Project description:To investigate different responses of dural macrophage subsets to systemic viral infection, we collected the dura mater from mice 12 h after systemic LCMV infection and macrophages were sorted

Project description:To investigate cellular landscape of dural immune cells, dural immune cells from 30 P28 male mice and 30 P7 male mice were FACS sorted and single-cell RNA seqs were performed

Project description:The dural innate immune barrier protects the CNS from systemic virus invasion

Project description:The dural innate immune barrier protects the CNS from systemic virus invasion [CD45_10X]

Project description:The dural innate immune barrier protects the CNS from systemic virus invasion [MHCII_10X]

Project description:The dural innate immune barrier protects the CNS from systemic virus invasion [EC_10X]

Project description:Opposing Roles of Hepatic Stellate Cell Subpopulations in Hepatocarcinogenesis

Project description:To determine whether dural fibroblasts (DuF) under IL-1β-mediated wound conditions, release pro-angiogenic factors, and promote angiogenic properties in human endothelial cells (ECs). DuF were stimulated by pro-inflammatory cytokines interleukin (IL)-1β, and transcriptome sequencing was then used to identify the differentially expressed genes in the DuF with/without IL-1β stimulation (DuFCon/DuFIL1b)

Project description:AMSC CD36+ subpopulations

Project description:The hydrothermal vent tubeworm Riftia pachyptila hosts a single 16S rRNA phylotype of intracellular sulfur-oxidizing symbionts, which vary considerably in cell morphology and exhibit a remarkable degree of physiological diversity and redundancy, even in the same host. To elucidate whether multiple metabolic routes are employed in the same cells or rather in distinct symbiont subpopulations, we enriched symbionts according to cell size by density gradient centrifugation. Metaproteomic analysis, microscopy, and flow cytometry strongly suggest that Riftia symbiont cells of different sizes represent metabolically dissimilar stages of a physiological differentiation process: While small symbionts actively divide and may establish cellular symbiont-host interaction, large symbionts apparently do not divide, but still replicate DNA, leading to DNA endoreduplication. Moreover, in large symbionts, carbon fixation and biomass production seem to be metabolic priorities. We propose that this division of labor between smaller and larger symbionts benefits the productivity of the symbiosis as a whole.