N4BP1 regulates keratinocytes development and plays protective role in burn- and adhesive-related skin injury via MMP9.

Extensive studies have demonstrated critical roles of Regnase-1 in skin inflammation; however the role of N4BP1, a member of Regnase-1 family, in skin is largely unexplored. Here, we found that N4BP1 was highly expressed in skin and its expression was further increased upon skin injury. Compared to wildtype mice, N4BP1 deficient mice showed severe skin injury upon tape-stripping and burns. Overexpression of N4BP1 in HaCaT cells caused more cuboidal with higher cell-to-cell packing, while reduced expression of N4BP1 made cells become more spindle shaped and loosely packed. Overexpression of N4BP1 promoted cell migration, while silence of N4BP1 reduced migration. N4BP1 deficient HaCaT cells were more sensitive to heats compared to control cells. RNA profiling in N4BP1 genetically modified cells demonstrated that N4BP1 broadly affects cellular behaviors such as epithelium development. RNA profiling, RT-PCR verification, WB analysis and RNA immunoprecipitation demonstrated that MMP9 was one of N4BP1 targets that significantly increased in N4BP1 deficient HaCaT cells and skin tissues. Collectively, our results demonstrate a protective role of N4BP1 in skin injury through broadly affecting cellular behaviors of keratinocytes. Furthermore, we identified MMP9 is a target of N4BP1 in keratinocytes. Our findings provide new insight to understand how N4BP1 protects skin under injury.