Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the past twenty years, evidence has accumulated to show that ubiquitinated proteins are a consistent feature of the intraneuronal protein aggregates (inclusions) that characterize chronic neurodegenerative disease. These findings may indicate that age-related dysfunction of the 26S proteasome may be central to disease pathogenesis. The aggregate-prone proteins can also be eliminated by autophagy. We have used the Cre-recombinase/loxP genetic approach to ablate the proteasomal Psmc1 ATPase gene and deplete 26S proteasomes in neurons in different regions of the brain to mimic neurodegeneration. Deletion of the gene in dopaminergic neurons in the substantia nigra generates a new model of Parkinson disease. Ablation of the gene in the forebrain creates the first model of dementia with Lewy bodies. In both neuroanatomical regions, gene ablation causes the formation of Lewy-like inclusions together with extensive neurodegeneration. There is some evidence for neuronal autophagy in areas adjacent to inclusions. The models indicate that neuronal loss in neurodegenerative diseases can be attributed to proteasomal malfunction accompanied by Lewy-like inclusions as seen in dementia with Lewy bodies and Parkinson disease.
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PMID:The UPS and autophagy in chronic neurodegenerative disease: six of one and half a dozen of the other--or not? 1907 33

Early Alzheimer's disease (EAD) is the intermediary stage between mild cognitive impairment (MCI) and late-stage Alzheimer's disease (AD). The symptoms of EAD mirror the disease advancement between the two phases. Dementia, memory deficits, and cognitive decline are more pronounced as the disease progresses. Oxidative stress in brain is reported in MCI and AD, including lipid peroxidation indexed by protein-bound 4-hydroxy-2-nonenal (HNE). There are limited data regarding the proteomics analysis of brain from subjects with EAD and even less concerning the possible relationship of EAD HNE-modified brain proteins with HNE-modified proteins in MCI and AD. Proteomics was utilized to investigate excessively HNE-bound brain proteins in EAD compared to those in control. These new results provide potentially valuable insight into connecting HNE-bound brain proteins in EAD to those previously identified in MCI and AD, since EAD is a transitional stage between MCI and late-stage AD. In total, six proteins were found to be excessively covalently bound by HNE in EAD inferior parietal lobule (IPL) compared to age-related control brain. These proteins play roles in antioxidant defense (manganese superoxide dismutase), neuronal communication and neurite outgrowth (dihydropyriminidase-related protein 2), and energy metabolism (alpha-enolase, malate dehydrogenase, triosephosphate isomerase, and F1 ATPase, alpha subunit). This study shows that there is an overlap of brain proteins in EAD with previously identified oxidatively modified proteins in MCI and late-stage AD. The results are consistent with the hypothesis that oxidative stress, in particular lipid peroxidation, is an early event in the progression of AD, and is the first to identify in EAD identical brain proteins previously identified as HNE-modified in MCI and late-state AD.
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PMID:Proteomic identification of HNE-bound proteins in early Alzheimer disease: Insights into the role of lipid peroxidation in the progression of AD. 1937 91

Mutations in valosin-containing protein (VCP) cause inclusion body myopathy (IBM) associated with Paget's disease of the bone (PDB) and fronto-temporal dementia (FTD) or IBMPFD. Although IBMPFD is a multisystem disorder, muscle weakness is the presenting symptom in greater than half of patients and an isolated symptom in 30%. Patients with the full spectrum of the disease make up only 12% of those affected; therefore it is important to consider and recognize IBMPFD in a neuromuscular clinic. The current review describes the skeletal muscle phenotype and common muscle histochemical features in IBMPFD. In addition to myopathic features; vacuolar changes and tubulofilamentous inclusions are found in a subset of patients. The most consistent findings are VCP, ubiquitin and TAR DNA-binding protein 43 (TDP-43) positive inclusions. VCP is a ubiquitously expressed multifunctional protein that is a member of the AAA+ (ATPase associated with various activities) protein family. It has been implicated in multiple cellular functions ranging from organelle biogenesis to protein degradation. Although the role of VCP in skeletal muscle is currently unknown, it is clear that VCP mutations lead to the accumulation of ubiquitinated inclusions and protein aggregates in patient tissue, transgenic animals and in vitro systems. We suggest that IBMPFD is novel type of protein surplus myopathy. Instead of accumulating a poorly degraded and aggregated mutant protein as seen in some myofibrillar and nemaline myopathies, VCP mutations disrupt its normal role in protein homeostasis resulting in the accumulation of ubiquitinated and aggregated proteins that are deleterious to skeletal muscle.
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PMID:Valosin-containing protein disease: inclusion body myopathy with Paget's disease of the bone and fronto-temporal dementia. 1938 Feb 27

