Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:CD4+ regulatory T cells (Tregs) activate and expand in response to many different types of injuries, suggesting that they play a critical role in controlling the host response to tissue damage. Here we use multi-dimensional profiling techniques to comprehensively characterize injury responsive Tregs in mice. CD44high Tregs expand in response to injury and are more suppressive than CD44low Tregs. T cell receptor (TCR) analysis reveal that CD44high Tregs undergo TCRαβ clonal expansion and increased CDR3 diversity in response to injury. Bulk and single-cell RNA sequencing with paired TCR clonotype analysis demonstrate that important Treg-associated genes were significantly differentially expressed in both CD44high and CD44low Tregs with expanded TCR clonotypes. CyTOF analysis verified protein expression of these genes on CD44high Tregs, with increases in Helios, Galectin-3 and PYCARD expression following injury. Collectively, these data provide new insights into CD44high Tregs, an important subset in the response to injury to tissue damage.

Project description:CD4+ regulatory T cells (Tregs) activate and expand in response to many different types of injuries, suggesting that they play a critical role in controlling the host response to tissue damage. Here we use multi-dimensional profiling techniques to comprehensively characterize injury responsive Tregs in mice. CD44high Tregs expand in response to injury and are more suppressive than CD44low Tregs. T cell receptor (TCR) analysis reveal that CD44high Tregs undergo TCRαβ clonal expansion and increased CDR3 diversity in response to injury. Bulk and single-cell RNA sequencing with paired TCR clonotype analysis demonstrate that important Treg-associated genes were significantly differentially expressed in both CD44high and CD44low Tregs with expanded TCR clonotypes. CyTOF analysis verified protein expression of these genes on CD44high Tregs, with increases in Helios, Galectin-3 and PYCARD expression following injury. Collectively, these data provide new insights into CD44high Tregs, an important subset in the response to injury to tissue damage.

Project description:Multi-Dimensional Profiling Reveals a Molecularly Distinct Injury-Responsive Population of Regulatory T Cells

Project description:Multi-Dimensional Profiling Reveals a Molecularly Distinct Injury-Responsive Population of Regulatory T Cells [scRNA-seq]

Project description:Multi-Dimensional Profiling Reveals a Molecularly Distinct Injury-Responsive Population of Regulatory T Cells [Bulk RNA-seq]

Project description:Shape is a critical element of the visual appeal of strawberry fruit and is influenced by both genetic and non-genetic determinants. Current fruit phenotyping approaches for external characteristics in strawberry often rely on the human eye to make categorical assessments. However, fruit shape is an inherently multi-dimensional, continuously variable trait and not adequately described by a single categorical or quantitative feature. Morphometric approaches enable the study of complex, multi-dimensional forms but are often abstract and difficult to interpret. In this study, we developed a mathematical approach for transforming fruit shape classifications from digital images onto an ordinal scale called the Principal Progression of k Clusters (PPKC). We use these human-recognizable shape categories to select quantitative features extracted from multiple morphometric analyses that are best fit for genetic dissection and analysis. We transformed images of strawberry fruit into human-recognizable categories using unsupervised machine learning, discovered 4 principal shape categories, and inferred progression using PPKC. We extracted 68 quantitative features from digital images of strawberries using a suite of morphometric analyses and multivariate statistical approaches. These analyses defined informative feature sets that effectively captured quantitative differences between shape classes. Classification accuracy ranged from 68% to 99% for the newly created phenotypic variables for describing a shape. Our results demonstrated that strawberry fruit shapes could be robustly quantified, accurately classified, and empirically ordered using image analyses, machine learning, and PPKC. We generated a dictionary of quantitative traits for studying and predicting shape classes and identifying genetic factors underlying phenotypic variability for fruit shape in strawberry. The methods and approaches that we applied in strawberry should apply to other fruits, vegetables, and specialty crops.

