REACTIVE oxygen species, DEXTRAN sulfate, SODIUM sulfate

Abstract

Overproduction of reactive oxygen species (ROS) plays a crucial role in initiating and advancing ulcerative colitis (UC), and the persistent cycle between ROS and inflammation accelerates disease development. Therefore, developing strategies that can effectively scavenge ROS and provide targeted intervention are crucial for the management of UC. In this study, we synthesized natural carrier-free nanoparticles (HST-Arg NPs) using the Mannich reaction and π-π stacking for the intervention of UC. HST-Arg NPs are an oral formulation that exhibit good antioxidant capabilities and gastrointestinal stability. Benefiting from the negatively charged characteristics, HST-Arg NPs can specifically accumulate in positively charged inflamed regions of the colon. Furthermore, in the oxidative microenvironment of colonic inflammation, HST-Arg NPs respond to ROS by releasing nitric oxide (NO). In mice model of UC induced by dextran sulfate sodium (DSS), HST-Arg NPs significantly mitigated colonic injury by modulating oxidative stress, lowering pro-inflammatory cytokines, and repairing intestinal barrier integrity. In summary, this convenient and targeted oral nanoparticle can effectively scavenge ROS at the site of inflammation and achieve gas intervention, offering robust theoretical support for the development of subsequent oral formulations in related inflammatory interventions. Nanotechnology has been extensively explored in the biomedical field, but the application of natural carrier-free nanotechnology in this area remains relatively rare. In this study, we developed a natural nanoparticle system based on hesperetin (HST), L-arginine (L-Arg), and vanillin (VA) to scavenge ROS and alleviate inflammation. In the context of ulcerative colitis (UC), the synthesized nanoparticles exhibited excellent intervention effects, effectively protecting the colon from damage. Consequently, these nanoparticles provide a promising and precise nutritional intervention strategy by addressing both oxidative stress and inflammatory pathways simultaneously, demonstrating significant potential for application. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

10. Nicotinamide mononucleotide protects STAT1 from oxidative stress‐induced degradation to prevent colorectal tumorigenesis.

Author

Li, Ting, Luo, Chengting, Liu, Zongyuan, Li, Jinyu, Han, Meng, Zhang, Ran, Chen, Yuling, and Deng, Haiteng

Subjects

REACTIVE oxygen species, STAT proteins, SULFONIC acids, COLON tumors, DEXTRAN sulfate

Abstract

Colitis, accompanied by the accumulation of reactive oxygen species (ROS) in the intestinal tract, is a risk factor for colorectal cancer (CRC). Our previous studies indicate that nicotinamide mononucleotide (NMN) replenishment reduces chronic inflammation. In this study, we confirm that NMN supplementation reduces inflammatory cytokine levels and oxidative tissue damage in an azoxymethane/dextran sulfate sodium (AOM/DSS)‐induced colitis‐associated cancer (CAC) model. Mice treated with NMN developed fewer colon tumors than untreated animals under the same AOM/DSS treatment conditions. Quantitative proteomic analysis revealed a decrease in signal transducer and activator of transcription 1 (STAT1) expression in the CAC model. We demonstrate that STAT1 overexpression induces G1 arrest by downregulating CDK6 expression and suppressing tumor cell proliferation and migration. Of note, H2O2 induced trioxidation of the STAT1 protein and promoted its degradation, which was partially reversed by NMN supplementation. Upon H2O2 treatment, Cys155 in STAT1 was oxidized to sulfonic acid, whereas the mutation of Cys155 to alanine abolished ROS‐mediated STAT1 degradation. These results indicate that oxidative stress induces STAT1 degradation in tumor cells and possibly in CAC tissues, whereas supplementation with NMN protects STAT1 from oxidation‐induced degradation and prevents tumorigenesis. This study provides experimental evidence for the development of NMN‐mediated chemoprevention strategies for CRC. [ABSTRACT FROM AUTHOR]

Published

2024

11. Costunolide and dehydrocostus lactone alleviate ulcerative colitis via regulating TLR4, NF-κB and PI3K expression.

Author

Liang, Songting, Chu Chen, Li, Ruoshi, Jiang, Guihua, and Du, Leilei

Subjects

*MOLECULAR docking, *ANIMAL experimentation, *ULCERATIVE colitis, *CARRIER proteins, *DEXTRAN sulfate

Abstract

In this study, we aimed to study the mechanism of costunolide (COS) and dehydrocostus lactone (DEH) in the treatment of ulcerative colitis (UC) based on network pharmacology, molecular docking and animal experiments. Firstly, network pharmacology was used to predict the target proteins of compounds and diseases. Subsequently, the network analysis was performed, and the key target proteins were screened out. Finally, molecular docking and animal experiments were conducted to validate the network pharmacology analysis results. A total of 39 common target proteins of compounds and diseases were collected. The target proteins TLR4, PIK3R1, PTGS2, RELA, NOS3, MPO and CHUK were obtained from PPI network analysis, GO analysis, KEGG enrichment analysis, and the compound-target-pathway network. Molecular docking results showed that COS and DEH could bind to these target proteins. The results of animal experiments showed that dextran sulfate sodium (DSS) induced UC in mice, resulting in weight loss, colon shortening, and significantly upregulated expression of TLR4, PIK3R1 and RELA in colon tissue. COS and DEH could reduce these pathological changes in UC mice. And they could alleviate UC by downregulating TLR4, PIK3R1 and RELA. Our findings suggested that COS and DEH could exert protective effects on UC by downregulating TLR4, PIK3R1, and RELA. [ABSTRACT FROM AUTHOR]

Published

2024

12. Bifidobacterium pseudolongum‐Derived Bile Acid from Dietary Carvacrol and Thymol Supplementation Attenuates Colitis via cGMP‐PKG‐mTORC1 Pathway.

Author

Zhang, Ke, Xu, Yangbin, Zheng, Yining, Zhang, Ting, Wu, Yujiang, Yan, Yiting, Lei, Yu, Cao, Xi, Wang, Xiaolong, Yan, Frances, Lei, Zhaomin, Brugger, Daniel, Chen, Yulin, Deng, Lu, and Yang, Yuxin

Subjects

*INFLAMMATORY bowel diseases, *CGMP-dependent protein kinase, *GUANYLATE cyclase, *BILE acids, *DEXTRAN sulfate

Abstract

Carvacrol and thymol (CAT) have been widely recognized for their antimicrobial and anti‐inflammatory properties, yet their specific effects on colitis and the mechanisms involved remain insufficiently understood. This study establishes a causative link between CAT administration and colitis mitigation, primarily through the enhancement of Bifidobacterium pseudolongum abundance in the colon. This increase promotes the production of secondary bile acids, particularly hyodeoxycholic acid (HDCA) and 12‐ketodeoxycholic acid (12‐KCAC), which exert anti‐inflammatory effects. Notably, CAT does not alleviate colitis symptoms in germ‐free mice, indicating the necessity of gut microbiota. This research uncovers a novel regulatory mechanism where HDCA and 12‐KCAC inhibit colonic inflammation by reducing the expression of transmembrane guanylate cyclase 1A in the colonic epithelium. This downregulation elevates intracellular Ca2+ and cGMP levels, activating protein kinase G (PKG). Activated PKG subsequently suppresses the mTOR signaling pathway, thereby ameliorating dextran sulfate sodium (DSS)‐induced colonic damage. These findings highlight potential metabolites and therapeutic targets for preventing and treating colitis. Bifidobacterium pseudolongum, HDCA, and 12‐KCAC emerge as promising candidates for therapeutic interventions in colitis and related disorders characterized by impaired tight junction function. [ABSTRACT FROM AUTHOR]

Published

2024

13. Akkermansia muciniphila ONE effectively ameliorates dextran sulfate sodium (DSS)-induced ulcerative colitis in mice.

Author

Zhang, Hongyan, Pan, Yue, Jiang, Ying, Chen, Mengling, Ma, Xin, Yu, Xueping, Ren, Dayong, and Jiang, Bin

Subjects

ULCERATIVE colitis, DEXTRAN sulfate, FOOD consumption, SODIUM sulfate, COLITIS

Abstract

Akermansia muciniphila shows promise as a next-generation probiotic, however, its beneficial regulatory effects on mice ulcerative colitis (UC) has not been extensively investigated. We used an Akkermansia muciniphila strain (AKK ONE) isolated from healthy human feces to study its effect on DSS-induced colitis in mice. Our results demonstrate that AKK ONE supplementation significantly improves food intake, weight, colon length, disease activity index (DAI) score, organ index, and tissue damage of colitis mice. AKK ONE notably improved intestinal barrier integrity by significantly enhancing expression of occludin and claudin-1. Additionally, AKK ONE reduced inflammation by down-regulating IL-1β, IL-6, and TNF-α, and up-regulating IL-10. In addition to reducing excessive inflammation, AKK ONE also increased the abundance of Akkermansia and decreased the abundance of Bacteroides. Furthermore, the AKK ONE intervention markedly increased SCFAs in cecal contents. AKK ONE may be a potential therapeutic agent for improving UC, based on the findings of this study. [ABSTRACT FROM AUTHOR]

Published

2024

14. Presence of Pseudomonas aeruginosa in feces exacerbate leaky gut in mice with low dose dextran sulfate solution, impacts of specific bacteria.

Author

Panpetch, Wimonrat, Tumwasorn, Somying, and Leelahavanichkul, Asada

Subjects

*PATHOGENIC bacteria, *DEXTRAN sulfate, *PSEUDOMONAS aeruginosa, *INTESTINAL injuries, *BLOOD circulation

Abstract

The impact of Pseudomonas aeruginosa (PA) was explored in a mouse model with non-diarrheal gut permeability defect using 1.5% dextran sulfate solution (DSS) plus antibiotics (ATB) with or without orally administered PA. As such, ATB+DSS+PA mice induced more severe intestinal injury as indicated by stool consistency and leaky gut (FITC-dextran assay, bacteremia, and endotoxemia) with an increase in serum cytokines, liver enzyme, and hepatocyte apoptosis when compared with ATB+DSS mice. There was no abnormality by these parameters in the non-DSS group, including water alone (control), antibiotics alone (ATB+water), and antibiotics with PA (ATB+water+PA). Despite a similarly fecal microbiome patterns between ATB+DSS and ATB+DSS+PA groups, a higher abundance of Pseudomonas, Enterococci, and Escherichia-Shigella was detected in ATB+DSS+PA mice. Additionally, the additive pro-inflammation between pathogen molecules, using heat-killed P. aeruginosa preparations, and LPS against enterocytes (Caco2) and hepatocytes (HegG2), as indicated by supernatant IL-8 and expression of several genes (IL-8, NF-kB, and NOS2) are demonstrated. In conclusion, presence of P. aeruginosa in the gut exacerbated DSS-induced intestinal injury with spontaneous translocation of LPS and bacteria from the gut into the blood circulation (leaky gut) that induced more severe systemic inflammation. The presence of pathogenic bacteria, especially PA in stool of the healthy individuals might have some adverse effect. More studies are in needed. [ABSTRACT FROM AUTHOR]

Published

2024

15. 7-hydroxycoumarin ameliorates ulcerative colitis in mice by inhibiting the MAPK pathway and alleviating gut microbiota dysbiosis.

