[HTML][HTML] Axin1 Prevents Salmonella Invasiveness and Inflammatory Response in Intestinal Epithelial Cells
Background Axin1 and its homolog Axin2 are scaffold proteins essential for regulating Wnt
signaling. Axin-dependent regulation of Wnt is important for various developmental
processes and human diseases. However, the involvement of Axin1 and Axin2 in host
defense and inflammation remains to be determined. Methods/Principal Findings Here, we
report that Axin1, but not Axin2, plays an essential role in host-pathogen interaction
mediated by the Wnt pathway. Pathogenic Salmonella colonization greatly reduces the level …
signaling. Axin-dependent regulation of Wnt is important for various developmental
processes and human diseases. However, the involvement of Axin1 and Axin2 in host
defense and inflammation remains to be determined. Methods/Principal Findings Here, we
report that Axin1, but not Axin2, plays an essential role in host-pathogen interaction
mediated by the Wnt pathway. Pathogenic Salmonella colonization greatly reduces the level …
Background
Axin1 and its homolog Axin2 are scaffold proteins essential for regulating Wnt signaling. Axin-dependent regulation of Wnt is important for various developmental processes and human diseases. However, the involvement of Axin1 and Axin2 in host defense and inflammation remains to be determined.
Methods/Principal Findings
Here, we report that Axin1, but not Axin2, plays an essential role in host-pathogen interaction mediated by the Wnt pathway. Pathogenic Salmonella colonization greatly reduces the level of Axin1 in intestinal epithelial cells. This reduction is regulated at the posttranslational level in early onset of the bacterial infection. Further analysis reveals that the DIX domain and Ser614 of Axin1 are necessary for the Salmonella-mediated modulation through ubiquitination and SUMOylation.
Conclusion/Significance
Axin1 apparently has a preventive effect on bacterial invasiveness and inflammatory response during the early stages of infection. The results suggest a distinct biological function of Axin1 and Axin2 in infectious disease and intestinal inflammation while they are functionally equivalent in developmental settings.
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