Project description:Regulatory T cells (Tregs) play an important role in controlling alloreactivity after solid organ transplantation, but they may also impair antiviral immunity. We hypothesized that the Treg frequency and the Treg phenotype are altered in hepatitis C virus (HCV)-infected recipients of liver transplantation (LT) with possible prognostic implications. Tregs from 141 individuals, including healthy individuals, LT recipients with or without persistent HCV infections, and nontransplant patients with chronic HCV, were studied. A comprehensive phenotypic analysis was performed with multicolor flow cytometry, which included standard Treg markers [CD4(+), CD25(hi), CD127(-), and FoxP3(+) in addition to HLA DR, CCR7, CD45RA, CD62L, CD49d, CD39, ICOS and LAP-TGF? stainings. Healthy individuals and LT patients displayed similar Treg frequencies and largely comparable Treg phenotypes, which were stable over time after transplantation. In contrast, Tregs with a CD45RA(-) CCR7(-) effector phenotype were enriched in LT recipients with chronic HCV versus HCV-negative transplant patients. HCV infection, rather than LT, altered the expression of functional markers on Tregs. A principal component analysis revealed distinct Treg phenotypes in HCV-infected LT recipients with rejection and patients with recurrent graft HCV. In conclusion, Treg phenotypes are altered in HCV-infected LT patients. An investigation of Tregs may possibly help to distinguish recurrent HCV from graft rejection. Further functional studies are needed to define the role of Tregs in determining the balance between antiviral and allogenic immunity.

Project description:Aging is associated with tissue-level changes in cellular composition that are correlated with increased susceptibility to disease. Aging human mammary tissue shows skewed progenitor cell potency, resulting in diminished tumor-suppressive cell types and the accumulation of defective epithelial progenitors. Quantitative characterization of these age-emergent human cell subpopulations is lacking, impeding our understanding of the relationship between age and cancer susceptibility. We conducted single-cell resolution proteomic phenotyping of healthy breast epithelia from 57 women, aged 16-91 years, using mass cytometry. Remarkable heterogeneity was quantified within the two mammary epithelial lineages. Population partitioning identified a subset of aberrant basal-like luminal cells that accumulate with age and originate from age-altered progenitors. Quantification of age-emergent phenotypes enabled robust classification of breast tissues by age in healthy women. This high-resolution mapping highlighted specific epithelial subpopulations that change with age in a manner consistent with increased susceptibility to breast cancer.

Project description:ObjectivesRheumatoid arthritis (RA) is an autoimmune disease accompanied by lymphocyte infiltration into joint synovium. While T cells are considered to be important for its pathogenesis, the features that are the most relevant to disease and how they change after treatment remain unclear. The aim of this study was to clarify the characteristics of T cells in RA, comprehensively.MethodsWe enrolled a total of 311 patients with RA and 73 healthy participants, and carefully classified them by disease state, constructed multiple cohorts and analysed clinical samples from them in a stepwise manner. We performed immunophenotyping with multiple evaluation axes, and two independent transcriptome analyses complementary to each other.ResultsWe identified that 'effector memory-Tfh' subset was specifically expanded in the peripheral blood (PB) of patients with RA in correlation with disease activity, and reverted after treatment. Besides, we revealed distinct features of T cells in synovial fluid (SF) that the expression of Tfh/Tph-related genes and pro-inflammatory cytokines and chemokines, including CXCL13, were significantly enriched, whereas these phenotype were Th1-like. Finally, we identified specific pathways, such as mTORC1, IL-2-stat5, E2F, cell cycle and interferon-related genes, that were significantly enriched in SF, in particular, as well as PB of untreated patients with RA, and notably, these features reverted after treatment.ConclusionOur multi-dimensional investigation identified disease relevant T-cell subsets and gene signatures deeply involved in pathogenesis of RA. These findings could aid in our understanding of essential roles of T cells in RA and will facilitate to development better diagnostic and therapeutic interventions.