Author

Liu, Mengqi, Sun, Huayi, Fu, Hao, Fu, Lingping, Zheng, Xiao, and Chen, Yu

Subjects

*ULCERATIVE colitis, *MOLECULAR dynamics, *TREATMENT effectiveness, *GUT microbiome, *DEXTRAN sulfate

Abstract

Objective: This research aimed to delineate the pharmacological mechanisms of 7-Hydroxycoumarin (7-HC) on ulcerative colitis (UC) employing network pharmacology and experimental validation. Methods: To investigate the therapeutic effects of 7-HC on UC, a UC mouse model was established through the unrestricted intake of 3.0% dextran sulfate sodium (DSS) in their drinking water. Subsequently, we predicted the core targets and signaling pathways of 7-HC for the treatment of UC using the network pharmacology approach. Finally, the insights gained from network pharmacology were further validated by molecular docking, molecular dynamics simulation as well as in vivo experiments. Results: Administering 7-HC orally to mice with UC led to a marked improvement in colitis indicators. Furthermore, 7-HC significantly lowered the levels of inflammatory cytokines (TNF-α, IL-1β) in the colon and modulated oxidative stress markers (MPO, SOD). Subsequent studies identified 2 core targets (AKT1 and EGFR) in the colon of UC mice that were inhibited by 7-HC. Network pharmacology and experimental validation showed that 7-HC can reduce the expression of MAPK pathway markers P38, JNK, ERK, and their phosphorylation; 7-HC can also ameliorate UC by regulating the gut microbiome. Conclusion: 7-HC demonstrates considerable efficacy in alleviating UC in mice, primarily through substantial diminution of tissue inflammation and oxidative stress. This is the first time that 7-HC has been found to treat UC by inhibiting the MAPK pathway and modulating the gut microbiota, providing a fresh perspective on the pharmacological mechanisms through which 7-HC operates in the management of UC. [ABSTRACT FROM AUTHOR]

Published

2024

16. Anti-Inflammatory Effects of Novel Probiotic Lactobacillus rhamnosus RL-H3-005 and Pedicoccus acidilactici RP-H3-006: In Vivo and In Vitro Evidence.

Author

Li, Shugang, Li, Yixuan, Sui, Donglin, Ren, Qingyu, Ai, Chunqing, Li, Mingxin, Zhao, Shouhao, Li, Huan, Song, Shuang, and Ren, Xiaomeng

Subjects

PEDIOCOCCUS acidilactici, GUT microbiome, DEXTRAN sulfate, SODIUM sulfate, COLITIS

Abstract

Probiotics have garnered escalating attention in the treatment and prevention of inflammatory disorders. In this study, Lactobacillus rhamnosus RL-H3-005 (RL5) and Pediococcus acidilactici RP-H3-006 (RP6), which possess anti-inflammatory effects and favorable probiotic attributes, were selected through the comparison of an RAW264.7 inflammatory cell model screening and in vitro probiotic properties. Subsequently, it was implemented in an animal model of dextran sulfate sodium (DSS)-induced colitis. The results demonstrated that RL5 and RP6 could inhibit the release of proinflammatory factors in RAW264.7 inflammatory cells and exhibited excellent environmental adaptability, adhesion, safety, and antibacterial activity. Additionally, RL5 and RP6 provided protective effects on the intestines of mice with acute colitis by reducing the levels of intestinal inflammation and oxidative stress. Concurrently, supplementation with RL5 and RP6 modulated the composition of the gut microbiota in mice. These discoveries suggest that RL5 and RP6 can be used as a novel probiotic for alleviating intestinal inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

17. METTL14 regulates inflammation in ulcerative colitis via the lncRNA DHRS4-AS1/miR-206/A3AR axis.

Author

Wu, Weiyun, Li, Xiaowen, Zhou, Zhuliang, He, Huanjin, Pang, Cheng, Ye, Shicai, and Quan, Juan-Hua

Subjects

INFLAMMATORY bowel diseases, ULCERATIVE colitis, LINCRNA, DEXTRAN sulfate, COLITIS

Abstract

As a chronic inflammatory bowel disease, the pathogenesis of ulcerative colitis (UC) has not been fully elucidated. N6-methyladenosine (m6A) modification, observed in various RNAs, is implicated in inflammatory bowel diseases. Methyltransferase-like 14 (METTL14) is the major subunit of the methyltransferase complex catalyzing m6A modifications. Here, we designated to examine the regulatory effects and mechanisms of METTL14 on long non-coding RNA (lncRNA) during UC progression. METTL14 knockdown decreased cell viability, promoted apoptosis, increased cleaved PARP and cleaved Caspase-3 levels, while reducing Bcl-2 levels. METTL14 knockdown also led to a significant increase in NF-κB pathway activation and inflammatory cytokine production in the Caco-2 cells treated with TNF-α. Moreover, the suppression of METTL14 aggravated colonic damage and inflammation in our dextran sulfate sodium (DSS)-induced murine colitis model. METTL14 silencing suppressed DHRS4-AS1 expression by reducing the m6A modification of DHRS4-AS1 transcripts. Furthermore, DHRS4-AS1 mitigated inflammatory injury by targeting the miR-206/adenosine A3 receptor (A3AR) axis. DHRS4-AS1 overexpression counteracted the enhancing impact of METTL14 knockdown on TNF-α-induced inflammatory injury in Caco-2 cells. In conclusion, our findings suggest that METTL14 protects against colonic inflammatory injury in UC via regulating the DHRS4-AS1/miR-206/A3AR axis, thus representing a potential therapeutic target for UC. [ABSTRACT FROM AUTHOR]

Published

2024

18. Anti-inflammatory effects of para -quinone methide derivatives on ulcerative colitis.

Author

Qiu, Yue, Li, Xin, Zhang, Xu, Wang, Xiaotong, Wang, Xuekun, Yang, Jie, and Liu, Guoyun

Subjects

ULCERATIVE colitis, PATHOLOGICAL physiology, ANTI-inflammatory agents, DEXTRAN sulfate, SODIUM sulfate

Abstract

A series of para -quinone methide derivatives were evaluated their anti-inflammatory activity. Through the screening of the lipopolysaccharide (LPS)-induced inflammatory cell model in Raw264.7 cells, it was found that the inhibitory activity of meta -substituted derivatives on NO production was superior to that of ortho - and para -substituted derivatives. Among them, in the inflammatory cell model, the meta -trifluoromethyl substituted para -quinone methide derivative 1i had the best activity in inhibiting LPS-induced excess generation of NO. And 1i could effectively inhibit the increase of ROS in inflammatory cells, the expression of iNOS related to the production of NO, and the expressions of inflammation related initiating protein TLR4, pro-inflammatory cytokines IL-6 and TNF-α, inflammasome NLRP3 and Caspase1. In the dextran sulfate sodium (DSS)-induced ulcerative colitis (UC) mouse model, the active derivative 1i could inhibit DSS-induced colon shortening, and reverse DSS-induced pathological changes in colon tissue, such as inflammatory infiltration, structural destruction and crypt disappearance. 1i could effectively inhibit oxidative stress, inflammation and apoptosis in UC mice. Moreover, through the determination of serum biochemical indicators, tissue pathologies and tissue organ indexes, 1i could effectively reverse the damage to mouse liver and kidney caused by DSS, playing a protective role in liver and kidney of mice. In summary, 1i was an effective anti-inflammatory reagent and could be developed as a potential drug for anti-UC. [ABSTRACT FROM AUTHOR]

Published

2024

19. Lactiplantibacillus plantarum NMGL2 exopolysaccharide ameliorates DSS-induced IBD in mice mainly by regulation of intestinal tight junction and NF-κB p65 protein expression.

Author

Zhou, Zengjia, Zhang, Min, Yao, Mengke, Naseeb, Jasra, Sarwar, Abid, Yang, Zhennai, Aziz, Tariq, Alhomrani, Majid, Alsanie, Walaa F., and Alamri, Abdulhakeem S.

Subjects

INFLAMMATORY bowel diseases, SODIUM sulfate, DEXTRAN sulfate, LACTIC acid bacteria, INTESTINAL diseases, OCCLUDINS

Abstract

Treatment of inflammatory bowel disease (IBD), a common chronic intestinal disease, by exopolysaccharides (EPSs) produced by lactic acid bacteria has raised increasing concerns. Here, the EPS produced by Lactiplantibacillus plantarum NMGL2 was evaluated for its ameliorating effect on dextran sodium sulfate (DSS)-induced IBD in mice. Administration of the EPS was shown to decrease the body weight loss and the values of disease activity index (DAI) and alleviate the colon damage as evidenced by an improvement in colonic length shortening, a reduction in colonic coefficient, and a reduction in colonic mucosal architecture and inflammatory infiltration. Cytokine assay of the blood and colon tissue samples showed that the EPS could decrease the levels of pro-inflammatory TNF-α and IL-1β, and increase anti-inflammatory IL-10. Oxidative stress assay of the colon tissue showed that the nitric oxide (NO) and malondialdehyde (MDA) levels decreased significantly (p < 0.05), while superoxide dismutase (SOD) and glutathione (GSH) levels increased significantly (p < 0.05) after the EPS intervention. These results were further confirmed by the significantly (p < 0.05) down-regulated levels of NF-κB p65, p-IKKβ, and p-IκBα, and significantly (p < 0.05) enhanced expression of ZO-1 and occludin, as evaluated by Western-blot analysis of these proteins expressed in colonic tissue. The EPS produced by L. plantarum NMGL2 alleviated IBD by suppressing the NF-κB signaling pathway, suggesting its potential as a functional food agent in the prevention of IBD. [ABSTRACT FROM AUTHOR]

Published

2024

20. Scutellarein ameliorates dextran sulfate sodium-induced ulcerative colitis by inhibiting colonic epithelial cell proinflammation and barrier disruption.

