Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
 19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although Enteroviruses are mainly described as responsible for acute diseases, their role in severe chronic pathology has been also established. Echovirus 6-like sequences have been detected by PCR analysis in central nervous system specimens from patients presenting with Amyotrophic Lateral Sclerosis. These findings suggested a persistent infection with viruses that underwent, genetic changes precluding viral particle release. To support this hypothesis, we developed a model system of Echovirus 6 chronic infection in precursors of glial cells. The nucleotide sequences of the 5'non-translated region (5'NTR), 2A and 3C regions of the virus developing persistent genome were analysed during establishment of the chronic phenotype. This study revealed that at day 160 of chronic infection, several mutations were observed: one mutation at nucleotide 108 upstream the domain II of the internal ribosome entry site (IRES) structure, one mutation at nucleotide 30 in the cloverleaf, and two mutations in the 2A region (translated in His48 to Tyr, and Ile 123 to Met). No mutations were detected in the 3C region. The impact of these mutations on viral replication have been analysed in a rabbit reticulocyte lysate (RRL) translation assay supplemented with HeLa cell lysate, and by plaque assay. Viruses with these mutations displayed a phenotype with a significant reduction of replication, while in vitro translation was not affected by the nucleotide 108 mutation. This model allowed the description of molecular changes observed in the genome of Echovirus 6 during the establishment of a chronic infection phenotype, and may be helpful for the understanding of the mechanisms leading Enteroviruses to develop chronic infections in man.
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PMID:Cumulative mutations in the genome of Echovirus 6 during establishment of a chronic infection in precursors of glial cells. 1574 68

Several neurological disorders such as stroke, amyotrophic lateral sclerosis and epilepsy result from excitotoxic events and are accompanied by neuronal cell death. These processes engage multiple signalling pathways and recruit numerous molecular components, in particular several families of protein kinases and protein phosphatases. While many investigations have examined the importance of protein kinases in excitotoxicity, protein phosphatases have not been well studied in this context. However, recent advances in understanding the functions of protein phosphatases have suggested that they may play a neuroprotective role. In this review, we summarize some of the recent findings that illustrate the pleiotropic and complex functions of tyrosine and serine/threonine protein phosphatases in the cascade of events leading to neuronal cell death, and highlight their potential intervention in limiting the extent of neuronal death.
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PMID:Protein phosphatases and their potential implications in neuroprotective processes. 1592 6

In this work, we have studied the amino acid and protein composition of the plasma from a group of 32 ALS patients. As controls, groups of 10 healthy subjects (HC) and 32 patients with other neuromuscular disorders have been analysed. When the HC group was compared with the ALS group there were significant decreases of His (39+/-18 to 24+/-9 microM, p<0.01) and Ala (313+/-62 to 237+/-66 microM, p<0.05), and a significant increase of Asn (89+/-41 to 118+/-24 microM, p<0.05), for the ALS group. When the three groups were compared, we observed significant decreased concentrations of Ser, His, Thr, Ala, Arg, Tyr, Met, Cys, Ile, and significant increases of Asn, Phe and Lys. An increase of proteolytic products of alpha2-macroglobulin (alpha2-M), an acute-phase serum glycoprotein that functions as a protease inhibitor, has been observed for a subgroup of ALS patients by Western blot. Furthermore, the detection of alpha2-M during disease progression has shown increases of the intact subunit and of a proteolytic product for two of the four patients analysed. Another acute-phase glycoprotein, haptoglobin, which regulates haemoglobin degradation, was not increased for the same group of patients. The results obtained suggested that diet supplementation with His and Ala and modulation of alpha2-M might have some beneficial effects on the course of ALS.
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PMID:Biochemical characterization of plasma in amyotrophic lateral sclerosis: amino acid and protein composition. 1603 34

