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

Neurodegenerative disorders including ALS and Parkinson's disease are characterized by progressive loss of neuronal cell death. Apoptosis, a morphologically and biochemically defined form of cell death caused by active cellular signaling, has been long implicated in neurodegeneration. Recently, the basic molecular mechanism of apoptosis has been elucidated and a subset of cysteine proteases called caspases were shown to be the executioner of apoptosis. On the other hand, endogenous caspase inhibitor called inhibitor of apoptosis proteins (IAPs) were also identified. XIAP, the most potent apoptosis inhibitor among human IAPs, is shown to be direct and selective inhibitor for caspase-3, -7 and -9. We have very recently shown that XIAP has ubiquitin ligase activity which promotes the degradation of caspase-3 and this protease activity enhances the anti-apoptotic activity of XIAP. Regarding the involvement of apoptosis in neurodegenerative diseases, several lines of evidence indicated that caspases are involved in the pathogenesis of ALS and polyglutamine disease, suggesting the effectiveness of anti-apoptotic therapy for these diseases. Moreover, caspase-independent programmed cell death is also suggested to be involved in neurodegenerative disorders. Based on these findings, the therapeutic strategy for neurodegenerative disease should include both anti-apoptotic and anti-non-apoptotic cell death treatments.
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PMID:[Cell death protection by anti-apoptotic factor]. 1223 97

Abstract Dorfin is a RING-finger type ubiquitin ligase for mutant superoxide dismutase 1 (SOD1) that enhances its degradation. Mutant SOD1s cause familial amyotrophic lateral sclerosis (FALS) through the gain of unelucidated toxic properties. We previously showed that the accumulation of mutant SOD1 in the mitochondria triggered the release of cytochrome c, followed by the activation of the caspase cascade and induction of neuronal cell death. In the present study, therefore, we investigated whether Dorfin can modulate the level of mutant SOD1 in the mitochondria and subsequent caspase activation. We showed that Dorfin significantly reduced the amount of mutant SOD1 in the mitochondria, the release of cytochrome c and the activation of the following caspase cascade, thereby preventing eventual neuronal cell death in a neuronal cell model of FALS. These results suggest that reducing the accumulation of mutant SOD1 in the mitochondria may be a new therapeutic strategy for mutant SOD1-associated FALS, and that Dorfin may play a significant role in this.
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PMID:Dorfin prevents cell death by reducing mitochondrial localizing mutant superoxide dismutase 1 in a neuronal cell model of familial amyotrophic lateral sclerosis. 1503 Mar 90