Author

Tang, Qinglian, Jia, Haidong, Qin, Xu, Lu, Zhaowen, Huang, Wenjie, Wang, Yujing, and Cao, Zhengyu

Subjects

ULCERATIVE colitis, GENE expression, DEXTRAN sulfate, CHINESE medicine, EPITHELIAL cells

Abstract

Introduction: Scutellarein (Scu) is a natural occurring flavonoid found in multiple traditional Chinese medicines such as Oroxylum indicum (L.) Kurz and Scutellaria baicalensis , with various pharmacological activities including anti-inflammation, anti-oxidation and myocardial protection. Here, we investigated the therapeutic efficacy of Scu on ulcerative colitis (UC) and the underlying mechanism. Methods: Efficacy of Scu on UC was evaluated in dextran sulfate sodium (DSS) induced colitis mouse model. Inflammation in colonic tissues was assessed by myeloperoxidase activity assay and RT-qPCR. Barrier proteins expression was examined using immunostaining and Western blot. IL-1β-treated HT-29 cells was used for mechanical investigation. Results: Gavage of Scu significantly decreased the DAI score, improved colon shortening, ameliorated the pathological score in DSS-treated mice with better efficacy than the positive drug, 5-aminosalicylic acid. Scu also inhibited the expression levels of cytokines (Il-1β , Tnf-α , Il-1α , Il-6 , and Cxcl1) as well as barrier proteins (E-cadherin, Occludin, and ZO-1) in colon tissues of DSS mice. In intestinal epithelial HT-29 cells, Scu attenuated the IL-1β-downregulated expression levels of E-cadherin, occludin, and ZO-1, while reduced IL-1β-upregulated IL-6 and IL-8 mRNA levels. Moreover, Scu inhibited the phosphorylation and nuclear translocation of NF-κB and suppression of NF-κB phosphorylation abolished IL-1β-disrupted epithelial barrier integrity and IL-1β-upregulated proinflammatory mediators expression in HT-29 cells. Conclusion: These data demonstrate that Scu is an efficacious therapeutic agent to treat UC. Inhibition of inflammatory responses and maintenance of epithelial barrier integrity through NF-κB signaling pathway underlines Scu therapeutic effect on UC. [ABSTRACT FROM AUTHOR]

Published

2024

21. Probiotic and Rice-Derived Compound Combination Mitigates Colitis Severity.

Author

Khalifa, Ashraf, Alkuwayti, Mayyadah Abdullah, Abdallah, Basem M., Ali, Enas M., and Ibrahim, Hairul Islam M.

Subjects

*PROTEIN hydrolysates, *SUPEROXIDE dismutase, *DEXTRAN sulfate, *COLITIS, *SODIUM sulfate

Abstract

Background: This study investigated the ability of Enterococcus lactis (E. lactis) and Hasawi rice protein lysate (HPL) to suppress colitis induced by dextran sulfate sodium (DSS) in miceColitis is characterized by inflammation of the colon, and exploring potential therapeutic agents could lead to improved management strategies. Methods: Male mice were subjected to DSS treatment to induce colitis, followed by supplementation with E. lactis and/or HPL. The study assessed various parameters, including disease activity index (DAI) scores, gut permeability measured using FITC-dextran, and superoxide dismutase (SOD) activity in excised colon tissues from both treated and untreated control groups. Results: E. lactis supplementation significantly alleviated DSS-induced colitis, as evidenced by improved DAI scores and enhanced gut permeability. Notably, E. lactis combined with HPL (0.1 mg/108) exhibited superior tolerance to a 0.5% pancreatin solution compared to E. lactis alone. Both E. lactis and the combination treatment significantly increased SOD activity (5.6 ± 0.23 SOD U/mg protein for E. lactis and 6.7 ± 0.23 SOD U/mg protein for the combination) relative to the Azoxymethane (AOM)/DSS group, suggesting a reduction in oxidative stress. Additionally, pro-inflammatory markers were significantly reduced in the group receiving both E. lactis and HPL compared to the E. lactis-only group. Levels of proteins associated with cell death, such as PCNA, PTEN, VEGF, COX-2, and STAT-3, were significantly decreased by 14.8% to 80% following E. lactis supplementation, with the combination treatment showing the most pronounced effects. Conclusions: These findings suggest E. lactis supplementation may be beneficial for colitis, with HPL potential to enhance its effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

22. Intraperitoneal Administration of S100A8 Ameliorates Experimental Acute Colitis in Rats.

Author

Matsuo, Kano, Ikemoto, Masaki, and Okada, Kohki

Subjects

*TUMOR necrosis factors, *DEXTRAN sulfate, *SODIUM sulfate, *COLITIS, *CELLULAR signal transduction

Abstract

Simple Summary: This study investigated S100A8's immunological role in acute intestinal inflammation in rats. The rats that developed colitis after regularly drinking 3% dextran sulfate sodium (DSS), and those that were administered rat recombinant S100A8 (rr-S100A8) in addition to DSS were named the DSS + A8 group. The histological severity scores were lower in the DSS + A8 group compared to the DSS group. TNF-α production in the colon tissues was significantly suppressed in the DSS + A8 group. In vitro experiments showed that rr-S100A8 increased intracellular S100A8 mRNA levels in macrophages. The mRNA level of TNF-α significantly increased in macrophages treated with lipopolysaccharide and the anti-rat S100A8 antibody. S100A8 appeared to function as an anti-inflammatory protein by negatively regulating S100A9 and TNF-α production in macrophages. S100A8 is a protein that is abundant in neutrophils and macrophages (MΦ), but its role in inflammation remains unclear. This study aimed to assess the immunological role(s) of S100A8 in acute intestinal inflammation in rats and its role in MΦ. Rat recombinant S100A8 (rr-S100A8, 1.0 mg/kg) was intraperitoneally administered daily to rats with 3% dextran sulfate sodium (DSS) (DSS + A8 group)-induced experimental acute colitis. The histological severity score (6.50 ± 0.51, p = 0.038) in the DSS + A8 group rats remained lower than that (9.75 ± 1.48) of the rats without S100A8 (DSS group) administration. The tumor necrosis factor-alpha (TNF-α) production in the colon tissues of the rats in the DSS + A8 group (4.76 ± 0.90 pg/mL/g, p = 0.042) was significantly suppressed, compared with that of the DSS group (10.45 ± 2.04 pg/mL/g). To stimulate rat peritoneal MΦ, rr-S100A8, the anti-rat S100A8 antibody, and a lipopolysaccharide (LPS) were used in the in vitro experiments. In the MΦ stimulated with rr-S100A8 for 2 h, the mRNA level of intracellular S100A8 (47.41 ± 24.44, p = 0.002) increased in an autocrine manner, whereas that of S100A9 (0.24 ± 0.43, p = 0.782) was not significant. The TNF-α mRNA level in the MΦ treated with LPS and the anti-rat S100A8 antibody significantly increased (102.26 ± 18.60, p = 0.001) compared to that with LPS alone (16.9 ± 8.56). These results indicate that S100A8 can serve as an anti-inflammatory protein in acute inflammation by negatively regulating S100A9 and TNF-α production through inflammatory signaling pathways in MΦ. [ABSTRACT FROM AUTHOR]

Published

2024

23. Staphylea bumalda Alleviates Dextran Sulfate Sodium-Induced Ulcerative Colitis in Mice by Regulating Inflammatory Cytokines, Oxidative Stress, and Maintaining Gut Homeostasis.

Author

Wang, Lu, Long, Sha, Zeng, Qi, Dong, Wanrong, Li, Yaoyao, Su, Jiangtao, Chen, Yuxin, and Zhou, Gao

Subjects

*ULCERATIVE colitis, *GUT microbiome, *WEIGHT loss, *DEXTRAN sulfate, *SODIUM sulfate

Abstract

Staphylea bumalda is a rare medicine and edible shrub native to the temperate regions of Asia, possessing significant medicinal potential. In this study, the components of S. bumalda tender leaves and buds extract (SBE) were analyzed and identified by HPLC and LC/MS method, and the safety of SBE was evaluated through mouse acute toxicity models. The protective effects of SBE on dextran sulfate sodium (DSS)-induced ulcerative colitis (UC) in mice were investigated in terms of inflammatory factor levels, oxidative stress, and gut microorganisms. Results showed that hyperoside, kaempferol-3-O-rutinoside, isorhoifolin, and rutin were the main components of the extract, and SBE demonstrated good safety in experimental mice. SBE could alleviate weight losing, disease activity index (DAI) raising, and colon shortening in mice. Pathological section results showed that the inflammatory cell infiltration decreased significantly, and the number of goblet cells increased significantly in the SBE group. After SBE treatment, interleukin-6 (IL-6), interleukin-1β (IL-1β), and tumor necrosis factor-α (TNF-α) levels in serum were significantly decreased, and the levels of myeloperoxidase (MPO) and nitric oxide (NO) in colon tissues were significantly decreased. SBE inhibited gut inflammation by increasing Lactobacillus. In summary, SBE played a therapeutic role in UC mice by relieving colon injury, reducing inflammatory factor levels, and maintaining gut flora homeostasis. SBE is expected to become an auxiliary means to participate in the prevention and treatment of UC. [ABSTRACT FROM AUTHOR]

Published

2024

24. Leucine-Enriched Diet Reduces Fecal MPO but Does Not Protect Against DSS Colitis in a Mouse Model of Crohn's Disease-like Ileitis.

