Ying Xu

Publications (6)93.86 Total impact

• Article: Dopamine dysregulation in a mouse model of paroxysmal nonkinesigenic dyskinesia.

  Hsien-yang Lee, Junko Nakayama, Ying Xu, Xueliang Fan, Maha Karouani, Yiguo Shen, Emmanuel N Pothos, Ellen J Hess, Ying-Hui Fu, Robert H Edwards, Louis J Ptácek
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  ABSTRACT: Paroxysmal nonkinesigenic dyskinesia (PNKD) is an autosomal dominant episodic movement disorder. Patients have episodes that last 1 to 4 hours and are precipitated by alcohol, coffee, and stress. Previous research has shown that mutations in an uncharacterized gene on chromosome 2q33-q35 (which is termed PNKD) are responsible for PNKD. Here, we report the generation of antibodies specific for the PNKD protein and show that it is widely expressed in the mouse brain, exclusively in neurons. One PNKD isoform is a membrane-associated protein. Transgenic mice carrying mutations in the mouse Pnkd locus equivalent to those found in patients with PNKD recapitulated the human PNKD phenotype. Staining for c-fos demonstrated that administration of alcohol or caffeine induced neuronal activity in the basal ganglia in these mice. They also showed nigrostriatal neurotransmission deficits that were manifested by reduced extracellular dopamine levels in the striatum and a proportional increase of dopamine release in response to caffeine and ethanol treatment. These findings support the hypothesis that the PNKD protein functions to modulate striatal neuro-transmitter release in response to stress and other precipitating factors.
  The Journal of clinical investigation 01/2012; 122(2):507-18. · 15.39 Impact Factor
• Article: The transcriptional repressor DEC2 regulates sleep length in mammals.

  Ying He, Christopher R Jones, Nobuhiro Fujiki, Ying Xu, Bin Guo, Jimmy L Holder, Moritz J Rossner, Seiji Nishino, Ying-Hui Fu
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  ABSTRACT: Sleep deprivation can impair human health and performance. Habitual total sleep time and homeostatic sleep response to sleep deprivation are quantitative traits in humans. Genetic loci for these traits have been identified in model organisms, but none of these potential animal models have a corresponding human genotype and phenotype. We have identified a mutation in a transcriptional repressor (hDEC2-P385R) that is associated with a human short sleep phenotype. Activity profiles and sleep recordings of transgenic mice carrying this mutation showed increased vigilance time and less sleep time than control mice in a zeitgeber time- and sleep deprivation-dependent manner. These mice represent a model of human sleep homeostasis that provides an opportunity to probe the effect of sleep on human physical and mental health.
  Science 09/2009; 325(5942):866-70. · 31.20 Impact Factor
• Source

  Available from: PubMed Central

  Article: COL25A1 triggers and promotes Alzheimer's disease-like pathology in vivo.

  Ying Tong, Ying Xu, Kimberly Scearce-Levie, Louis J Ptácek, Ying-Hui Fu
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  ABSTRACT: Collagen XXV alpha 1 (COL25A1) is a collagenous type II transmembrane protein purified from senile plaques of Alzheimer's disease (AD) brains. COL25A1 alleles have been associated with increased risk for AD in a Swedish population. COL25A1 is specifically expressed in neurons and binds to aggregated Abeta in vitro. However, its contribution to the pathogenesis of AD and in vivo function are unknown. Here, we report that over-expression of COL25A1 in transgenic mice increases p35/p25 and beta-site APP-cleaving enzyme 1 (BACE1) levels, facilitates intracellular aggregation and extracellular matrix deposits of Abeta, and causes synaptophysin loss and astrocyte activation. COL25A1 mice displayed reduced anxiety-like behavior in elevated plus maze and open field tests and significantly slower swimming speed in Morris water maze. In stable cell lines, motifs in noncollagenous domains of COL25A1 were important for the induction of BACE1 expression. These findings demonstrate that COL25A1 leads to AD-like pathology in vivo. Modulation of COL25A1 function may represent an alternative therapeutic intervention for AD.
  Neurogenetics 07/2009; 11(1):41-52. · 3.35 Impact Factor
• Article: Functional consequences of a CKIdelta mutation causing familial advanced sleep phase syndrome.

  Ying Xu, Quasar S Padiath, Robert E Shapiro, Christopher R Jones, Susan C Wu, Noriko Saigoh, Kazumasa Saigoh, Louis J Ptácek, Ying-Hui Fu
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  ABSTRACT: Familial advanced sleep phase syndrome (FASPS) is a human behavioural phenotype characterized by early sleep times and early-morning awakening. It was the first human, mendelian circadian rhythm variant to be well-characterized, and was shown to result from a mutation in a phosphorylation site within the casein kinase I (CKI)-binding domain of the human PER2 gene. To gain a deeper understanding of the mechanisms of circadian rhythm regulation in humans, we set out to identify mutations in human subjects leading to FASPS. We report here the identification of a missense mutation (T44A) in the human CKIdelta gene, which results in FASPS. This mutant kinase has decreased enzymatic activity in vitro. Transgenic Drosophila carrying the human CKIdelta-T44A gene showed a phenotype with lengthened circadian period. In contrast, transgenic mice carrying the same mutation have a shorter circadian period, a phenotype mimicking human FASPS. These results show that CKIdelta is a central component in the mammalian clock, and suggest that mammalian and fly clocks might have different regulatory mechanisms despite the highly conserved nature of their individual components.
  Nature 04/2005; 434(7033):640-4. · 36.28 Impact Factor
• Article: The gene for paroxysmal non-kinesigenic dyskinesia encodes an enzyme in a stress response pathway

  Hsien-Yang Lee, Ying Xu, Yong Huang, Andrew H Ahn, Georg W J Auburger, Massimo Pandolfo, Hubert Kwiecinski, David A Grimes, Anthony E Lang, Jorgen E Nielsen, Yuri Averyanov, Serenella Servidei, Andrzej Friedman, Patrick van Bogaert, Marc J Abramowicz, Michiko K Bruno, Beatrice F Sorensen, Ling Tang, Ying-Hui Fu, Louis J Ptácek
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  ABSTRACT: Paroxysmal non-kinesigenic dyskinesia (PNKD) is characterized by spontaneous hyperkinetic attacks that are precipitated by alcohol, coffee, stress and fatigue. We report mutations in the myofibrillogenesis regulator 1 (MR-1) gene causing PNKD in 50 individuals from eight families. The mutations cause changes (Ala to Val) in the N-terminal region of two MR-1 isoforms. The MR-1L isoform is specifically expressed in brain and is localized to the cell membrane while the MR-1S isoform is ubiquitously expressed and shows diffuse cytoplasmic and nuclear localization. Bioinformatic analysis reveals that the MR-1 gene is homologous to the hydroxyacylglutathione hydrolase (HAGH) gene. HAGH functions in a pathway to detoxify methylglyoxal, a compound present in coffee and alcoholic beverages and produced as a by-product of oxidative stress. Our results suggest a mechanism whereby alcohol, coffee and stress may act as precipitants of attacks in PNKD. Stress response pathways will be important areas for elucidation of episodic disease genetics where stress is a common precipitant of many common disorders like epilepsy, migraine and cardiac arrhythmias.
  Human Molecular Genetics 01/2005; 13(24):3161-3170. · 7.64 Impact Factor
• Article: Functional consequences of a CKIδ mutation causing familial advanced sleep phase syndrome

  Ying Xu, Quasar S Padiath, Robert E. Shapiro, Christopher R Jones, Susan C. Wu, Noriko Saigoh, Kazumasa Saigoh, Louis J. Ptáček, Ying-Hui Fu