Differential influence of molybdenum disulfide at the nanometer and micron scales in the intestinal metabolome and microbiome of mice

The molybdenum disulfide at the nanometer and micron scales induced the intestinal toxicity by the different toxic pathways.

[1]  F. Bäckhed,et al.  Obesity alters gut microbial ecology. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[2]  P. Turnbaugh,et al.  Microbial ecology: Human gut microbes associated with obesity , 2006, Nature.

[3]  David S. Wishart,et al.  HMDB: a knowledgebase for the human metabolome , 2008, Nucleic Acids Res..

[4]  A. Schwiertz,et al.  Microbiota and SCFA in Lean and Overweight Healthy Subjects , 2010, Obesity.

[5]  Y. Bao,et al.  The footprints of gut microbial-mammalian co-metabolism. , 2011, Journal of proteome research.

[6]  Falk Hildebrand,et al.  Inflammation-associated enterotypes, host genotype, cage and inter-individual effects drive gut microbiota variation in common laboratory mice , 2013, Genome Biology.

[7]  V. Tremaroli,et al.  Functional interactions between the gut microbiota and host metabolism , 2012, Nature.

[8]  J. Nicholson,et al.  Host-Gut Microbiota Metabolic Interactions , 2012, Science.

[9]  William A. Walters,et al.  Using QIIME to Analyze 16S rRNA Gene Sequences from Microbial Communities , 2012, Current protocols in microbiology.

[10]  A. Fodor,et al.  Stochastic changes over time and not founder effects drive cage effects in microbial community assembly in a mouse model , 2013, The ISME Journal.

[11]  M. Fischbach,et al.  A metabolomic view of how the human gut microbiota impacts the host metabolome using humanized and gnotobiotic mice , 2013, The ISME Journal.

[12]  Jesse R. Zaneveld,et al.  Predictive functional profiling of microbial communities using 16S rRNA marker gene sequences , 2013, Nature Biotechnology.

[13]  Andras Kis,et al.  Ultrasensitive photodetectors based on monolayer MoS2. , 2013, Nature nanotechnology.

[14]  Kai Yang,et al.  In vivo biodistribution and toxicology of functionalized nano-graphene oxide in mice after oral and intraperitoneal administration. , 2013, Biomaterials.

[15]  Robert G. Beiko,et al.  STAMP: statistical analysis of taxonomic and functional profiles , 2014, Bioinform..

[16]  Martin Pumera,et al.  MoS₂ exhibits stronger toxicity with increased exfoliation. , 2014, Nanoscale.

[17]  Angela C. Poole,et al.  Human Genetics Shape the Gut Microbiome , 2014, Cell.

[18]  Steven R. Tannenbaum,et al.  Arsenic Exposure Perturbs the Gut Microbiome and Its Metabolic Profile in Mice: An Integrated Metagenomics and Metabolomics Analysis , 2014, Environmental health perspectives.

[19]  Liang Cheng,et al.  Drug Delivery with PEGylated MoS2 Nano‐sheets for Combined Photothermal and Chemotherapy of Cancer , 2014, Advanced materials.

[20]  G. Kozma,et al.  Size-Dependent Toxicity Differences of Intratracheally Instilled Manganese Oxide Nanoparticles: Conclusions of a Subacute Animal Experiment , 2015, Biological Trace Element Research.

[21]  Lain‐Jong Li,et al.  Emerging energy applications of two-dimensional layered transition metal dichalcogenides , 2015 .

[22]  Hongqiang Ren,et al.  Metagenomic and metabolomic analysis of the toxic effects of trichloroacetamide-induced gut microbiome and urine metabolome perturbations in mice. , 2015, Journal of proteome research.

[23]  D. Shahbazzadeh,et al.  NMR-based metabonomics survey in rats envenomed by Hemiscorpius lepturus venom. , 2015, Toxicon : official journal of the International Society on Toxinology.

[24]  Meiying Wang,et al.  Differences in the Toxicological Potential of 2D versus Aggregated Molybdenum Disulfide in the Lung. , 2015, Small.

[25]  R. Pandey,et al.  Recent Advancement on the Optical Properties of Two-Dimensional Molybdenum Disulfide (MoS2) Thin Films , 2015 .

[26]  David S. Wishart,et al.  MetaboAnalyst 3.0—making metabolomics more meaningful , 2015, Nucleic Acids Res..

[27]  Pratikkumar Shah,et al.  Probing the biocompatibility of MoS2 nanosheets by cytotoxicity assay and electrical impedance spectroscopy , 2015, Nanotechnology.

