Genetic and physical interaction of Sgt2 protein with prion-chaperone machinery

Pan, Tao

10 August 2011

The word "Prion" refers to self-perpetuating protein aggregates that cause neurodegenerative diseases in mammals. It is a protein isoform that has undergone a conformational change which converts the normal form of the protein into the infectious form with the same amino acid sequence. Yeast [PSI+] prion is the prion isoform of Sup35 protein, a translation termination factor eRF3. It has been suggested that prion [PSI+] is controlled by the ensemble of chaperones with Hsp104 playing the major role. The previous work performed in the Chernoffs lab showed that the defective GET pathway caused by get led to the defect in [PSI+] curing by excess Hsp104. The GET pathway is a system responsible for transporting newly synthesized TA-protein to the ER membrane, and the components which have been proven to be involved in this pathway include: Get1, Get2, Get3, Get4, Get5 and Sgt2. In this study we describe the mechanism underlying the effect of the defective GET pathway on [PSI+]. We demonstrate that Sgt2, one of the components of GET pathway, interacts with Sup35 in both [PSI+] and [psi-] strains through its prion domain. Overproduction of Sgt2 and Hsp70-Ssa is triggered by the defective GET pathway and leads to the protection of [PSI+] aggregates from curing by excess Hsp104. We show that the direct interaction between Sgt2 and Hsp70-Ssa is not required for this protective effect.

Prion

Sup35

Get2

Curing

Delitto

Nervous system Degeneration

Nervous system Diseases

Molecular biology

Prions

Proteins

Toxicokinetic and toxicodynamic modeling of the effects of methyl mercury on development of the embryonic rat midbrain /

Lewandowski, Thomas A.

January 2000

Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 126-144).

Untersuchungen zur Rolle der O-glykosidisch gebundenen N-Acetylglucosamin-Modifikation von Proteinen beim proteolytischen Prozessieren des humanen Amyloid Precursor Proteins

Mäss, Carmen.

January 2002

Disputats. Rheinische Friedrick-Wilhelms-Universität, 2002. / Haves kun i elektronisk udg.

Role of nuclear factor-kappa B in the molecular toxicology of mercury in kidney and brain cells /

Diéguez, Francisco Javier.

January 2003

Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 97-114).

Dietary Selenium Supplementation: Effects on Neurodegeneration Following Traumatic Brain and Spinal Cord Injury

Crowdus Meyer, Carolyn A.

01 January 2015

Traumatic brain and spinal cord injury continue to be substantial clinical problems with few available treatment strategies. Individuals who are at a greater risk for sustaining a central nervous system (CNS) injury, such as professional athletes and military personnel, may benefit from a prophylactic supplement that would intervene in the neurodegenerative pathways immediately following injury. The high demand for selenium within the central nervous system, as well as the synthesis of selenoproteins by neurons and astrocytes suggests a critical role of selenium within the brain and spinal cord. Studies were designed to test the efficacy of enriched dietary selenium status in providing neuroprotective benefits in rodent models of spinal cord and traumatic brain injury. Levels of selenium storage within the CNS are increased relative to the amount of selenium present in the diet, indicating that selenium compounds effectively cross the blood brain barrier. In a model of moderate severity spinal cord contusion injury, dietary selenium supplementation reduced the number of days until recovery of independent bladder function following injury. These benefits did not translate to improvements in locomotor function during open field testing or reduction in overall lesion volume in the injured animal groups. Examination of gene expression changes 24 hours after spinal cord injury revealed that dietary selenium enrichment increased expression of genes involved in DNA repair, mitochondrial respiration, and transcriptional regulation. By expanding the scope of these studies to include models of traumatic brain injury, these data show the importance of selenium in the cortex as well. In particular, when compared to diets deficient in selenium, higher levels of dietary selenium improve spatial memory performance and mitochondrial respiration. The results of this dietary study show modest improvements following both traumatic brain and spinal cord injury and suggest that while selenium enrichment may not have a profound effect on the secondary injury cascade immediately following injury, the presence of adequate dietary selenium is critical for mitochondrial respiration. Together the results of these studies suggest that dietary supplementation may play a subtle role in injury mechanisms within the CNS and warrant further investigation.

Brain Injury

Spinal Cord Injury

Selenium

Gene Expression

Mitochondrial Respiration

Nervous System Diseases

The effect of a neurological checklist on nursing observations of the neurological patient

Bauer, Anna Jane, 1946-

January 1970

No description available.

Neurological nursing.

Neurologic examination.

