RÉSUMÉ
Objective:To assess the clinical significance of nasal nitric oxide(NNO) levels in children with sleep disordered breathing(SDB).Method:Thirty children with SDB and twenty healthy children were enrolled. The NNO levels were measured non-invasively using a NIOX MINO system. SPSS statistics 20.0 software was used to analyze the data. Result:Compared to healthy children,NNO level was significant higher in children with SDB(Z=-2.215,P<0.05) .Correlation analysis showed that SDB children's NNO level was directly correlated with AHI(r=0.429,P<0.05),and it was inversely correlated with nadir SaO2(r=-0.482,P<0.01).But NNO level was not significantly correlated with other polysomnographic parameters. Conclusion:Our data suggested that NNO levels might be useful for evaluating the disease severity in SDB children.
Sujet(s)
Inflammation , Appareil respiratoire/anatomopathologie , Syndromes d'apnées du sommeil/immunologie , Études cas-témoins , Enfant , Humains , Monoxyde d'azote , Nez , Polysomnographie , Syndromes d'apnées du sommeil/anatomopathologieRÉSUMÉ
Protein serine/threonine phosphatase-2A (PP-2A) is one of the key enzymes responsible for dephosphorylation in vertebrates. PP-2A-mediated dephosphorylation participates in many different biological processes including cell proliferation, differentiation, transformation, apoptosis, autophage and senescence. However, whether PP-2A directly controls animal development remains to be explored. Here, we present direct evidence to show that PP-2A displays important functions in regulating eye development of vertebrates. Using goldfish as a model system, we have demonstrated the following novel information. First, inhibition of PP-2A activity leads to significant death of the treated embryos, which is derived from blastomere apoptosis associated with enhanced phosphorylation of Bcl-XL at Ser-62, and the survived embryos displayed severe phenotype in the eye. Second, knockdown of PP-2A with morpholino oligomers leads to significant death of the injected embryos. The survived embryos from PP-2A knockdown displayed clear retardation in lens differentiation. Finally, overexpression of each catalytic subunit of PP-2A also causes death of majority of the injected embryos and leads to absence of goldfish eye lens or severely disturbed differentiation. Together, our results provide direct evidence that protein phosphatase-2A is important for normal eye development in goldfish.