7 research outputs found
Evidence on the exposure Index’s substitution effect in assessing brook pollution risk in urban–rural fringe
Brooks are significant ecological sources and migration channels of material flow as well as energy flow in urban–rural fringes. Despite their significance, the absence of monitoring data poses challenges in assessing brook pollution risk. Taking Muli Brook as an example, a spatiotemporal variability of water quality was revealed through sample collection and water chemistry analysis. We reveal spatiotemporal variability of pollution and then developed an Exposure Index (EPI), verifying its substitution effect in assessing brook pollution risk. Our findings demonstrate a downward trend in pollution from 2020 to 2022, with exceptions in dissolved oxygen (DO) and pH. Notably, more severe pollution is observed during spring and summer, influenced by seasonal production activities and extreme weather events. Despite the diminishing disparity near urban areas, the cumulative influence of upstream pollutants outweighs that of surrounding human activities. Stronger associations between pollution risks and water area EPI were observed, compared to those of construction land and farm land. In conclusion, EPI emerges as a valuable tool for assessing brook pollution risks in urban–rural fringes, offering precise insights into brook habitat characteristics, especially in the absence of consistent monitoring data
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Integrin Activation Controls Regulatory T Cell–Mediated Peripheral Tolerance
Maintenance of the regulatory T (Treg) cell pool is essential for peripheral tolerance and prevention of autoimmunity. Integrins, heterodimeric transmembrane proteins consisting of α and β subunits that mediate cell-to-cell and cell-to-extracellular matrix interactions, play an important role in facilitating Treg cell contact-mediated suppression. In this article, we show that integrin activation plays an essential, previously unappreciated role in maintaining murine Treg cell function. Treg cell-specific loss of talin, a β integrin-binding protein, or expression of talin(L325R), a mutant that selectively abrogates integrin activation, resulted in lethal systemic autoimmunity. This dysfunction could be attributed, in part, to a global dysregulation of the Treg cell transcriptome. Activation of integrin α4β1 led to increased suppressive capacity of the Treg cell pool, suggesting that modulating integrin activation on Treg cells may be a useful therapeutic strategy for autoimmune and inflammatory disorders. Taken together, these results reveal a critical role for integrin-mediated signals in controlling peripheral tolerance by virtue of maintaining Treg cell function
Integrin Activation Controls Regulatory T Cell–Mediated Peripheral Tolerance
Maintenance of the regulatory T (Treg) cell pool is essential for peripheral tolerance and prevention of autoimmunity. Integrins, heterodimeric transmembrane proteins consisting of α and β subunits that mediate cell-to-cell and cell-to-extracellular matrix interactions, play an important role in facilitating Treg cell contact-mediated suppression. In this article, we show that integrin activation plays an essential, previously unappreciated role in maintaining murine Treg cell function. Treg cell-specific loss of talin, a β integrin-binding protein, or expression of talin(L325R), a mutant that selectively abrogates integrin activation, resulted in lethal systemic autoimmunity. This dysfunction could be attributed, in part, to a global dysregulation of the Treg cell transcriptome. Activation of integrin α4β1 led to increased suppressive capacity of the Treg cell pool, suggesting that modulating integrin activation on Treg cells may be a useful therapeutic strategy for autoimmune and inflammatory disorders. Taken together, these results reveal a critical role for integrin-mediated signals in controlling peripheral tolerance by virtue of maintaining Treg cell function
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Heterogeneity and clonal relationships of adaptive immune cells in ulcerative colitis revealed by single-cell analyses.
Inflammatory bowel disease (IBD) encompasses a spectrum of gastrointestinal disorders driven by dysregulated immune responses against gut microbiota. We integrated single-cell RNA and antigen receptor sequencing to elucidate key components, cellular states, and clonal relationships of the peripheral and gastrointestinal mucosal immune systems in health and ulcerative colitis (UC). UC was associated with an increase in IgG1+ plasma cells in colonic tissue, increased colonic regulatory T cells characterized by elevated expression of the transcription factor ZEB2, and an enrichment of a γδ T cell subset in the peripheral blood. Moreover, we observed heterogeneity in CD8+ tissue-resident memory T (TRM) cells in colonic tissue, with four transcriptionally distinct states of differentiation observed across health and disease. In the setting of UC, there was a marked shift of clonally related CD8+ TRM cells toward an inflammatory state, mediated, in part, by increased expression of the T-box transcription factor Eomesodermin. Together, these results provide a detailed atlas of transcriptional changes occurring in adaptive immune cells in the context of UC and suggest a role for CD8+ TRM cells in IBD