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1.
Nutrients ; 16(9)2024 Apr 28.
Article in English | MEDLINE | ID: mdl-38732577

ABSTRACT

BACKGROUND: Cadmium (Cd) is an environmental contaminant that poses risks to human and animal health. Selenium (Se), a beneficial element, alleviates the detrimental consequences of colitis and Cd toxicity. Se is found in food products as both inorganic Se (sodium selenite) and organic Se (typically Se-enriched yeast). Nano-selenium (nano-Se; a novel form of Se produced through the bioreduction of Se species) has recently garnered considerable interest, although its effects against Cd-induced enterotoxicity are poorly understood. The aim of this study was to investigate the impact of nano-selenium on mitigating cadmium toxicity and safeguarding the integrity of the intestinal barrier. METHODS: For a total of two cycles, we subjected 6-week-old C57 mice to chronic colitis by exposing them to Cd and nano-selenium for two weeks, followed by DSS water for one week. RESULTS: The application of nano-selenium mitigated the intensity of colitis and alleviated inflammation in the colon. Nano-selenium enhanced the diversity of the intestinal flora, elevated the concentration of short-chain fatty acids (SCFAs) in feces, and improved the integrity of the intestinal barrier. CONCLUSIONS: In summary, nano-Se may reduce intestinal inflammation by regulating the growth of intestinal microorganisms and protecting the intestinal barrier.


Subject(s)
Cadmium , Colitis , Gastrointestinal Microbiome , Mice, Inbred C57BL , Selenium , Animals , Colitis/chemically induced , Colitis/drug therapy , Selenium/pharmacology , Gastrointestinal Microbiome/drug effects , Mice , Colon/drug effects , Colon/metabolism , Colon/microbiology , Male , Chronic Disease , Disease Models, Animal , Nanoparticles , Fatty Acids, Volatile/metabolism , Feces/microbiology , Dextran Sulfate , Intestinal Mucosa/drug effects , Intestinal Mucosa/metabolism , Intestinal Mucosa/microbiology
2.
Microb Cell Fact ; 13(1): 44, 2014 Mar 21.
Article in English | MEDLINE | ID: mdl-24649897

ABSTRACT

BACKGROUND: Recombinant proteins fused with specific cleavage sequences are widely used as substrate for quantitatively analyzing the activity of proteases. Here we propose a new fusion platform for multiple proteases, by using diaminopropionate ammonia-lyase (DAL) as the fusion protein. It was based on the finding that a fused His6-tag could significantly decreases the activities of DAL from E. coli (eDAL) and Salmonella typhimurium (sDAL). Previously, we have shown that His6GST-tagged eDAL could be used to determine the activity of tobacco etch virus protease (TEVp) under different temperatures or in the denaturant at different concentrations. In this report, we will assay different tags and cleavage sequences on DAL for expressing yield in E. coli, stability of the fused proteins and performance of substrate of other common proteases. RESULTS: We tested seven different protease cleavage sequences (rhinovirus 3C, TEV protease, factor Xa, Ssp DnaB intein, Sce VMA1 intein, thrombin and enterokinase), three different tags (His6, GST, CBD and MBP) and two different DALs (eDAL and sDAL), for their performance as substrate to the seven corresponding proteases. Among them, we found four active DAL-fusion substrates suitable for TEVp, factor Xa, thrombin and DnaB intein. Enterokinase cleaved eDAL at undesired positions and did not process sDAL. Substitution of GST with MBP increase the expression level of the fused eDAL and this fusion protein was suitable as a substrate for analyzing activity of rhinovirus 3C. We demonstrated that SUMO protease Ulp1 with a N-terminal His6-tag or MBP tag displayed different activity using the designed His6SUMO-eDAL as substrate. Finally, owing to the high level of the DAL-fusion protein in E. coli, these protein substrates can also be detected directly from the crude extract. CONCLUSION: The results show that our designed DAL-fusion proteins can be used to quantify the activities of both sequence- and conformational-specific proteases, with sufficient substrate specificity.


Subject(s)
Ammonia-Lyases/metabolism , Recombinant Fusion Proteins/biosynthesis , 3C Viral Proteases , Amino Acid Motifs/genetics , Ammonia-Lyases/genetics , Cysteine Endopeptidases/metabolism , Endopeptidases/metabolism , Enteropeptidase/metabolism , Escherichia coli/enzymology , Escherichia coli/metabolism , Factor Xa/metabolism , Glutathione Transferase/genetics , Glutathione Transferase/metabolism , Histidine/genetics , Histidine/metabolism , Maltose-Binding Proteins/genetics , Maltose-Binding Proteins/metabolism , Oligopeptides/genetics , Oligopeptides/metabolism , Recombinant Fusion Proteins/genetics , Recombinant Fusion Proteins/isolation & purification , Salmonella typhimurium/enzymology , Substrate Specificity , Thrombin/metabolism , Viral Proteins/metabolism
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