[28]  I. Albert,et al.  Persistent Organic Pollutants Modify Gut Microbiota–Host Metabolic Homeostasis in Mice Through Aryl Hydrocarbon Receptor Activation , 2015, Environmental health perspectives.

[29]  Ian M. Marcus,et al.  Metal Oxide Nanoparticles Induce Minimal Phenotypic Changes in a Model Colon Gut Microbiota , 2015 .

[30]  Guoyao Wu,et al.  Amino acid metabolism in intestinal bacteria and its potential implications for mammalian reproduction. , 2015, Molecular human reproduction.

[31]  L. Campagnolo,et al.  New frontiers in nanotoxicology: Gut microbiota/microbiome-mediated effects of engineered nanomaterials. , 2016, Toxicology and applied pharmacology.

[32]  Jian Zhen Ou,et al.  Biosensors Based on Two-Dimensional MoS2 , 2016 .

[33]  Lorenza Putignani,et al.  Gut Microbiota Profiling: Metabolomics Based Approach to Unravel Compounds Affecting Human Health , 2016, Front. Microbiol..

[34]  Jenny R. Roberts,et al.  Evaluation of pulmonary and systemic toxicity following lung exposure to graphite nanoplates: a member of the graphene-based nanomaterial family , 2015, Particle and Fibre Toxicology.

[35]  Xu-xiang Zhang,et al.  Influences of graphene on microbial community and antibiotic resistance genes in mouse gut as determined by high-throughput sequencing. , 2016, Chemosphere.

[36]  A. Zherdev,et al.  Size-Dependent Differences in Biodistribution of Titanium Dioxide Nanoparticles After Sub-Acute Intragastric Administrations to Rats , 2016 .

[37]  R. Hurt,et al.  Chemical Dissolution Pathways of MoS2 Nanosheets in Biological and Environmental Media. , 2016, Environmental science & technology.

[38]  S. Mazmanian,et al.  Gut biogeography of the bacterial microbiota , 2015, Nature Reviews Microbiology.

[39]  Junseok Chae,et al.  Low Cytotoxicity and Genotoxicity of Two-Dimensional MoS2 and WS2. , 2016, ACS biomaterials science & engineering.

[40]  E. Balskus,et al.  Chemical transformation of xenobiotics by the human gut microbiota , 2017, Science.

[41]  J. P. Moraes-Filho,et al.  INTESTINAL MICROBIOTA IN DIGESTIVE DISEASES. , 2017, Arquivos de gastroenterologia.

[42]  A. Bianco,et al.  Enzymatic Biodegradability of Pristine and Functionalized Transition Metal Dichalcogenide MoS2 Nanosheets , 2017 .

[43]  Kai Yang,et al.  In Vivo Long‐Term Biodistribution, Excretion, and Toxicology of PEGylated Transition‐Metal Dichalcogenides MS2 (M = Mo, W, Ti) Nanosheets , 2016, Advanced science.

[44]  Wei Yu Wu,et al.  Two-dimensional transition metal dichalcogenide nanomaterials for combination cancer therapy. , 2017, Journal of materials chemistry. B.

[45]  Defu He,et al.  Chronic exposure to graphene‐based nanomaterials induces behavioral deficits and neural damage in Caenorhabditis elegans , 2017, Journal of applied toxicology : JAT.

[46]  J. Raes,et al.  The resilience of the intestinal microbiota influences health and disease , 2017, Nature Reviews Microbiology.

[47]  Deji Akinwande,et al.  Recent development of two-dimensional transition metal dichalcogenides and their applications , 2017 .

[48]  Ashutosh Kumar Singh,et al.  Novel Indole-fused benzo-oxazepines (IFBOs) inhibit invasion of hepatocellular carcinoma by targeting IL-6 mediated JAK2/STAT3 oncogenic signals , 2018, Scientific Reports.

[49]  Bing Wang,et al.  Acute Oral Administration of Single‐Walled Carbon Nanotubes Increases Intestinal Permeability and Inflammatory Responses: Association with the Changes in Gut Microbiota in Mice , 2018, Advanced healthcare materials.

[50]  B. Biță,et al.  In Vitro Human Microbiota Response to Exposure to Silver Nanoparticles Biosynthesized with Mushroom Extract , 2018, Nutrients.

[51]  He Huang,et al.  Dispersible MoS2 micro-sheets induced a proinflammatory response and apoptosis in the gills and liver of adult zebrafish , 2018, RSC advances.

[52]  S. Pillai,et al.  Toxicity of Nanomaterials: Exposure, Pathways, Assessment, and Recent Advances. , 2018, ACS biomaterials science & engineering.

[53]  Zhuang Liu,et al.  2D MoS2 Nanostructures for Biomedical Applications , 2018, Advanced healthcare materials.