Parkinson's disease (PD) is the second most common neurodegenerative disease after Alzheimer's disease. It is urgently needed to elucidate the cause of the disease and to establish neuroprotective treatment. We have been working on the etiology and pathogenesis of PD for many years and we found selective loss of mitochondrial complex I and the alpha-ketoglutarate dehydrogenase complex in the nigral neurons of patients with PD. Our observation firmly established mitochondrial defects in PD. Mitochondrial respiratory failure induces oxidative damage in neurons, and we found increase in hydroxynonenal and 8-oxo-deoxyguanine, indices of oxidative damage, in the nigral neurons of PD. These abnormalities can trigger apoptotic cell death. The primary events which induce mitochondrial failure and oxidative damage are not known, however, it has been postulated that the interaction of genetic risk factors and environmental factors would initiate the degenerative process. Based on this assumption, we conducted genetic association studies by the candidate gene methods. We found that polymorphic mutations of superoxide dismutase-2 and 24-kDa subunit of mitochondrial complex I were associated increased risk of developing Parkinson's disease. While we were doing this genetic association study, we found a family, in which parkinsonian phenotype completely segregated with a polymorphic mutation of the superoxide dismutase-2 gene. In this family, 4 out of 6 siblings were affected with early onset parkinsonism and the parents were apparently normal. Thus the mode of inheritance appeared to be autosomal recessive and this type is now called as AR-JP or Park2. We confirmed the linkage of this type of familial Parkinson's disease to the superoxide dismutase loci that is located in the telomeric region of chromosome 6 by the linkage analysis using microsatellite markers in this region. Then we found another family, in which an affected patient showed lack of one of the microsatellite markers (D6S315), which we were using in the linkage analysis. This observation prompted us to initiate the molecular cloning of the disease gene utilizing D6S315 as the initial probe. The molecular cloning was done with the collaboration with Professor Nobuyoshi Shimizu of Keio University. We identified a novel gene and confirmed that mutations of this novel gene were found only in the patients with autosomal recessive Parkinson's disease. The novel gene was named parkin. We conducted mutational analysis on more than 700 families with Parkinson's disease. We also established a method to detect compound heterozygotes of parkin mutations. Mutinous of the parkin gene were found in approximately 50% of autosomal recessive families. Many kinds of exonic deletions and point mutations were found. This type of familial Parkinson's disease had been considered to be unique among Japanese, but since we started mutational analysis of the parkin gene, we confirmed the world wide distribution of parkin gene mutations. Then we analyzed functions of parkin protein with the collaboration with Dr. Keiji Tanaka of Tokyo Metropolitan Institute of Medical Sciences. We found that parkin protein was a ubiquitin-protein ligase of the ubiquitin system. Now we are working on the candidate substrates of parkin protein as a ubiquitin ligase. We found that CDCrel-1, a synaptic vesicle protein, was a candidate substrate of parkin protein. In addition, we found two additional candidate proteins, i.e., alpha-synuclein 22 and PAEL receptor, with the collaboration of Professor Denis Selkoe of Harvard Medical School and Dr. Ryosuke Takahashi of RIKEN, respectively. Accumulation of PAEL receptor in the endoplasmic reticulum causes endoplasmic reticulum stress and apoptotic cell death. We found evidence to indicate accumulation of PAEL receptor and the presence of endoplasmic reticulum stress in a patient with AR-JP (Park2). Thus our studies firmly established that a genetic defect of an enzyme in the ubiquitin-proteasome system induces selective nigral neuronal death. We indicated the important role of the ubiquitin-proteasome system in neurodegeneration in general. In many other neurodegenerative disorders, such as Alzheimer's disease, Huntington's disease, Machado-Joseph disease, dentatorubral-pallidoluysian atrophy, and ALS, ubiquitinated proteins are accumulated in neurons. Thus protein handling in the ubiquitin-proteasome system appears to be affected in these neurodegenerative disorders despite the difference in the primary defects. Our studies also suggest many potential approaches for the discovery of neuroprotective treatment for not only Parkinson's disease but also other neurodegenerative disorders.
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PMID:[Etiology and pathogenesis of Parkinson's disease: from mitochondrial dysfunctions to familial Parkinson's disease]. 1528 6

Dorfin, a RING-IBR type ubiquitin ligase (E3), can ubiquitylate mutant superoxide dismutase 1, the causative gene of familial amyotrophic lateral sclerosis (ALS). Dorfin is located in ubiquitylated inclusions (UBIs) in various neurodegenerative disorders, such as ALS and Parkinson's disease (PD). Here we report that Valosin-containing protein (VCP) directly binds to Dorfin and that VCP ATPase activity profoundly contributes to the E3 activity of Dorfin. High through-put analysis using mass spectrometry identified VCP as a candidate of Dorfin-associated protein. Glycerol gradient centrifugation analysis showed that endogenous Dorfin consisted of a 400-600-kDa complex and was co-immunoprecipitated with endogenous VCP. In vitro experiments showed that Dorfin interacted directly with VCP through its C-terminal region. These two proteins were colocalized in aggresomes in HEK293 cells and UBIs in the affected neurons of ALS and PD. VCP(K524A), a dominant negative form of VCP, reduced the E3 activity of Dorfin against mutant superoxide dismutase 1, whereas it had no effect on the autoubiquitylation of Parkin. Our results indicate that VCPs functionally regulate Dorfin through direct interaction and that their functional interplay may be related to the process of UBI formation in neurodegenerative disorders, such as ALS or PD.
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PMID:Physical and functional interaction between Dorfin and Valosin-containing protein that are colocalized in ubiquitylated inclusions in neurodegenerative disorders. 1545 87