Vascular endothelial growth factor (VEGF or VEGF-A) and its receptors play essential roles in the formation of blood vessels during embryogenesis and in disease. Most biological effects of VEGF are mediated via two receptor tyrosine kinases, VEGFR1 and VEGFR2, but specific VEGF isoforms also bind neuropilins (NP) 1 and 2, non-tyrosine kinase receptors originally identified as receptors for semaphorins, polypeptides with essential roles in neuronal patterning. There is abundant evidence that VEGF-A has neurotrophic and neuroprotective effects on neuronal and glial cells in culture and in vivo, and can stimulate the proliferation and survival of neural stem cells. VEGFR2 and NP1 are the major VEGF receptors expressed on neuronal cells and, while the mechanisms mediating neuroprotective effects of VEGF are not fully understood, VEGF stimulates several signalling events in neuronal cell types, including activation of phospholipase C-gamma, Akt and ERK. Findings in diverse models of nerve damage and disease suggest that VEGF has therapeutic potential as a neuroprotective factor. VEGF is a key mediator of the angiogenic response to cerebral and peripheral ischaemia, and promotes nerve repair following traumatic spinal injury. Recent work has revealed a role for reduced VEGF expression in the pathogenesis of amyotrophic lateral sclerosis, a rare neurodegenerative disease caused by selective loss of motor neurons. In many instances, the neuroprotective effects of VEGF appear to result from a combination of the indirect consequences of increased angiogenesis, and the direct stimulation of neuronal function. However, more work is required to determine the specific functional role of direct neuronal effects of VEGF.
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PMID:Neuroprotective role of vascular endothelial growth factor: signalling mechanisms, biological function, and therapeutic potential. 1630 36

Sarcopenia describes the involuntary decline in muscle mass with aging, coupled with fatigue, and loss of force and function. We investigated 113 human muscle biopsy specimens obtained from patients with neuromuscular diseases and controls. We measured 21 amino acids in these muscle biopsies. Age emerged as a significant negative predictor of cytosolic concentration ratio of glutamine to total branched chain amino acids and of glutamine to total aromatic amino acids using stepwise multiple linear regression analysis. This pattern of alteration corresponds well to documented alterations in skeletal muscle of critically ill patients and after immobilization. Additionally, in myositis, citrulline was significantly elevated, while glutamate, lysine and taurine were significantly reduced. Furthermore, in sporadic amyotrophic lateral sclerosis (sALS) the total aromatic amino acids, arginine, glutamate, threonine, and tyrosine were significantly elevated. This study provides evidence, that alteration of glutamine is correlated to aging and might reflect increased proteolysis in aged and diseased human skeletal muscle.
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PMID:Age related profiles of free amino acids in human skeletal muscle. 1664 14

Neurotrophic factors support the survival of spinal motoneurons (MNs) and have been considered as strong candidates for treating motoneuron diseases. However, it is unclear if the right combination of neurotrophic factor receptors is present in postnatal spinal MNs. In this study, we show that the level of c-ret expression remains relatively stable in embryonic and postnatal spinal MNs. In contrast, the mRNA and protein of GFRalpha1 and -2 are progressively down-regulated in postnatal life. By 3 and 6 months of age, both receptors are barely detectable in spinal MNs. The down-regulation of GFRalpha1 appears accelerated in transgenic mice expressing mutant SOD1(G93A). Despite the progressive loss of GFRalpha1 and -2, phosphorylation of c-ret shows no detectable reduction on tyrosine residues or on serine 696. In addition to the GFRalpha subunits, expression of TrkB also shows a dynamic change. During embryogenesis, there is twice as much full-length TrkB as the truncated TrkB isoform. However, this ratio is reversed in postnatal spinal cord. Expression of the mutant SOD1(G93A) appears to have no effect on the TrkB receptor ratio. Taken together, our data indicate that the expression of neurotrophic factor receptors, GFRalpha1, -2, and TrkB, is not static, but undergoes dynamic changes in postnatal spinal MNs. These results provide insights into the use of neurotrophic factors as therapeutic agents for ALS.
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PMID:Dynamic expression of neurotrophic factor receptors in postnatal spinal motoneurons and in mouse model of ALS. 1668 Jul 59

