Abstract
Nuclear inhibitor of protein phosphatase 1 (NIPP1) is a known regulator of gene expression and plays roles in many physiological or pathological processes such as stem cell proliferation and skin inflammation. While NIPP1 has many regulatory roles in proliferating cells, its function in the central nervous system (CNS) has not been directly investigated. In the present study, we examined NIPP1 CNS function using a conditional knockout (cKO) mouse model in which the Nipp1 gene is excised from neural precursor cells. These mice exhibited severe developmental impairments that led to premature lethality. To delineate the neurological changes occurring in these animals, we first assessed microtubule-associated protein tau, a known target of NIPP1 activity. We found that phosphorylation of tau is significantly enhanced in NIPP1 cKO mice. Consistent with this, we found altered AKT and PP1 activity in NIPP1 cKO mice, suggesting that increased tau phosphorylation likely results from a shift in kinase/phosphatase activity. Secondly, we observed tremors in the NIPP1 cKO mice which prompted us to explore the integrity of the myelin sheath, an integral structure for CNS function. We demonstrated that in NIPP1 cKO mice, there is a significant decrease in MBP protein expression in the cortex, along with deficits in both the conduction of compound action potentials (CAP) and the percentage of myelinated axons in the optic nerve. Our study suggests that NIPP1 in neural precursor cells regulates phosphorylation of tau and CNS myelination and may represent a novel therapeutic target for neurodegenerative diseases.
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