Author

Singh, Drishtant, Menghini, Paola, Rodriguez-Palacios, Alexander, Martino, Luca Di, Cominelli, Fabio, and Basson, Abigail Raffner

Subjects

*INFLAMMATORY bowel diseases, *REDUCING diets, *HUMAN microbiota, *DEXTRAN sulfate, *GUT microbiome

Abstract

Understanding the complex link between inflammation, gut health, and dietary amino acids is becoming increasingly important in the pathophysiology of inflammatory bowel disease (IBD). This study tested the hypothesis that a leucine-rich diet could attenuate inflammation and improve gut health in a mouse model of IBD. Specifically, we investigated the effects of a leucine-rich diet on dextran sulfate sodium (DSS)-induced colitis in germ-free (GF) SAMP1/YitFC (SAMP) mice colonized with human gut microbiota (hGF-SAMP). hGF-SAMP mice were fed one of four different diets: standard mouse diet (CHOW), American diet (AD), leucine-rich AD (AD + AA), or leucine-rich CHOW diet (CH + AA). Body weight, myeloperoxidase (MPO) activity, gut permeability, colonoscopy scores, and histological analysis were measured. Mice on a leucine-rich CHOW diet showed a decrease in fecal MPO prior to DSS treatment as compared to those on a regular diet (p > 0.05); however, after week five, prior to DSS, this effect had diminished. Following DSS treatment, there was no significant difference in gut permeability, fecal MPO activity, or body weight changes between the leucine-supplemented and control groups. These findings suggest that while a leucine-rich diet may transiently affect fecal MPO levels in hGF-SAMP mice, it does not confer protection against DSS-induced colitis symptoms or mitigate inflammation in the long term. [ABSTRACT FROM AUTHOR]

Published

2024

25. Glyburide Suppresses Inflammation-Related Colorectal Tumorigenesis Through Inhibition of NLRP3 Inflammasome.

Author

Maeda, Toshihide, Shirakami, Yohei, Taguchi, Daisuke, Miwa, Takao, Kubota, Masaya, Sakai, Hiroyasu, Ibuka, Takashi, Mori, Kosuke, Tomita, Hiroyuki, and Shimizu, Masahito

Subjects

*INFLAMMATORY bowel diseases, *COLORECTAL cancer, *SODIUM sulfate, *COLON tumors, *DEXTRAN sulfate

Abstract

Colorectal cancer represents one of the most serious complications of inflammatory bowel disease. The NLRP3 inflammasome plays a pivotal role in the onset and progression of inflammatory bowel disease and is also implicated in colorectal cancer. This study aimed to investigate whether NLRP3 deficiency or glyburide, a sulfonylurea used for diabetes management and known as an NLRP3 inhibitor, could suppress colitis and its related colorectal tumorigenesis. Mice were divided into three groups: a control group, a glyburide group, and an NLRP3-deficient group. We investigated acute colitis and inflammation-related tumor models using azoxymethane and dextran sodium sulfate. In the colitis model, the colonic inflammation grade was significantly increased in NLRP3-deficient mice but not in mice administered glyburide. In the colorectal carcinogenesis model, fewer colorectal tumors were observed in both NLRP3-deficient and glyburide-treated groups. Additionally, a reduction in the expression levels of inflammatory cytokine genes was detected in the colonic mucosa of the mice of these groups. These findings suggest that NLRP3 deficiency may exacerbate acute colitis, while pharmacological inhibition, as well as deficiency of NLRP3, suppresses colitis-related tumorigenesis, presumably due to the attenuation of chronic inflammation in the colorectum. Glyburide holds promise as a potential chemopreventive agent for colitis-related colorectal cancer. [ABSTRACT FROM AUTHOR]

Published

2024

26. Huang Lian Jie Du decoction attenuated colitis via suppressing the macrophage Csf1r/Src pathway and modulating gut microbiota.

Author

Shan Su, Ting Liu, Jia-Yi Zheng, Hai-Cui Wu, Keng, Vincent W., Shi-Jie Zhang, and Xiao-Xiao Li

Subjects

INFLAMMATORY bowel diseases, MACROPHAGE colony-stimulating factor, ULCERATIVE colitis, GUT microbiome, DEXTRAN sulfate

Abstract

Introduction: Ulcerative colitis, a subtype of chronic inflammatory bowel disease (IBD), is characterized by relapsing colonic inflammation and ulcers. The traditional Chinese herbal formulation Huang Lian Jie Du (HLJD) decoction is used clinically to treat diarrhea and colitis. However, the mechanisms associated with the effects of treatment remain unclear. This study aims to elucidate the molecular mechanistic effects of HLJD formulation on colitis. Methods: Chronic colitis in mice was induced by adding 1% dextran sulfate sodium (DSS) to their drinking water continuously for 8 weeks, and HLJD decoction at the doses of 2 and 4 g/kg was administered orally to mice daily from the second week until experimental endpoint. Stool consistency scores, blood stool scores, and body weights were recorded weekly. Disease activity index (DAI) was determined before necropsy, where colon tissues were collected for biochemical analyses. In addition, the fecal microbiome of treated mice was characterized using 16S rRNA amplicon sequencing. Results: HLJD decoction at doses of 2 and 4 g/kg relieved DSS-induced chronic colitis in mice by suppressing inflammation through compromised macrophage activity in colonic tissues associated with the colony-stimulating factor 1 receptor (Csf1r)/Src pathway. Furthermore, the HLJD formula could modify the gut microbiota profile by decreasing the abundance of Bacteroides, Odoribacter, Clostridium_sensu_stricto_1, and Parasutterella. In addition, close correlations between DAI, colon length, spleen weight, and gut microbiota were identified. Discussion: Our findings revealed that the HLJD formula attenuated DSSinduced chronic colitis by reducing inflammation via Csf1r/Src-mediated macrophage infiltration, as well as modulating the gut microbiota profile. [ABSTRACT FROM AUTHOR]

Published

2024

27. Lactobacillus rhamnosus GG Stimulates Dietary Tryptophan-Dependent Production of Barrier-Protecting Methylnicotinamide.

Author

Suntornsaratoon, Panan, Antonio, Jayson, Flores, Juan, Upadhyay, Ravij, Veltri, John, Bandyopadhyay, Sheila, Dadala, Rhema, Kim, Michael, Liu, Yue, Balasubramanian, Iyshwarya, Turner, Jerrold, Su, Xiaoyang, Li, Wei Vivian, Gao, Nan, and Ferraris, Ronaldo

Subjects

Metabolome, Probiotic, Tight Junction, Transcriptome, Animals, Lacticaseibacillus rhamnosus, Tryptophan, Mice, Humans, Caco-2 Cells, Probiotics, Colitis, Intestinal Mucosa, Enterocytes, Dextran Sulfate, Niacinamide, Tight Junctions, Male, Disease Models, Animal, Tight Junction Proteins

Abstract

BACKGROUND & AIMS: Lacticaseibacillus rhamnosus GG (LGG) is the worlds most consumed probiotic but its mechanism of action on intestinal permeability and differentiation along with its interactions with an essential source of signaling metabolites, dietary tryptophan (trp), are unclear. METHODS: Untargeted metabolomic and transcriptomic analyses were performed in LGG monocolonized germ-free mice fed trp-free or -sufficient diets. LGG-derived metabolites were profiled in vitro under anaerobic and aerobic conditions. Multiomic correlations using a newly developed algorithm discovered novel metabolites tightly linked to tight junction and cell differentiation genes whose abundances were regulated by LGG and dietary trp. Barrier-modulation by these metabolites were functionally tested in Caco2 cells, mouse enteroids, and dextran sulfate sodium experimental colitis. The contribution of these metabolites to barrier protection is delineated at specific tight junction proteins and enterocyte-promoting factors with gain and loss of function approaches. RESULTS: LGG, strictly with dietary trp, promotes the enterocyte program and expression of tight junction genes, particularly Ocln. Functional evaluations of fecal and serum metabolites synergistically stimulated by LGG and trp revealed a novel vitamin B3 metabolism pathway, with methylnicotinamide (MNA) unexpectedly being the most robust barrier-protective metabolite in vitro and in vivo. Reduced serum MNA is significantly associated with increased disease activity in patients with inflammatory bowel disease. Exogenous MNA enhances gut barrier in homeostasis and robustly promotes colonic healing in dextran sulfate sodium colitis. MNA is sufficient to promote intestinal epithelial Ocln and RNF43, a master inhibitor of Wnt. Blocking trp or vitamin B3 absorption abolishes barrier recovery in vivo. CONCLUSIONS: Our study uncovers a novel LGG-regulated dietary trp-dependent production of MNA that protects the gut barrier against colitis.

Published

2024

28. 负载黑米花色苷的纳米颗粒对 Caco-2 细胞 损伤的保护作用.

Author

刘雅琪, 周 娜, 冯蒙蒙, 艾 欣, 赵 磊, and 赵 亮

Subjects

FOURIER transform infrared spectroscopy, ULCERATIVE colitis, SERUM albumin, DEXTRAN sulfate, TIGHT junctions

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

29. Lacticaseibacillus rhamnosus LRa05 mediates dynamic regulation of intestinal microbiota in mice with low-dose DSS-induced chronic mild inflammation.