Neurologic Manifestations

Nervous System Diseases -- nursing

Nursing Care

Interferon-gamma and the regulation of neuroinflammation

Millward, Jason Michael, 1976-

January 2008

Inflammation of the central nervous system (CNS) is important in many human diseases, and is regulated by a multitude of factors, including the cytokine interferon-gamma (IFNgamma). The importance of IFNgamma is highlighted in experimental autoimmune encephalomyelitis (EAE), an animal model of CNS inflammation. Mice lacking IFNgamma show exaggerated disease, with a different pattern of chemokine expression than the wild-type. We administered IFNgamma to the CNS using intrathecal injection of a replication-defective adenoviral vector to ask about direct actions of IFNgamma on chemokine expression without the confounding factors present during CNS inflammation. AdIFNgamma induced expression of CXCL10 and CCL5, two chemokines strikingly absent in Ifng-/- EAE. Chemokine expression was not associated with inflammation, though when an infectious stimulus was administered, an influx of immune cells to the CNS was seen. Using AdIFNgamma to restore IFNgamma to Ifng-/- mice with EAE had a disease-limiting effect. We used vectors encoding CXCL10 or CCL5, to replace these chemokines which are absent during Ifng-/- EAE, attempting to modulate the disease into a form resembling that of the wild-type. AdCCL5 treatment showed a mild reduction in EAE severity in the Ifng-/-, though AdCXCL10 treatment had no effect. A principal inducer of IFNgamma is interleukin-18 (IL 18), and IFNgamma induces IL18-binding protein (IL18bp) which inhibits IL18, establishing a negative feedback loop. We found that ILl8bp expression is upregulated in wild-type mice with EAE, but not in the Ifng-/-, suggesting that the exaggerated disease of the Ifng -/- may be due in part to unrestrained actions of ILI8. Treatment with a vector encoding IL18bp (AdIL18bp) significantly inhibited EAE, without restricting immune cell entry to the CNS. Cytokine expression was shifted away from a pattern favouring Th17 development. AdIL18bp treatment inhibited EAE in Ifng-/- mice, indicating that IFNgamma was not required for this activity. We used a vector encoding M3, a chemokine-binding protein derived from MHV-68, to reduce EAE severity, showing the first use of a viral chemokine-binding protein in EAE.

Nervous System Diseases -- immunology.

Interferon Type II -- biosynthesis.

Mice.

Dopamine and Glutamate Dysfunction in a Rodent Model of Attention-Deficit/Hyperactivity Disorder: Implications for Future Neuropharmacology

Miller, Erin M

01 January 2014

Attention-deficit/hyperactivity disorder (ADHD) is one of the most common disorders of childhood. It is theorized to be caused by catecholamine dysfunction in the striatum (Str) and frontal cortex (FC). The spontaneously hypertensive rat (SHR) has been used as a model for ADHD because of its attention deficits, impulsiveness, and hyperactivity. Prior studies of dopamine (DA) in the Str and FC have revealed conflicting results in the SHR compared to control, indicative of a need for a better understanding of DA dynamics in this model. In addition to the DA hypothesis, studies have begun implicating glutamate in the etiology of ADHD. Previous evaluations of the SHR model of ADHD found that the SHR have increased α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor activity and elevated calcium levels in the FC, suggesting that altered glutamatergic neurotransmission exists in the SHR. The first set of studies presented here suggest that increased surface expression of DA transporters may exist in the SHR model of ADHD, lowering basal DA levels. Second, we discovered that the glutamate system in the FC of the SHR model of ADHD is hyperfunctional, thus raising the possibility that targeting glutamate dysfunction in the FC could lead to the development of novel therapeutics for the treatment of ADHD. The third and fourth set of studies explored glutamate signaling in the awake rodent to fully understand glutamate neurotransmission as well as the effects of methylphenidate (MPH) on glutamate signaling in the prelimbic cortex, a region heavily implicated in ADHD. The SHR displayed similar phasic glutamate signaling compared to control; however, in the SHR but not the WKY control, chronic treatment with MPH lowered phasic glutamate amplitude. Additionally, intermediate treatment with MPH increased tonic glutamate in the SHR only, whereas chronic MPH treatment increased tonic levels in both the SHR and WKY compared to saline. Taken together, this body of work characterizes DA and glutamate signaling in the anesthetized SHR model of ADHD. Additionally, glutamate dynamics and the effects of the stimulant medication MPH were explored in the awake animal, providing evidence that glutamate is a likely target for future neuropharmacology for the treatment of ADHD.

ADHD

dopamine

glutamate

frontal cortex

methylphenidate

Disease Modeling

Mental Disorders

Nervous System

Nervous System Diseases

Treatment of prion diseases with camelid antibodies

Jones, Daryl Rhys

January 2013

No description available.

573.8639929

A Machine Learning Approach to Diagnosis of Parkinson’s Disease

Hashmi, Sumaiya F

01 January 2013

I will investigate applications of machine learning algorithms to medical data, adaptations of differences in data collection, and the use of ensemble techniques. Focusing on the binary classification problem of Parkinson’s Disease (PD) diagnosis, I will apply machine learning algorithms to a primary dataset consisting of voice recordings from healthy and PD subjects. Specifically, I will use Artificial Neural Networks, Support Vector Machines, and an Ensemble Learning algorithm to reproduce results from [MS12] and [GM09]. Next, I will adapt a secondary regression dataset of PD recordings and combine it with the primary binary classification dataset, testing various techniques to consolidate the data including treating the regression data as unlabeled data in a semi-supervised learning approach. I will determine the performance of the above algorithms on this consolidated dataset. Performance of algorithms will be evaluated using 10-fold cross validation and results will be analyzed in a confusion matrix. Accuracy, precision, recall, and F-score will be calculated. The expands on past related work, which has used either a regression dataset alone to predict a Unified Parkinson’s Disease Rating Scale score for PD patients, or a classification dataset to determine healthy or PD diagnosis. In past work, the datasets have not been combined, and the regression set has not been used to contribute to evaluation of healthy subjects.

Machine learning

diagnosis

Parkinson's Disease

supervised classification

Diagnosis

Nervous System Diseases

Other Computer Sciences