Hereditary inclusion body myopathy associated with early-onset Paget disease of bone and frontotemporal dementia (hIBMPFTD) is a degenerative disorder caused by single substitutions in highly conserved residues of p97/VCP. All mutations identified thus far cluster within the NH(2) domain or the D1 ring, which are both required for communicating conformational changes to adaptor protein complexes. In this study, biochemical approaches were used to identify the consequences of the mutations R155P and A232E on p97/VCP structure. Assessment of p97/VCP oligomerization revealed that p97(R155P) and p97(A232E) formed hexameric ring-shaped structures of approximately 600 kDa. p97(R155P) and p97(A232E) exhibited an approximately 3-fold increase in ATPase activity compared to wild-type p97 (p97(WT)) and displayed increased sensitivity to heat-induced upregulation of ATPase activity. Protein fluorescence analysis provided evidence for conformational differences in the D2 rings of both hIBMPFTD mutants. Furthermore, both mutations increased the proteolytic susceptibility of the D2 ring. The solution structures of all p97/VCP proteins revealed a didispersed distribution of a predominant hexameric population and a minor population of large-diameter complexes. ATP binding significantly increased the abundance of large-diameter complexes for p97(R155P) and p97(A232E), but not p97(WT) or the ATP-binding mutant p97(K524A). Therefore, we propose that hIBMPFTD p97/VCP mutants p97(R155P) and p97(A232E) possess structural defects that may compromise the mechanism of p97/VCP activity within large multiprotein complexes.
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PMID:Hereditary inclusion body myopathy-linked p97/VCP mutations in the NH2 domain and the D1 ring modulate p97/VCP ATPase activity and D2 ring conformation. 1950 19

Beta-amyloid (Abeta) deposition, in the form of plaques and amyloid angiopathy, and hyper-phosphorylated tau deposition forming neurofibrillary tangles, dystrophic neurites around beta-amyloid plaques and neuropil threads, are neuropathological hallmarks of Alzheimer's disease (AD) that accumulate in the brain with disease progression. These changes are accompanied by progressive loss of synapses and nerve cell death. Progressive cognitive impairment and dementia are the main neurological deficits. In addition, there is cumulative evidence demonstrating other metabolic disturbances that impair cell function and hamper neuron viability. The main components of the mitochondria are altered: complex IV of the respiratory chain is reduced; complex V which metabolizes ADP to form ATP is oxidatively damaged and functionally altered; and voltage-dependent anion channel VDAC, a major component of the outer mitochondrial membrane that regulates ion fluxes, is damaged as a result of oxidative stress. Mitochondria are a major source of reactive oxygen species that promote oxidative damage to DNA, RNA, proteins and lipids. Protein targets of oxidative damage are, among others, several enzymatic components of the glycolysis, lipid metabolism and cycle of the citric acid that fuel oxidative phosphorylation, mitochondrial respiration and energy production. The lipid composition of lipid rafts, key membrane specializations that facilitate the transfer of substrates, and protein-protein and lipid-protein interactions, is altered as a result of the abnormally low levels of n-3 long chain polyunsaturated fatty acids (mainly docosahexaenoic acid) that increase viscosity and augment energy consumption. Abnormal lipid raft composition may also modify the activity of key enzymes that modulate the cleavage of the amyloid precursor protein to form toxic Abeta. This is further complicated by the disruption of the complex VDAC with estrogen receptor alpha at the caveolae which participates, under physiological conditions, in the protection against beta-amyloid. Together, all these alterations converge in reduced energy production and increased energy demands in altered cells. Cell exhaustion is suggested as being a determining element to interpret impaired neuron function, reduced molecular turnover, and enhanced cell death.
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PMID:Altered mitochondria, energy metabolism, voltage-dependent anion channel, and lipid rafts converge to exhaust neurons in Alzheimer's disease. 1979 58