Author

Yao Dong, Zhonghui Gai, Mei Han, and Yunjiao Zhao

Subjects

TUMOR necrosis factors, GUT microbiome, DEXTRAN sulfate, MICROORGANISM populations, SODIUM sulfate, PROBIOTICS

Abstract

Aim: This study aimed to investigate the effects of low-dose dextran sulfate sodium (DSS) on the induction of chronic mild inflammation in mice and to evaluate the therapeutic potential of Lacticaseibacillus rhamnosus LRa05 (LRa05) to ameliorate the associated effects. The focus was on investigating changes in inflammatory, gut microbiota, serum lipopolysaccharide (LPS) and inflammatory cytokines Methods: Mice were exposed to a low-dose of DSS to induce chronic mild inflammation and LRa05 was administered as a probiotic intervention. The experiment included determination of body weight, colon length, histological examinations, and analysis of LPS and inflammatory cytokines in serum over 12 weeks. In addition, liver function, oxidative stress and intestinal microbiota were examined to understand the comprehensive effects of DSS and LRa05. Results: Low-dose DSS did not lead to significant changes in body weight, colon length or histologic signs of inflammation. However, it led to a significant increase in serum levels of LPS, tumor necrosis factor-alpha (TNFa) and interleukin-6 (IL6). Intervention with LRa05 effectively attenuated these changes, particularly by lowering LPS levels and normalizing inflammatory cytokines. In addition, LRa05 protected against DSS-induced liver function damage and attenuated oxidative stress in the liver. Analysis of the gut microbiota demonstrated dynamic regulatory effects, where LRa05 intervention led to significant shifts in microbial populations, promoting a balanced microbiota profile. These changes are indicative of dynamic regulation by LRa05 in response to chronic mild inflammation, highlighting the probiotic's role in modulating the gut environment. Conclusion: The LRa05 intervention showed multi-layered regulation in the chronic mild inflammation model by reducing inflammatory cytokines, maintaining liver function and restoring the balance of the gut microbiota. This provides experimental support for the potential use of LRa05 in chronic inflammation-related diseases and emphasizes the importance of probiotics for overall health. The study suggests that LRa05 is a potential therapeutic agent for the treatment of chronic inflammation associated with gut dysbiosis. [ABSTRACT FROM AUTHOR]

Published

2024

30. Immunomodulatory effect of Dicrocoelium dendriticum ova on DSS-induced experimental colitis in C57BL/6 mouse.

Author

Mighani, Leila, Eilakinezhad, Malihe, Esmaeili, Seyed-Alireza, Khazaei, Majid, Eskandari, Moein, Nazari, Seyedeh Elnaz, Bazaz, Mojtaba Mousavi, kharazmi, Khatereh, Moghaddas, Elham, and Zarean, Mehdi

Subjects

*INFLAMMATORY bowel diseases, *PARASITIC diseases, *DEXTRAN sulfate, *LABORATORY mice, *SODIUM sulfate

Abstract

Inflammatory bowel disease (IBD) significantly diminishes an individual's quality of life and increases the risk of colorectal cancer. Recent clinical and experimental findings suggest that infection with parasitic helminths may suppress the development of certain inflammatory conditions. The objective of this study was to evaluate the immunoregulatory effects of Dicrocoelium eggs on experimentally induced colitis in C57BL/6 mice using dextran sulfate sodium (DSS). C57BL/6 mice received 3.5% DSS orally for 7 days to induce colitis, during which they were treated intraperitoneally with Dicrocoelium eggs. The severity of colitis was assessed through parameters such as body weight, stool consistency or bleeding, disease activity index (DAI), colon lengths, macroscopic scores, histopathological findings, colon gene expression levels, and serum cytokine levels. Our results indicated that Dicrocoelium eggs administration significantly reduced the severity of colitis and disease activity. Histopathological scores improved, correlating with downregulation of IFN-γ and upregulation of IL-4 expression. This findings suggest the therapeutic potential of Dicrocoelium eggs in treating colitis. Immunotherapy involving Dicrocoelium eggs primarily induces a Th2 response and modulates IFN-γ, contributing to reduced inflammation in colitis. Thus, this approach could be a promising therapeutic strategy for alleviating inflammation in IBD. [ABSTRACT FROM AUTHOR]

Published

2024

31. The reverse transsulfuration pathway affects the colonic microbiota and contributes to colitis in mice.

Author

Gobert, Alain P., Latour, Yvonne L., McNamara, Kara M., Hawkins, Caroline V., Williams, Kamery J., Asim, Mohammad, Barry, Daniel P., Allaman, Margaret M., Delgado, Alberto G., Milne, Ginger L., Zhao, Shilin, Piazuelo, M. Blanca, Washington, M. Kay, Coburn, Lori A., and Wilson, Keith T.

Subjects

*AMINO acid metabolism, *GUT microbiome, *DEXTRAN sulfate, *HELICOBACTER pylori, *DELETION mutation, *INFLAMMATORY bowel diseases

Abstract

Cystathionine γ-lyase (CTH) is a critical enzyme in the reverse transsulfuration pathway, the major route for the metabolism of sulfur-containing amino acids, notably converting cystathionine to cysteine. We reported that CTH supports gastritis induced by the pathogen Helicobacter pylori. Herein our aim was to investigate the role of CTH in colonic inflammation. First, we found that CTH is induced in the colon mucosa in mice with dextran sulfate sodium-induced colitis. Expression of CTH was completely absent in the colon of Cth–/– mice. We observed that clinical and histological parameters are ameliorated in Cth-deficient mice compared to wild-type animals. However, Cth deletion had no effect on tumorigenesis and the level of dysplasia in mice treated with azoxymethane-DSS, as a reliable model of colitis-associated carcinogenesis. Mechanistically, we determined that the deletion of the gene Slc7a11 encoding for solute carrier family 7 member 11, the transporter of the anionic form of cysteine, does not affect DSS colitis. Lastly, we found that the richness and diversity of the fecal microbiota were significantly increased in Cth–/– mice compared to both WT and Slc7a11–/– mice. In conclusion, our data suggest that the enzyme CTH represents a target for clinical intervention in patients with inflammatory bowel disease, potentially by beneficially reshaping the composition of the gut microbiota. [ABSTRACT FROM AUTHOR]

Published

2024

32. Bromodomain-Containing 4 Is a Positive Regulator of Interleukin-34 Production in the Gut.

Author

Franzè, Eleonora, Laudisi, Federica, Frascatani, Rachele, Tomassini, Lorenzo, De Cristofaro, Elena, Stolfi, Carmine, and Monteleone, Giovanni

Subjects

*INFLAMMATORY bowel diseases, *EPITHELIAL cells, *DEXTRAN sulfate, *CANCER cells, *T cells

Abstract

Experimental evidence suggests that, in the inflamed gut of inflammatory bowel disease (IBD) patients, interleukin-34 (IL-34) triggers detrimental signaling pathways. Factors/mechanisms regulating IL-34 production in IBD remain poorly characterized. Bromodomain-containing 4 (BRD4), a transcriptional and epigenetic regulator, is over-expressed in IBD, and studies in cancer cells suggest that BRD4 might positively control IL-34 expression. This study aimed to assess whether, in IBD, BRD4 regulates IL-34 expression. In IBD, there was an up-regulation of both IL-34 and BRD4 compared to the controls, and the two proteins co-localized in both lamina propria mononuclear cells (LPMCs) and epithelial cells. Flow cytometry analysis of CD45+ LPMCs confirmed that the percentages of IL-34- and BRD4-co-expressing cells were significantly higher in IBD than in the controls and showed that more than 80% of the IL-34-positive CD45-LPMCs expressed BRD4. IL-34 and BRD4 were mainly expressed by T cells and macrophages. IL-34 expression was reduced in IBD LPMCs transfected with BRD4 antisense oligonucleotide and in the colons of mice with dextran sulfate sodium-induced colitis treated with JQ1, a pharmacological inhibitor of BRD4. These data indicate that BRD4 is a positive regulator of IL-34 in IBD, further supporting the pathogenic role of BRD4 in IBD-associated mucosal inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

33. Inflammation, Gut Microbiota, and Metabolomic Shifts in Colorectal Cancer: Insights from Human and Mouse Models.

Author

Yang, Chengcong, Wusigale, You, Lijun, Li, Xiang, Kwok, Lai-Yu, and Chen, Yongfu

Subjects

*GUT microbiome, *DEXTRAN sulfate, *MICROBIAL metabolism, *SODIUM sulfate, *COLORECTAL cancer

Abstract

Colorectal cancer (CRC) arises from aberrant mutations in colorectal cells, frequently linked to chronic inflammation. This study integrated human gut metagenome analysis with an azoxymethane and dextran sulfate sodium-induced CRC mouse model to investigate the dynamics of inflammation, gut microbiota, and metabolomic profiles throughout tumorigenesis. The analysis of stool metagenome data from 30 healthy individuals and 40 CRC patients disclosed a significant escalation in both gut microbiota diversity and abundance in CRC patients compared to healthy individuals (p < 0.05). Marked structural disparities were identified between the gut microbiota of healthy individuals and those with CRC (p < 0.05), characterized by elevated levels of clostridia and diminished bifidobacteria in CRC patients (p < 0.05). In the mouse model, CRC mice exhibited distinct gut microbiota structures and metabolite signatures at early and advanced tumor stages, with subtle variations noted during the intermediate phase. Additionally, inflammatory marker levels increased progressively during tumor development in CRC mice, in contrast to their stable levels in healthy counterparts. These findings suggest that persistent inflammation might precipitate gut dysbiosis and altered microbial metabolism. Collectively, this study provides insights into the interplay between inflammation, gut microbiota, and metabolite changes during CRC progression, offering potential biomarkers for diagnosis. While further validation with larger cohorts is warranted, the data obtained support the development of CRC prevention and diagnosis strategies. [ABSTRACT FROM AUTHOR]

Published

2024

34. Activation of AMPK/SIRT1/FOXO3a signaling by BMS-477118 (saxagliptin) mitigates chronic colitis in rats: uncovering new anti-inflammatory and antifibrotic roles.

Author

Elmorsy, Elsayed A., Youssef, Mahmoud E., Abdel-Hamed, Mohamed R., Amer, Maha M., Elghandour, Sahar R., Alkhamiss, Abdullah S., Mohamed, Nahla B., Khodeir, Mostafa M., Elsisi, Hossam A., Alsaeed, Thamir Saad, Kamal, Manal M., Ellethy, Abousree T., Elesawy, Basem H., and Saber, Sameh

Subjects

CD26 antigen, ULCERATIVE colitis, SODIUM sulfate, AMP-activated protein kinases, DEXTRAN sulfate

Abstract

Ulcerative colitis (UC) is a debilitating chronic disease marked by persistent inflammation and intestinal fibrosis. Despite the availability of various treatments, many patients fail to achieve long-term remission, underscoring a significant unmet therapeutic need. BMS-477118, a reversible inhibitor of dipeptidyl peptidase 4 (DPP4), has demonstrated anti-inflammatory properties in preclinical and clinical studies with minimal adverse effects compared to other antidiabetic agents. However, the potential benefits of BMS-477118 in chronic UC have not yet been explored. In this study, we aimed to investigate the effects of BMS-477118 in rats subjected to chronic dextran sodium sulfate (DSS) administration. Our findings indicate that BMS-477118 activates the interconnected positive feedback loop involving AMPK, SIRT1, and FOXO3a, improving histological appearance in injured rat colons. BMS-477118 also reduced fibrotic changes associated with the chronic nature of the animal model, alleviated macroscopic damage and disease severity, and improved the colon weight-to-length ratio. Additionally, BMS-477118 prevented DSS-induced weight loss and enhanced tight junction proteins. These effects, in conjunction with reduced oxidative stress and its potential anti-inflammatory, antiapoptotic, and autophagy-inducing properties, fostered prolonged survival in rats with chronic UC. To conclude, BMS-477118 has the potential to activate the AMPK/SIRT1/FOXO3a signaling pathway in inflamed colons. These results suggest that the AMPK/SIRT1/FOXO3a pathway could be a new therapeutic target for UC. Further research is mandatory to explore the therapeutic possibilities of this pathway. Additionally, continued studies on the therapeutic potential of BMS-477118 and other DPP4 inhibitors are promising for creating new treatments for various conditions, including UC in diabetic patients. [ABSTRACT FROM AUTHOR]

Published

2024

35. Multiomics analysis reveals the potential mechanism of high‐fat diet in dextran sulfate sodium‐induced colitis mice model.