Glutamate receptors of the N-methyl-D-asparate (NMDA-) subtype are tetrameric allosteric and ligand-gated calcium channels. They are modulated by a variety of endogenous ligands and ions and play a pivotal role in memory-related signal transduction due to a voltage-dependent block by magnesium, which makes them Hebbian coincidence detectors. On the structural level NMDA receptors have an enormous flexibility due to seven genes (NR1, NR2A-D and NR3A-B), alternative splicing, RNA-editing and extensive posttranslational modifications, like phosphorylation and glycosylation. NMDA receptors are thought to be responsible for excitotoxicity and subsequent downstream events like neuroinflammation and apoptosis and thus have been implicated in many important human pathologies, ranging from amyotrophic lateral sclerosis, Alzheimer's and Parkinson' disease, depression, epilepsy, trauma and stroke to schizophrenia. This fundamental significance of NMDA receptor-related excitotoxicity is discussed in the context of the developing clinical success of Memantine, but moreover set into relation to various proteomic and genetic markers of said diseases. The very complex localisational and functional regulation of NMDA receptors appears to be dependent on neuregulins and receptor tyrosine kinases in cholesterol-rich membrane domains (lipid rafts), calcium-related mitochondrial feedback-loops and subsynaptic structural elements like PSD-95 (post-synaptic density protein of 95 kD). The flexibility and multitude of interaction partners and possibilities of these highly dynamic molecular systems are discussed in terms of drug development strategies, in particular comparing high affinity and sub-type specific ligands to currently successful or promising therapies.
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PMID:NMDA receptors are not alone: dynamic regulation of NMDA receptor structure and function by neuregulins and transient cholesterol-rich membrane domains leads to disease-specific nuances of glutamate-signalling. 1671 8

Nitric oxide (NO*) reacts with superoxide (O2-*) forming peroxynitrite (PXN) (ONOO-), a strong oxidant which reacts with several biomolecules leading to enormous implications in biological process, holds enormous implications for the understanding of free radicals. The ONOO- formation in vivo has significant implications in free radical biology. It exerts a defensive role in large number of pathophysiological reactions and also acts as signaling molecule in activation of several protooncogenes. It decomposes rapidly to an intermediate and reacts with several biomolecules. Evidence for PXN formation in vivo has been obtained immunohistochemically through detection of a characteristic reaction product with protein tyrosine residues and 3-nitrotyrosine. This "biomarker" of PXN formation has now been identified in various pathologies such as Lou Gehrig's disease, Parkinson's disease, cancer, atherosclerosis as well as in biological aging. 3-nitrotyrosine formation has been documented in various tissues, e.g. even in non-diseased embryonic heart during normal development. Therefore, there is a great opportunity in the postgenomic period to understand the interplay of these molecular interactions with biological events such as apoptosis, gene regulation etc. This review deals with biological significance of peroxynitrite, its precursors, reactions with large range of biomolecules, including aminoacids, proteins, lipids, nucleic acids, antioxidants as well as cytotoxic aspects.
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PMID:Peroxynitrite: a potent oxidizing and nitrating agent. 1678 14

