Project description:Oncopeltus fasciatus RNAseq

Project description:Oncopeltus fasciatus overview

Project description:Oncopeltus fasciatus genome sequencing project

Project description:Oncopeltus fasciatus Transcriptome or Gene expression

Project description:Whole genome assembly of Oncopeltus fasciatus using multiple sequencing technologies.

Project description:The maternal and early embryonic transcriptome of the milkweed bug Oncopeltus fasciatus

Project description:Whole hearts from wild-type and Na,K-ATPase alpha 1 het. mice. Adult male, 8-16 weeks old on a 129/BSwiss background. Keywords: repeat sample

Project description:Whole hearts from wild-type and Na,K-ATPase alpha 1 het. mice. Adult male, 8-16 weeks old on a 129/BSwiss background.

Project description:Familial hemiplegic migraine is an episodic neurological disorder characterized by transient sensory and motor symptoms and signs. Mutations of the ion pump alpha2-Na/K ATPase represent a key genetic cause of familial hemiplegic migraine, but the mechanisms by which alpha2-Na/K ATPase mutations lead to the migraine phenotype remain incompletely understood. Here, we unexpectedly find that mice in which alpha2-Na/K ATPase is conditionally deleted in astrocytes display episodic transient motor paralysis. Functional neuroimaging reveals that conditional knockout of alpha2-Na/K ATPase triggers spontaneous cortical spreading depression events that are associated with low voltage activity events upon EEG monitoring, which in turn correlate with transient motor impairment in these mice. Transcriptomic and metabolomic analyses show that loss of alpha2-Na/K ATPase alters metabolic gene expression in astrocytes in vivo with consequent elevation of serine and glycine in the brain. Strikingly, feeding alpha2-Na/K ATPase knockout mice a serine- and glycine-free diet reverses the phenotype of transient motor impairment. Together, our findings define a novel metabolic mechanism regulated by astrocytic alpha2-Na/K ATPase that triggers episodic transient motor paralysis in mice, laying the foundation for potential new treatment strategies for patients with familial hemiplegic migraine.

Project description:Exposure to hypoxia requires adaptive mechanisms for survival. During acute hypoxia, Na,K-ATPase endocytosis in alveolar epithelial cells (AEC) occurs via protein kinase C zeta (PKCζ) phosphorylation of α1- Na,K-ATPase independently of the hypoxia inducible factor (HIF). However, exaggerated Na,K-ATPase down-regulation leads to cell death. Here we report that during prolonged hypoxia plasma membrane Na,K-ATPase levels were maintained at ~50% of normoxic values due to HIF mediated regulation of HOIL-1L which targets PKCζ for degradation. Silencing HOIL-1L in the lung epithelium prevented PKCζ degradation causing Na,K-ATPase downregulation. Accordingly, HIF regulation of HOIL-1L targets the phosphorylated PKCζ for degradation and serves as an hypoxia-adaptive mechanism to stabilize the Na,K-ATPase avoiding significant lung injury.