Author

Zhao, Yuyang, Chen, Zhimin, Dong, Ruiyi, Liu, Yufan, Zhang, Yixin, Guo, Yan, Yu, Meiyi, Li, Xiang, and Wang, Jiangbin

Subjects

*INFLAMMATORY bowel diseases, *GUT microbiome, *DEXTRAN sulfate, *APOLIPOPROTEIN A, *APOLIPOPROTEIN C

Abstract

A high‐fat diet (HFD) is recognized as an important contributor to inflammatory bowel disease (IBD). However, the precise underlying mechanism of HFD on IBD remains elusive. This study aimed to investigate the potential mechanism by which HFD affects IBD using 16S rRNA‐sequencing and RNA‐seq technology. Results indicated that HFD‐treated mice exhibited notable alternations in the structure and composition of the gut microbiota, with some of these alternations being associated with the pathogenesis of IBD. Analysis of the colon transcriptome revealed 11 hub genes and 7 hub pathways among control, DSS‐induced colitis, and HFD + DSS‐treated groups. Further analysis explores the relationship between the hub pathways and genes, as well as the hub genes and gut microbiota. Overall, the findings indicate that the impact of HFD on DSS‐induced colitis may be linked to intestinal dysbiosis and specific genes such as Abca8b, Ace2, Apoa1, Apoa4, Apoc3, Aspa, Dpp4, Maob, Slc34a2, Slc7a9, and Trpm6. These results provide valuable insights for determining potential therapeutic targets for addressing HFD‐induced IBD. [ABSTRACT FROM AUTHOR]

Published

2024

36. Application of the Thermal Analysis of Frozen Aqueous Solutions to Assess the Miscibility of Hyaluronic Acid and Polymers Used for Dissolving Microneedles.

Author

Izutsu, Ken-ichi, Yoshida, Hiroyuki, Abe, Yasuhiro, Yamamoto, Eiichi, Sato, Yoji, and Ando, Daisuke

Subjects

*POLYMER solutions, *GLASS transition temperature, *TRANSITION temperature, *PHASE separation, *DEXTRAN sulfate

Abstract

Background: The combination of multiple polymers is anticipated to serve as a means to diversify the physical properties and functionalities of dissolving microneedles. The mixing state of components is considered as a crucial factor in determining their suitability. Objectives: The purpose of this study was to elucidate whether thermal analysis of frozen aqueous solutions can appropriately predict the miscibility of hyaluronic acid (HA) and other polymers used for dissolving microneedles prepared by a micromolding method. Methods: Aliquots of aqueous polymer solutions were applied for thermal analysis by heating the samples from −70 °C at 5 °C/min to obtain the transition temperature of amorphous polymers and/or the crystallization/melting peaks of polymers (e.g., polyethylene glycol (PEG)). Films and dissolving microneedles were prepared by air-drying of the aqueous polymer solutions to assess the polymer miscibility in the solids. Results: The frozen aqueous single-solute HA solutions exhibited a clear Tg′ (the glass transition temperature of maximally freeze-concentrated solutes) at approximately −20 °C. The combination of HA with several polymers (e.g., dextran FP40, DEAE-dextran, dextran sulfate, and gelatin) showed a single Tg′ transition at temperatures that shifted according to their mass ratio, which strongly suggested the mixing of the freeze-concentrated solutes. By contrast, the observation of two Tg′ transitions in a scan strongly suggested the separation of HA and polyvinylpyrrolidone (PVP) or HA and polyacrylic acid (PAA) into different freeze-concentrated phases, each of which was rich in an amorphous polymer. The combination of HA and PEG exhibited the individual physical changes of the polymers. The polymer combinations that showed phase separation in the frozen solution formed opaque films and microneedles upon their preparation by air-drying. Coacervation occurring in certain polymer combinations was also suggested as a factor contributing to the formation of cloudy films. Conclusions: Freezing aqueous polymer solutions creates a highly concentrated polymer environment that mimics the matrix of dissolving microneedles prepared through air drying. This study demonstrated that thermal analysis of the frozen solution offers insights into the mixing state of condensed polymers, which can be useful for predicting the physical properties of microneedles. [ABSTRACT FROM AUTHOR]

Published

2024

37. Deubiquitination of RIPK2 by OTUB2 augments NOD2 signalling and protective effects in intestinal inflammation.

Author

Du, Xue, Xu, Jun, Mei, Fuqi, Shen, Jiangyun, Zhou, Bincheng, Zhu, Zhenhu, Li, Zhongding, Su, Xian, Li, Jianmin, Schlüter, Dirk, Ruan, Jing, and Wang, Xu

Subjects

*INFLAMMATORY bowel diseases, *BONE marrow transplantation, *DEUBIQUITINATING enzymes, *BONE marrow, *DEXTRAN sulfate

Abstract

Background: Inflammatory bowel disease (IBD) is a chronic inflammatory disorder of the gastrointestinal tract, but the molecular mechanisms underlying IBD are incompletely understood. In this study, we explored the role and regulating mechanism of otubain 2 (OTUB2), a deubiquitinating enzyme, in IBD. Methods: To study the function of OTUB2 in IBD, we generated Otub2–/– mice and treated them with dextran sulfate sodium (DSS) to induce experimental colitis. Bone marrow transplantation was performed to identify the cell populations that were affected by OTUB2 in colitis. The molecular mechanism of OTUB2 in signal transduction was studied by various biochemical methods. Results: OTUB2 was highly expressed in colon‐infiltrating macrophages in both humans with IBD and mice with DSS‐induced experimental colitis. Colitis was significantly aggravated in Otub2–/– mice and bone marrow chimeric mice receiving Otub2–/– bone marrow. OTUB2‐deficiency impaired the production of cytokines and chemokines in macrophages in response to the NOD2 agonist muramyl dipeptide (MDP). Upon MDP stimulation, OTUB2 promoted NOD2 signaling by stabilizing RIPK2. Mechanistically, OTUB2 inhibited the proteasomal degradation of RIPK2 by removing K48‐linked polyubiquitination on RIPK2, which was mediated by the active C51 residue in OTUB2. In mice, OTUB2 ablation abolished the protective effects of MDP administration in colitis. Conclusion: This study identified OTUB2 as a novel regulator of intestinal inflammation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Insights of Expression Profile of Chemokine Family in Inflammatory Bowel Diseases and Carcinogenesis.

Author

Zhang, Yinjie, Jin, Yue, Wang, Yanjing, Wang, Siyi, Niu, Yuchen, Ma, Buyong, and Li, Jingjing

Subjects

*COLON cancer, *INTESTINAL diseases, *COLON diseases, *DEXTRAN sulfate, *COLORECTAL cancer, *INFLAMMATORY bowel diseases

Abstract

Chemokines are integral components of the immune system and deeply involved in the pathogenesis and progression of inflammatory bowel disease (IBD) and colorectal cancer (CRC). Although a considerable amount of transcriptome data has been accumulated on these diseases, most of them are limited to a specific stage of the disease. The purpose of this study is to visually demonstrate the dynamic changes in chemokines across various stages of bowel diseases by integrating relevant datasets. Integrating the existing datasets for IBD and CRC, we compare the expression changes of chemokines across different pathological stages. This study collected 11 clinical databases from various medical centers around the world. Patients: Data of patient tissue types were classified into IBD, colorectal adenoma, primary carcinoma, metastasis, and healthy control according to the publisher's annotation. The expression changes in chemokines in various pathological stages are statistically analyzed. The chemokines were clustered by different expression patterns. The chemokine family was clustered into four distinct expression patterns, which correspond to varying expression changes in different stages of colitis and tumor development. Certain chemokines and receptors associated with inflammation and tumorigenesis have been identified. Furthermore, it was confirmed that the 2,4,6-trinitrobenzenesulfonic acid (TNBS)-induced colitis model and the azoxymethane (AOM)/ dextran sulfate sodium (DSS)-induced colon cancer model shows stronger correlations with the clinical data in terms of chemokine expression levels. This study paints a panoramic picture of the expression profiles of chemokine families at multiple stages from IBD to advanced colon cancer, facilitating a comprehensive understanding of the regulation patterns of chemokines and guiding the direction of drug development. This study provides researchers with a clear atlas of chemokine expression in the pathological processes of inflammatory bowel disease and colon cancer. [ABSTRACT FROM AUTHOR]

Published

2024

39. Human IL-22 receptor-targeted small protein antagonist suppress murine DSS-induced colitis.

Author

Kuchař, Milan, Sloupenská, Kristýna, Rašková Kafková, Leona, Groza, Yaroslava, Škarda, Jozef, Kosztyu, Petr, Hlavničková, Marie, Mierzwicka, Joanna M., Osička, Radim, Petroková, Hana, Walimbwa, Stephen I., Bharadwaj, Shiv, Černý, Jiří, Raška, Milan, and Malý, Petr

Subjects

*INFLAMMATORY bowel diseases, *IMMUNOSUPPRESSION, *INTERLEUKIN-22, *PROTEIN engineering, *DEXTRAN sulfate

