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Berlin Brandenburg

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  • 1
    In: EMBO Journal, 03 December 2018, Vol.37(23), pp.n/a-n/a
    Description: While mucosal inflammation is a major source of stress during enteropathogen infection, it remains to be fully elucidated how the host benefits from this environment to clear the pathogen. Here, we show that host stress induced by different stimuli mimicking inflammatory conditions strongly reduces the binding of to epithelial cells. Mechanistically, stress activates acid sphingomyelinase leading to host membrane remodeling. Consequently, knockdown or pharmacological inhibition of the acid sphingomyelinase blunts the stress‐dependent inhibition of binding to host cells. Interestingly, stress caused by intracellular replication also results in remodeling of the host cell membrane, and , which precludes re‐infection by this and other non‐motile pathogens. In contrast, Typhimurium overcomes the shortage of permissive entry sites by gathering effectively at the remaining platforms through its flagellar motility. Overall, our findings reveal host membrane remodeling as a novel stress‐responsive cell‐autonomous defense mechanism that protects epithelial cells from infection by non‐motile bacterial pathogens. Stress‐induced host membrane remodeling constitutes a novel cell‐autonomous defensive mechanism that protects epithelial cells from infection by and other non‐motile bacterial pathogens. Host oxidative stress strongly reduces S. flexneri binding to epithelial cells. Stress leads to host membrane remodeling, via activation of the acid sphingomyelinase by the MAPK p38 pathway, resulting in the formation of ceramide domains. Intracellular Shigella replication induces remodeling of the host cell membrane, in vitro and in vivo. Stress‐induced host membrane remodeling precludes re‐infection by non‐motile pathogens; motile pathogens are able to overcome this barrier through flagellar motility. Host membrane remodeling is a cell‐autonomous defense mechanism that protects epithelial cells from infection by .
    Keywords: Acid Sphingomyelinase ; Host Stress Response ; Membrane Remodeling ; Salmonella ; Shigella
    ISSN: 0261-4189
    E-ISSN: 1460-2075
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  • 2
    In: Land Degradation & Development, September 2018, Vol.29(9), pp.3112-3126
    Description: Bioeconomy strategies have been adopted in many countries around the world. Their sustainable implementation requires a management of soils that maintains soil functions and avoids land degradation. Only then, ecosystem services can be maintained and resources used efficiently. We present an analytical framework for impact assessment that links policy and technology driving forces for soil management decisions to soil processes, soil functional changes, and their impacts on ecosystem services and resource use efficiency, both being targets that have been set by society and are anchored in bioeconomy policy strategies and sustainable development goals. Although the resource use efficiency concept has a long‐term tradition, most studies of agricultural management do not address the role of soils in their efficiency assessment. The concept of ecosystem services has received increasing attention over the last years; however, its link to soil functions and soil management practices is still not well established. This study is the first to conceptually link the socioeconomic processes of external drivers for soil management with the natural processes of soil functions and connect them back to impacts on the social system. Application of the framework helps strengthen the science‐policy interface and to systemically assess and compare the opportunities and threats of soil management practices from the perspective of goals set by society at different spatial and temporal scales. Insights gained in this way can be applied in stakeholder decision‐making processes and used to inform the design of governance instruments aimed at sustainable soil management within a bioeconomy.
    Keywords: Bioeconomy ; Ecosystem Services ; Impact Assessment ; Resource Use Efficiency ; Soil Management Practices ; Sustainable Development Goals
    ISSN: 1085-3278
    E-ISSN: 1099-145X
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