The neurotrophins-nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), NT-3 and NT-4-represent a family of proteins essential for neuronal survival and plasticity. Each neurotrophin can signal through two different transmembrane receptors, Trk receptor tyrosine kinases and the p75 neurotrophin receptor, the first member of the TNF receptor superfamily. Neurotrophic factors play an important role in neurodegenerative diseases, as well as neuropsychiatric disorders such as depression, bipolar disease and eating disorders. Indeed, a number of approaches have been taken to use neurotrophins to treat Alzheimer's dementia, amyotrophic lateral sclerosis and peripheral sensory neuropathy. However, many of these clinical trails have failed, due to problems in delivery and unforeseen side effects of neurotrophic factors. An alternative approach is to use ligands in the G protein-coupled receptor (GPCR) family to transactivate trophic activities. We have discovered that treatment with adenosine, a neuromodulator that acts through G protein-coupled receptors, is capable of activating Trk tyrosine kinase receptors. Transactivation of neurotrophic receptors by GPCR ligands raise the possibility that small molecules may be used to elicit neurotrophic effects for the treatment of neurodegenerative diseases. This approach would allow for selective targeting of neurons that express specific G protein-coupled receptors and trophic factor receptors. GPCRs transduce information provided by extracellular signals to modulate synaptic activity and neurotransmission. In addition to the classical G protein signalling, GPCR ligands also activate receptor tyrosine kinases (RTK), including neurotrophin receptors. Activation of Trk neurotrophin receptors can occur by GPCR ligands in the absence of neurotrophins. Adenosine and PACAP (pituitary adenylate cyclase activating polypeptide) induce Trk activation specifically through their respective GPCRs to promote cell survival. Transactivation of Trks by GPCRs has emerged as a new theme in the biology of neurotrophin function. Although the precise role of transactivation is unknown, one possibility is that it adds a safety factor that might protect neurons from death in the absence of neurotrophins. Abnormal activity of the neurotrophin system has been implicated in several psychiatric and neurobiological illnesses. However, the lack of knowledge about the precise site of neurotrophin dysfunction has compromised the ability to improve the efficacy and the safety of drugs used in treatment modalities. If small-molecule GPCR ligands can ameliorate neuronal cell loss through Trk, transactivation may offer a new strategy for promoting trophic effects during neurodegeneration.
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PMID:Promoting neurotrophic effects by GPCR ligands. 1680 30

Nitric oxide (NO) is a short lived diatomic free radical species synthesized by nitric oxide synthases (NOS). The physiological roles of NO depend on its local concentrations as well as availability and the nature of downstream target molecules. At low nanomolar concentrations, activation of soluble guanylyl cyclase (sGC) is the major event initiated by NO. The resulting elevation in the intracellular cyclic GMP (cGMP) levels serves as signals for regulating diverse cellular and physiological processes. The participation of NO and cGMP in diverse physiological processes is made possible through cell type specific spatio-temporal regulation of NO and cGMP synthesis and signal diversity downstream of cGMP achieved through specific target selection. Thus cyclic GMP directly regulates the activities of its downstream effectors such as Protein Kinase G (PKG), Cyclic Nucleotide Gated channels (CNG) and Cyclic nucleotide phosphodiesterases, which in turn regulate the activities of a number of proteins that are involved in regulating diverse cellular and physiological processes. Localization and activity of the NO-cGMP signaling pathway components are regulated by G-protein coupled receptors, receptor and non receptor tyrosine kinases, phosphatases and other signaling molecules. NO also serves as a powerful paracrine factor. At micromolar concentrations, NO reacts with superoxide anion to form reactive peroxinitrite, thereby leading to the oxidation of important cellular proteins. Extensive research efforts over the past two decades have shown that NO is an important modulator of axon outgrowth and guidance, synaptic plasticity, neural precursor proliferation as well as neuronal survival. Excessive NO production as that evoked by inflammatory signals has been identified as one of the major causative reasons for the pathogenesis of a number of neurodegenerative diseases such as ALS, Alzheimers and Parkinson diseases. Regenerative therapies involving transplantation of embryonic stem cells (ES cells) and ES cell derived lineage committed neural precursor cells have recently shown promising results in animal models of Parkinson disease (PD). Recent studies from our laboratory have shown that a functional NO-cGMP signaling system is operative early during the differentiation of embryonic stem cells. The cell type specific, spatio-temporally regulated NO-cGMP signaling pathways are well suited for inductive signals to use them for important cell fate decision making and lineage commitment processes. We believe that manipulating the NO-cGMP signaling system will be an important tool for large scale generation of lineage committed precursor cells to be used for regenerative therapies.
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PMID:NO-cGMP signaling and regenerative medicine involving stem cells. 1704 68


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