Abstract

Background: Human interleukin-22 (IL-22) is known as a "dual function" cytokine that acts as a master regulator to maintain homeostasis, structural integrity of the intestinal epithelial barrier, and shielding against bacterial pathogens. On the other hand, the overexpression of IL-22 is associated with hyper-proliferation and recruitment of pathologic effector cells, leading to tissue damage and chronic inflammation in specific diseases including inflammatory bowel disease (IBD). To study a role of IL-22-mediated signaling axis during intestinal inflammation, we generated a set of small protein blockers of IL-22R1 and verified their inhibitory potential on murine model of colitis. Methods: We used directed evolution of proteins to identify binders of human IL-22 receptor alpha (IL-22R1), designated as ABR ligands. This approach combines the assembly of a highly complex combinatorial protein library derived from small albumin-binding domain scaffold and selection of promising protein variants using ribosome display followed by large-scale ELISA screening. The binding affinity and specificity of ABR variants were analyzed on transfected HEK293T cells by flow cytometry and LigandTracer. Inhibitory function was further verified by competition ELISA, HEK-Blue IL-22 reporter cells, and murine dextran sulfate sodium (DSS)-induced colitis. Results: We demonstrate that ABR specifically recognizes transgenic IL-22R1 expressed on HEK293T cells and IL-22R1 on TNFα/IFNγ-activated HaCaT cells. Moreover, some ABR binders compete with the IL-22 cytokine and function as IL-22R1 antagonists in HEK-Blue IL22 reporter cells. In a murine model of DSS-induced acute intestinal inflammation, daily intraperitoneal administration of the best IL-22R1 antagonist, ABR167, suppressed the development of clinical and histological markers of colitis including prevention of mucosal inflammation and architecture deterioration. In addition, ABR167 reduces the DSS-induced increase in mRNA transcript levels of inflammatory cytokines such as IL-1β, IL-6, IL-10, and IL-17A. Conclusions: We developed small anti-human IL-22R1 blockers with antagonistic properties that ascertain a substantial role of IL-22-mediated signaling in the development of intestinal inflammation. The developed ABR blockers can be useful as a molecular clue for further IBD drug development. [ABSTRACT FROM AUTHOR]

Published

2024

40. Electroacupuncture Modulates Microbial Phenylalanine Metabolism and Enhances the Intestinal Barrier Function to Alleviate Colitis in Mice.

Author

Zhu, Lei, Au, Ryan, Dai, Luming, Li, Yanan, Xu, Feng, Cui, Yuan, Hu, Jingyi, and Shen, Hong

Subjects

INTESTINAL barrier function, GUT microbiome, ULCERATIVE colitis, MICROBIAL metabolism, DEXTRAN sulfate

Abstract

Background: Electroacupuncture (EA) exerts beneficial effects on ulcerative colitis. However, its underlying mechanisms remain elusive. In this study, we investigated the impact of high and low-frequency EA at Zusanli (ST36) on the gut microbiota and metabolite profile in the dextran sulfate sodium (DSS)-induced colitis mouse model. Methods: Colitis was established using DSS, and daily electroacupuncture at ST36 with varying frequencies was administered. Changes in body weight and fecal characteristics were monitored. Pro-inflammatory cytokines were detected, and the core molecule of intestinal barrier function were analyzed. The composition of intestinal flora was analyzed using 16S sRNA sequencing, while the changes of metabolites in colon tissue were detected by Ultra-performance liquid chromatography–tandem mass spectrometry (UPLC/MS/MS). Results: Treatment with both high and low frequencies of EA at ST36 significantly ameliorated the symptoms of colitis, while also exerting systemic and local anti-inflammatory effect by downregulating the proinflammatory cytokines, iNOS and MPO. EA at ST36 enhanced the intestinal barrier by upregulating the expression of MUC2 and ZO-1. Furthermore, high-frequency EA at ST36 remarkably restored the gut microbial composition and diversity, as well as modulated the gut microbial metabolism of phenylalanine. Conclusion: Our results suggest that EA treatment may alleviate colitis by reducing colon damage through gut microbiota-phenylalanine metabolism, which provides insight into EA's underlying mechanisms in the treatment of colitis. [ABSTRACT FROM AUTHOR]

Published

2024

41. The Effect of Multilayer Nanoemulsion on the In Vitro Digestion and Antioxidant Activity of β-Carotene.

Author

Sun, Mei Zi, Kim, Do-Yeong, Baek, Youjin, and Lee, Hyeon Gyu

Subjects

FREE fatty acids, DEXTRAN sulfate, SODIUM alginate, GASTROINTESTINAL system, DIGESTION, CAROTENES

Abstract

The objectives of this study were to design multilayer oil-in-water nanoemulsions using a layer-by-layer technique to enhance the stability of β-carotene and evaluate its effect on in vitro release and antioxidant activity. To prepare β-carotene-loaded multilayer nanoemulsions (NEs), a primary NE (PRI-NE) using Tween 20 was coated with chitosan (CS) for the secondary NE (SEC-CS), and with dextran sulfate (DS) and sodium alginate (SA) for the two types of tertiary NEs (TER-DS, TER-SA). The multilayer NEs ranged in particle size from 92 to 110 nm and exhibited high entrapment efficiency (92–99%). After incubation in a simulated gastrointestinal tract model, the release rate of free fatty acids decreased slightly after coating with CS, DS, and SA. The bioaccessibility of β-carotene was 7.02% for the PRI-NE, 7.96% for the SEC-CS, 10.88% for the TER-DS, and 10.25% for the TER-SA. The 2,2-diphenyl-1-picrylhydrazyl radical scavenging abilities increased by 1.2 times for the multilayer NEs compared to the PRI-NE. In addition, the cellular antioxidant abilities improved by 1.8 times for the TER-DS (87.24%) compared to the PRI-NE (48.36%). Therefore, multilayer nanoemulsions are potentially valuable techniques to improve the stability, in vitro digestion, and antioxidant activity of β-carotene. [ABSTRACT FROM AUTHOR]

Published

2024

42. Network Analysis of Gut Microbial Communities Reveals Key Reason for Quercetin Protects against Colitis.

Author

Lv, Yanan, Peng, Jing, Ma, Xiaoyu, Liang, Zeyi, Salekdeh, Ghasem Hosseini, Ke, Qunhua, Shen, Wenxiang, Yan, Zuoting, Li, Hongsheng, Wang, Shengyi, and Ding, Xuezhi

Subjects

ORAL drug administration, TIGHT junctions, GUT microbiome, DEXTRAN sulfate, COLITIS, QUERCETIN, OCCLUDINS

Abstract

As one of the most representative natural products among flavonoids, quercetin (QUE) has been reported to exhibit beneficial effects on gut health in recent years. In this study, we utilized a dextran sulfate sodium (DSS)-induced colitis mice model to explore the protective effects and underlying mechanisms of QUE on colitis. Our data demonstrated that QUE oral gavage administration significantly ameliorates the symptoms and histopathological changes associated with colitis. Additionally, the concentration of mucin-2, the number of goblet cells, and the expression of tight junction proteins (such as ZO-1, Occludin, and Claudin-1) were all found to be increased. Furthermore, QUE treatment regulated the levels of inflammatory cytokines and macrophage polarization, as well as the oxidative stress-related pathway (Nrf2/HO-1) and associated enzymes. Additionally, 16S rDNA sequencing revealed that QUE treatment rebalances the alterations in colon microbiota composition (inlcuding Bacteroidaceae, Bacteroides, and Odoribacter) in DSS-induced colitis mice. The analysis of network dynamics reveals a significant correlation between gut microbial communities and microenvironmental factors associated with inflammation and oxidative stress, in conjunction with the previously mentioned findings. Collectively, our results suggest that QUE has the potential to treat colitis by maintaining the mucosal barrier, modulating inflammation, and reducing oxidation stress, which may depend on the reversal of gut microbiota dysbiosis. [ABSTRACT FROM AUTHOR]

Published

2024

43. Anticancer effects of washed-dehydrated solar salt doenjang and its metabolites.

Author

Lee, So-Young, Hong, Geun-Hye, and Park, Kun-Young

Subjects

COLON cancer, DEXTRAN sulfate, SODIUM sulfate, GENE expression, ANTINEOPLASTIC agents

Abstract

In this study, the anticancer effect of doenjang according to the type of salt was investigated. Three samples were prepared: doenjang made with purified salt, doenjang made with generally manufactured solar salt, and doenjang made with washed and dehydrated solar salt (WDSD). In mice in which colon cancer was induced with azoxymethane/dextran sodium sulfate, doenjang made with solar salt, especially doenjang made with washed and dehydrated solar salt, was found to have a much higher colon cancer inhibition effect. WDSD significantly promoted the mRNA expression of apoptosis-related factors such as Bcl-2–associated X protein (Bax) and caspase 9 and the cell cycle arrest-related factors p53 and p21, and conversely significantly reduced the mRNA expression of apoptosis inhibitors such as B-cell lymphoma-2 (Bcl-2) (p < 0.05). Additionally, metabolites were investigated to determine which substances in WDSD exhibit this anticancer effect. As a result, the contents of isoflavone and soyasaponin B in the form of aglycons such as genistein, daidzein, and glycitein, which are known to have anticancer and anti-inflammatory properties, were found to be significantly high. Therefore, the results confirmed that doenjang prepared with washed and dehydrated solar salt has superior anticancer potential against colon cancer, and that various active ingredients contribute to the improvement of this functionality. [ABSTRACT FROM AUTHOR]

Published

2024

44. Intestinal and hepatic benefits of BBR-EVO on DSS-induced experimental colitis in mice.

Author

Wenjia Wang, Yiheng Han, Wen Yin, Qiaozhi Wang, Yi Wu, and Maobo Du

Subjects

INFLAMMATORY bowel diseases, ULCERATIVE colitis, CHINESE medicine, TIGHT junctions, DEXTRAN sulfate

Abstract

Ulcerative colitis (UC), characterized by disrupted intestinal barrier integrity and chronic inflammation, was modeled in mice via dextran sulfate sodium (DSS) induction. This study explored the therapeutic potential of berberineevodiamine (BBR-EVO), bioactive components of the traditional Chinese medicine Yulian decoction, in DSS colitis. BBR-EVO intervention ameliorated weight loss, diarrhea, colonic shortening, and histopathological damage in colitic mice. The substance increased antioxidant activity while reducing high levels of pro-inflammatory cytokines in the colon, including as TNF-α, IL-1β, and IL-6. BBR-EVO inhibited the DSS-induced decrease in the tight junction proteins ZO-1 and occludin, according to immunohistochemistry. 16S rRNA sequencing demonstrated BBR-EVO partially attenuated DSS-elicited intestinal dysbiosis, reducing opportunistic pathogens and restoring diminished beneficial taxa. Critically, BBR-EVO alleviated secondary hepatic injury in colitic mice, mitigating immune cell infiltration, oxidative stress, cytokine production, and ultrastructural damage, likely by beneficially modulating gut-liver crosstalk. This study reveals BBR-EVO, derived from a traditional Chinese medicine, confers multi-target protective effects in experimental colitis and associated hepatic pathology, warranting further evaluation as a potential therapy for inflammatory bowel diseases like UC. The mechanisms may involve simultaneous augmentation of intestinal barrier integrity, inhibition of inflammation, microbiota regulation, and gut-liver axis optimization. [ABSTRACT FROM AUTHOR]

Published

2024

45. 植物乳植杆菌 NXU0011 发酵枸杞产物对溃疡性 结肠炎小鼠代谢物质的影响.