The human excitatory amino acid transporter (EAAT)2 is the major glutamate carrier in the mammalian CNS. Defective expression of the transporter results in neuroexcitotoxicity that may contribute to neuronal disorders such as amyotrophic lateral sclerosis (ALS). The serum and glucocorticoid inducible kinase (SGK) 1 is expressed in the brain and is known to interact with the ubiquitin ligase Nedd4-2 to modulate membrane transporters and ion channels. The present study aimed to investigate whether SGK isoforms and the related kinase, protein kinase B (PKB), regulate EAAT2. Expression studies in Xenopus oocytes demonstrated that glutamate-induced inward current (IGLU) was stimulated by co-expression of SGK1, SGK2, SGK3 or PKB. IGLU is virtually abolished by Nedd4-2, an effect abrogated by additional co-expression of either kinase. The kinases diminish the effect through Nedd4-2 phosphorylation without altering Nedd4-2 protein abundance. SGKs increase the transporter maximal velocity without significantly affecting substrate affinity. Similar to glutamate-induced currents, [3H] glutamate uptake and cell surface abundance of the transporter were increased by the SGK isoforms and down-regulated by the ubiquitin ligase Nedd4-2. In conclusion, all three SGK isoforms and PKB increase EAAT2 activity and plasma membrane expression and thus, may participate in the regulation of neuroexcitability.
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PMID:Post-translational regulation of EAAT2 function by co-expressed ubiquitin ligase Nedd4-2 is impacted by SGK kinases. 1657 59

The ubiquitin-proteasome system (UPS) is involved in the pathogenetic mechanisms of neurodegenerative disorders, including amyotrophic lateral sclerosis (ALS). Dorfin is a ubiquitin ligase (E3) that degrades mutant SOD1 proteins, which are responsible for familial ALS. Although Dorfin has potential as an anti-ALS molecule, its life in cells is short. To improve its stability and enhance its E3 activity, we developed chimeric proteins containing the substrate-binding hydrophobic portion of Dorfin and the U-box domain of the carboxyl terminus of Hsc70-interacting protein (CHIP), which has strong E3 activity through the U-box domain. All the Dorfin-CHIP chimeric proteins were more stable in cells than was wild-type Dorfin (Dorfin(WT)). One of the Dorfin-CHIP chimeric proteins, Dorfin-CHIP(L), ubiquitylated mutant SOD1 more effectively than did Dorfin(WT) and CHIP in vivo, and degraded mutant SOD1 protein more rapidly than Dorfin(WT) does. Furthermore, Dorfin-CHIP(L) rescued neuronal cells from mutant SOD1-associated toxicity and reduced the aggresome formation induced by mutant SOD1 more effectively than did Dorfin(WT).
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PMID:Dorfin-CHIP chimeric proteins potently ubiquitylate and degrade familial ALS-related mutant SOD1 proteins and reduce their cellular toxicity. 1715 13

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease that is characterized by progressive motor neuron degeneration and leads to death within a few years of diagnosis. One of the pathogenic mechanisms of ALS is proposed to be a dysfunction in the protein quality-control machinery. Dorfin has been identified as a ubiquitin ligase (E3) that recognizes and ubiquitinates mutant SOD1 proteins, thereby accelerating their degradation and reducing their cellular toxicity. We examined the effects of human Dorfin overexpression in G93A mutant SOD1 transgenic mice, a mouse model of familial ALS. In addition to causing a decrease in the amount of mutant SOD1 protein in the spinal cord, Dorfin overexpression ameliorated neurological phenotypes and motor neuron degeneration. Our results indicate that Dorfin overexpression or the activation or induction of E3 may be a therapeutic avenue for mutant SOD1-associated ALS.
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PMID:Dorfin ameliorates phenotypes in a transgenic mouse model of amyotrophic lateral sclerosis. 1961 91

