Project description:In this study we exposed three human lung derived cell lines to sublethal dosages of nanomaterials for a limited amount of time. For the first time, we assessed the simultaneous effects of nanomaterials exposure on three distinct molecular layers along with their interactions in the determination of the MOA of 10 carbon based nanomaterials. By performing an integrative analysis we provide here a complete picture of the interaction between regulatory factors (DNA methylation and miRNAs) and mRNA deregulation subsequent to exposing different cellular systems to different nanomaterials.
Project description:In this study we exposed three human lung derived cell lines to sublethal dosages of nanomaterials for a limited amount of time. For the first time, we assessed the simultaneous effects of nanomaterials exposure on three distinct molecular layers along with their interactions in the determination of the MOA of 10 carbon based nanomaterials. By performing an integrative analysis we provide here a complete picture of the interaction between regulatory factors (DNA methylation and miRNAs) and mRNA deregulation subsequent to exposing different cellular systems to different nanomaterials.
Project description:In this study we exposed three human lung derived cell lines to sublethal dosages of nanomaterials for a limited amount of time. For the first time, we assessed the simultaneous effects of nanomaterials exposure on three distinct molecular layers along with their interactions in the determination of the MOA of 10 carbon based nanomaterials. By performing an integrative analysis we provide here a complete picture of the interaction between regulatory factors (DNA methylation and miRNAs) and mRNA deregulation subsequent to exposing different cellular systems to different nanomaterials.
Project description:Six different carbon nanomaterials (CNM) administered by oropharyngeal aspiration to C57BL/6 mice (on 4 consecutive days with 10ug of CNM per day in PBS, sacrificed on 5th day) and to differentiated THP-1 cells in culture (6 hour and 24 hour, with 100ug of CNM /ml of medium)
Project description:Six different carbon nanomaterials (CNM) administered by oropharyngeal aspiration to C57BL/6 mice (on 4 consecutive days with 10ug of CNM per day in PBS, sacrificed on 5th day) and to differentiated THP-1 cells in culture (6 hour and 24 hour, with 100ug of CNM /ml of medium)
Project description:Lactobacillus plantarum WCFS1 was grown under anaerobic carbon-limited conditions in a chemostat with complete biomass retention (retentostat). In this cultivation system, the biomass concentration progressively increases while the dilution rate is kept constant, resulting in decreased specific susbtrate availibility, and hence, a progressive decrease in the specific growth rate. During the progressive transition from growth to virtually no growth, the global changes occurring at the level of metabolism and gene expression were studied using a genome-scale metabolic model and DNA microarrays.
Project description:C57BL/6 mice were exposed by oropharyngeal aspiration to 28 nanomaterials including different surface functionalizations on 4 concecutive days with the dose of 10ug/day. Total RNA was collected from the mice lung biopsies after sacrificing.
Project description:Lactobacillus plantarum WCFS1 was grown under anaerobic carbon-limited conditions in a chemostat with complete biomass retention (retentostat). In this cultivation system, the biomass concentration progressively increases while the dilution rate is kept constant, resulting in decreased specific susbtrate availibility, and hence, a progressive decrease in the specific growth rate. During the progressive transition from growth to virtually no growth, the global changes occurring at the level of metabolism and gene expression were studied using a genome-scale metabolic model and DNA microarrays. Four different time-points are compared, corresponding to 4 different specific growth rates, and hence, 4 different ratios of energy used for maintenance and growth. The samples taken at the start of retentostat cultivation serves as a a reference sample, to which the three other samples (taken after 3 days, 17 days, and 31 days under retentostat conditions) are compared. No biological replicates: all samples were taken from the same retentostat fermentation.
Project description:To evaluate the biological effects at the transcriptional level of manufactured nanomaterials, we performed whole genome microarrays of rat alveolar macrophages (NR8383) exposed to multi-walled carbon nanotubes (MWCNTs) with different physicochemical properties.