Author

王燕红, 聂明霞, 翟 茹, 张海燕, 冀 权, 霍龙璇, 乔 晨, and 潘 琳

Subjects

ORAL drug administration, LACTOBACILLUS plantarum, ULCERATIVE colitis, SODIUM sulfate, DEXTRAN sulfate

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

46. 壳聚糖‐虾青素纳米颗粒缓解小鼠结肠炎.

Author

梁雯菁, 张文, 张新平, 吕心怡, 曲奥, and 吴子健

Subjects

INFLAMMATORY bowel diseases, ULCERATIVE colitis, SODIUM sulfate, DEXTRAN sulfate, ASTAXANTHIN, ZETA potential

Abstract

Copyright of Food Research & Development is the property of Food Research & Development Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

47. Curcumin suppresses colorectal tumorigenesis through restoring the gut microbiota and metabolites.

Author

Deng, Wenxin, Xiong, Xiaojian, Lu, Mingyang, Huang, Shibo, Luo, Yunfei, Wang, Yujie, and Ying, Ying

Subjects

*LIQUID chromatography-mass spectrometry, *GUT microbiome, *SODIUM sulfate, *DEXTRAN sulfate, *CURCUMIN

Abstract

Background: Curcumin has been reported to have activity for prevention and therapy of CRC, yet its underlying mechanisms remain largely unknown. Recently, emerging evidence suggests that the gut microbiota and its metabolites contribute to the causation and progression of Colorectal cancer (CRC). In this study, we aimed to investigate if curcumin affects the tumorigenesis of CRC by modulating gut microbiota and its metabolites. Methods: Forty male C57BL/6JGpt mice were randomly divided into four groups: negative control (NC), curcumin control, CRC model, and curcumin treatment (CRC-Cur) groups. CRC mouse model was induced by using azoxymethane (AOM) and dextran sodium sulfate (DSS), and the mice in CRC model and curcumin treatment groups received oral PBS or curcumin (150 mg/kg/day), respectively. Additionally, fecal samples were collected. 16 S rRNA sequencing and Liquid Chromatography Mass Spectrometry (LC-MS)-based untargeted metabolomics were used to observe the changes of intestinal flora and intestinal metabolites. Results: Curcumin treatment restored colon length and structural morphology, and significantly inhibited tumor formation in AOM/DSS-induced CRC model mice. The 16S rRNA sequencing analysis indicated that the diversity and richness of core and total species of intestinal microflora in the CRC group were significantly lower than those in the NC group, which were substantially restored in the curcumin treatment group. Curcumin reduced harmful bacteria, including Ileibacterium, Monoglobus and Desulfovibrio, which were elevated in CRC model mice. Moreover, curcumin increased the abundance of Clostridia_UCG-014, Bifidobacterium and Lactobacillus, which were decreased in CRC model mice. In addition, 13 different metabolites were identified. Compared to the NC group, ethosuximide, xanthosine, and 17-beta-estradiol 3-sulfate-17-(beta-D-glucuronide) were elevated in the CRC model group, whereas curcumin treatment significantly reduced their levels. Conversely, glutamylleucine, gamma-Glutamylleucine, liquiritin, ubenimex, 5'-deoxy-5'-fluorouridine, 7,8-Dihydropteroic acid, neobyakangelicol, libenzapril, xenognosin A, and 7,4'-dihydroxy-8-methylflavan were decreased in the CRC group but notably upregulated by curcumin. Kyoto Encyclopedia of Genes and Genome (KEGG) pathway analysis revealed enrichment in seven pathways, including folate biosynthesis (P < 0.05). Conclusions: The gut microecological balance was disrupted in AOM/DSS-induced CRC mice, accompanied by metabolite dysbiosis. Curcumin restored the equilibrium of the microbiota and regulated metabolites, highly indicating that curcumin may alleviate the development of AOM/DSS induced colorectal cancer in mice by regulating intestinal flora homeostasis and intestinal metabolites. [ABSTRACT FROM AUTHOR]

Published

2024

48. Vitamin B12 ameliorates gut epithelial injury via modulating the HIF-1 pathway and gut microbiota.

Author

Feng, Chenxi, Yan, Jinhua, Luo, Ting, Zhang, Hong, Zhang, Hu, Yuan, Yu, Chen, Yi, and Chen, Haiyang

Subjects

*INFLAMMATORY bowel diseases, *VITAMIN B12, *INTESTINAL diseases, *GUT microbiome, *DEXTRAN sulfate

Abstract

Inflammatory bowel diseases (IBDs) are immune chronic diseases characterized by recurrent episodes, resulting in continuous intestinal barrier damage and intestinal microbiota dysbiosis. Safe strategies aimed at stabilizing and reducing IBDs recurrence have been vigorously pursued. Here, we constructed a recurrent intestinal injury Drosophila model and found that vitamin B12 (VB12), an essential co-factor for organism physiological functions, could effectively protect the intestine and reduce dextran sulfate sodium-induced intestinal barrier disruption. VB12 also alleviated microbial dysbiosis in the Drosophila model and inhibited the growth of gram-negative bacteria. We demonstrated that VB12 could mitigate intestinal damage by activating the hypoxia-inducible factor-1 signaling pathway in injured conditions, which was achieved by regulating the intestinal oxidation. In addition, we also validated the protective effect of VB12 in a murine acute colitis model. In summary, we offer new insights and implications for the potential supportive role of VB12 in the management of recurrent IBDs flare-ups. [ABSTRACT FROM AUTHOR]

Published

2024

49. Cyclophilin J limits linear ubiquitin signaling and controls colorectal cancer progression.

Author

Chunjie Sheng, Chen Yao, Jing Wang, Yizhi Mao, Lingyi Fu, and Shuai Chen

Subjects

*PROGRESSION-free survival, *COLON cancer, *GASTROINTESTINAL cancer, *DEXTRAN sulfate, *PROTEIN domains, *ZINC-finger proteins, *NF-kappa B

Abstract

Exorbitant sustained inflammation is closely linked to inflammation-associated disorders, including cancer. The initiation of gastrointestinal cancers such as colorectal cancer is frequently accelerated by uncontrollable chronic inflammation which is triggered by excessive activation of nuclear factor kappa-B (NF-κB) signaling. Linear ubiquitin chains play an important role in activating canonical NF-κB pathway. The only known E3 complex, linear ubiquitin chain assembly complex is responsible for the synthesis of linear ubiquitin chains, thus leading to the activation of NF-κB axis and promoting the development of inflammation and inflammationassociated cancers. We report here cyclophilin J (CYPJ) which is a negative regulator of the linear ubiquitin chain assembly complex. The N terminus of CYPJ binds to the second Npl4 zinc finger (NZF) domain of HOIL-1-interacting protein and the ubiquitin-like domain of Shank-associated RH domain-interacting protein to disrupt the interaction between HOIL-1-interacting protein and Shank-associated RH domaininteracting protein and thus restrains linear ubiquitin chain synthesis and NF-κB activation. Cypj-deficient mice are highly susceptible to dextran sulfate sodium-induced colitis and dextran sulfate sodium plus azoxymethane-induced colon cancer. Moreover, CYPJ expression is induced by hypoxia. Patients with high expression of both CYPJ and hypoxiainducible factor-1a have longer overall survival and progression-free survival. These results implicate CYPJ as an unexpected robust attenuator of inflammation-driven tumorigenesis that exerts its effects by controlling linear ubiquitin chain synthesis in NF-κB signal pathway. [ABSTRACT FROM AUTHOR]

Published

2024

50. The Role of Claudins in the Pathogenesis of Dextran Sulfate Sodium-Induced Experimental Colitis: The Effects of Nobiletin.

Author

Al-Failakawi, Asmaa, Al-Jarallah, Aishah, Rao, Muddanna, and Khan, Islam

Subjects

*INFLAMMATORY bowel diseases, *CROHN'S disease, *ULCERATIVE colitis, *TIGHT junctions, *DEXTRAN sulfate

Abstract

Background: The pathogenesis of inflammatory bowel diseases such as ulcerative colitis and Crohn's disease is not well understood. This study investigated the roles and regulation of the claudin-1, -2, -3, and -4 isoforms in the pathogenesis of ulcerative colitis, and the potential therapeutic effects of nobiletin. Methods: Colitis was induced in rats by administering dextran sulfate sodium [DSS] in drinking water for seven days. Animals were treated daily with nobiletin [oral, 60 mg/Kg body weight] and studied in four groups, C [non-colitis control], D [DSS-induced colitis], CN [nobiletin-treated non-colitis control], and DN [nobiletin-treated DSS-induced colitis]. On day seven, the animals were sacrificed, and colonic tissues were collected and analyzed. Results: Both macroscopic and microscopic findings suggest the progression of colitis. In the inflamed colon, claudin-1 and -4 proteins were decreased, claudin-2 increased, while the claudin-3 protein remained unchanged. Except for claudin-1, these changes were not paralleled by mRNA expression, indicating a complex regulatory mechanism. Uniform β-actin expression along with consistent quality and yield of total RNA indicated selectivity of these changes. Nobiletin treatment reversed these changes. Conclusions: Altered expression of the claudin isoforms -1, -2, and -4 disrupts tight junctions, exposing the lamina propria to microflora, leading to electrolyte disturbance and the development of ulcerative colitis. Nobiletin with its anti-inflammatory properties may be useful in IBD. [ABSTRACT FROM AUTHOR]

Published

2024