Protein aggregation and ordered fibrillar amyloid deposition inside and outside of the central nervous system cells is the common pathologic hallmark of most aging-related neurodegenerative disorders. Dominant mutations in the gene encoding superoxide dismutase 1 (SOD1) protein are linked to familial amyotrophic lateral sclerosis (ALS), a neurodegenerative disease characterized by progressive degeneration of motor neurons, leading to muscle paralysis and death. The major histochemical hallmark in the remaining motor neurons of ALS is the intracellular accumulation of ubiquitinated inclusions consisting of insoluble aberrant protein aggregates. However, the molecular pathomechanisms underlying the process have been elusive. Here for the first time, we report that E6-AP, a homologous to E6-AP C terminus-type E3 ubiquitin ligase depleted in ALS mouse models before neurodegeneration. E6-AP coimmunoprecipitates with the SOD1 protein and is predominantly mislocalized in mutant SOD1-containing inclusion bodies. Overexpression of E6-AP increases the ubiquitination and facilitates degradation of SOD1 proteins. Finally, we show that the overexpression of E6-AP suppresses the aggregation and cell death mediated by mutated SOD1 proteins and cellular protective effect is more prominent when E6-AP is overexpressed along with Hsp70. These data suggest that enhancing the activity of E6-AP ubiquitin ligase might be a viable therapeutic strategy to eliminate mutant SOD1-mediated toxicity in ALS.
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PMID:E6-AP association promotes SOD1 aggresomes degradation and suppresses toxicity. 2304 Jun 63

In selective autophagy, receptors are central for cargo selection and delivery. However, it remains yet unclear whether and how multiple autophagy receptors might form complex and function concertedly to control autophagy. Optineurin (OPTN), implicated genetically in glaucoma and amyotrophic lateral sclerosis, was a recently identified autophagy receptor. Here we report that tumor-suppressor HACE1, a ubiquitin ligase, ubiquitylates OPTN and promotes its interaction with p62/SQSTM1 to form the autophagy receptor complex, thus accelerating autophagic flux. Interestingly, the Lys48-linked polyubiquitin chains that HACE1 conjugates onto OPTN might predominantly target OPTN for autophagic degradation. By demonstrating that the HACE1-OPTN axis synergistically suppresses growth and tumorigenicity of lung cancer cells, our findings may open an avenue for developing autophagy-targeted therapeutic intervention into cancer.
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PMID:Ubiquitylation of autophagy receptor Optineurin by HACE1 activates selective autophagy for tumor suppression. 2502 13

Ubiquitylation is among the most prevalent post-translational modifications (PTMs) and regulates numerous cellular functions. Interestingly, ubiquitin (Ub) can be itself modified by other PTMs, including acetylation and phosphorylation. Acetylation of Ub on K6 and K48 represses the formation and elongation of Ub chains. Phosphorylation of Ub happens on multiple sites, S57 and S65 being the most frequently modified in yeast and mammalian cells, respectively. In mammals, the PINK1 kinase activates ubiquitin ligase Parkin by phosphorylating S65 of Ub and of the Parkin Ubl domain, which in turn promotes the amplification of autophagy signals necessary for the removal of damaged mitochondria. Similarly, TBK1 phosphorylates the autophagy receptors OPTN and p62 to initiate feedback and feedforward programs for Ub-dependent removal of protein aggregates, mitochondria and pathogens (such as Salmonella and Mycobacterium tuberculosis). The impact of PINK1-mediated phosphorylation of Ub and TBK1-dependent phosphorylation of autophagy receptors (OPTN and p62) has been recently linked to the development of Parkinson's disease and amyotrophic lateral sclerosis, respectively. Hence, the post-translational modification of Ub and its receptors can efficiently expand the Ub code and modulate its functions in health and disease.
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PMID:Expanding the ubiquitin code through post-translational modification. 2626 26


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