Project description: Not available

Project description:To delineate the in vivo function of NIPP1 in epidermal homeostasis, we generated skin-specific NIPP1 knockout (SKO) mice where NIPP1 is conditionally removed from keratinocytes. To gain unbiased insight into the molecular mechanism that underlies the hyperproliferation phenotype, we performed RNA-seq of the isolated epidermis of control (CTR) and SKO mice.

Project description: Not available

Project description: Not available

Project description:The phosphatase regulator NIPP1 controls epidermal homeostasis

Project description:The deletion of the protein phosphatase-1 (PP1) regulator NIPP1 is embryonic lethal during gastrulation, hinting at a key role of PP1-NIPP1 in lineage specification. Consistent with this notion we show here that a mild, stable overexpression of NIPP1 in HeLa cells caused a massive induction of genes of the mesenchymal lineage, in particular smooth/cardiac-muscle and matrix markers. This reprogramming was associated with the formation of actin-based stress fibers and retracting filopodia, and a reduced proliferation potential. The NIPP1-induced mesenchymal transition required functional substrate and PP1-binding domains, suggesting that it involves the selective dephosphorylation of substrates of PP1-NIPP1.

Project description: Not available

Project description:The deletion of the protein phosphatase-1 (PP1) regulator NIPP1 is embryonic lethal during gastrulation, hinting at a key role of PP1-NIPP1 in lineage specification. Consistent with this notion we show here that a mild, stable overexpression of NIPP1 in HeLa cells caused a massive induction of genes of the mesenchymal lineage, in particular smooth/cardiac-muscle and matrix markers. This reprogramming was associated with the formation of actin-based stress fibers and retracting filopodia, and a reduced proliferation potential. The NIPP1-induced mesenchymal transition required functional substrate and PP1-binding domains, suggesting that it involves the selective dephosphorylation of substrates of PP1-NIPP1. In total 16 samples were processed. Four different cell lines were analysed: HTO_parental, HTO_NIPP1wt, HTO_NIPP1m (= alias NIPP1-Pm) and HTO_NIPP1-Pa. For each cell line 4 replicates were obtained. The HTO_parental cell line is the control cell line. For the HTO_NIPP1wt and the HTO_NIPP1-Pa the 4 replicates were obtained from two replicates of two different transgenic cell lines expressing FlagNIPP1wt (cell line wt n°1 and 2) and FlagNIPP1-Pa (cell line n°1 and 2), respectively. Each cell line was derived from the same parental control cell line.

Project description: Not available

Project description: Not available