Mutations in valosin-containing protein (VCP) cause inclusion body myopathy (IBM), Paget's disease of the bone, and frontotemporal dementia (IBMPFD). Patient muscle has degenerating fibers, rimmed vacuoles (RVs), and sarcoplasmic inclusions containing ubiquitin and TDP-43 (TARDNA-binding protein 43). In this study, we find that IBMPFD muscle also accumulates autophagosome-associated proteins, Map1-LC3 (LC3), and p62/sequestosome, which localize to RVs. To test whether VCP participates in autophagy, we silenced VCP or expressed adenosine triphosphatase-inactive VCP. Under basal conditions, loss of VCP activity results in autophagosome accumulation. After autophagic induction, these autophagosomes fail to mature into autolysosomes and degrade LC3. Similarly, IBMPFD mutant VCP expression in cells and animals leads to the accumulation of nondegradative autophagosomes that coalesce at RVs and fail to degrade aggregated proteins. Interestingly, TDP-43 accumulates in the cytosol upon autophagic inhibition, similar to that seen after IBMPFD mutant expression. These data implicate VCP in autophagy and suggest that impaired autophagy explains the pathology seen in IBMPFD muscle, including TDP-43 accumulation.
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PMID:Valosin-containing protein (VCP) is required for autophagy and is disrupted in VCP disease. 2000 65

VCP (VCP/p97) is a ubiquitously expressed member of the AAA(+)-ATPase family of chaperone-like proteins that regulates numerous cellular processes including chromatin decondensation, homotypic membrane fusion and ubiquitin-dependent protein degradation by the proteasome. Mutations in VCP cause a multisystem degenerative disease consisting of inclusion body myopathy, Paget disease of bone, and frontotemporal dementia (IBMPFD). Here we show that VCP is essential for autophagosome maturation. We generated cells stably expressing dual-tagged LC3 (mCherry-EGFP-LC3) which permit monitoring of autophagosome maturation. We determined that VCP deficiency by RNAi-mediated knockdown or overexpression of dominant-negative VCP results in significant accumulation of immature autophagic vesicles, some of which are abnormally large, acidified and exhibit cathepsin B activity. Furthermore, expression of disease-associated VCP mutants (R155H and A232E) also causes this autophagy defect. VCP was found to be essential to autophagosome maturation under basal conditions and in cells challenged by proteasome inhibition, but not in cells challenged by starvation, suggesting that VCP might be selectively required for autophagic degradation of ubiquitinated substrates. Indeed, a high percentage of the accumulated autophagic vesicles contain ubiquitin-positive contents, a feature that is not observed in autophagic vesicles that accumulate following starvation or treatment with Bafilomycin A. Finally, we show accumulation of numerous, large LAMP-1 and LAMP-2-positive vacuoles and accumulation of LC3-II in myoblasts derived from patients with IBMPFD. We conclude that VCP is essential for maturation of ubiquitin-containing autophagosomes and that defect in this function may contribute to IBMPFD pathogenesis.
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PMID:VCP/p97 is essential for maturation of ubiquitin-containing autophagosomes and this function is impaired by mutations that cause IBMPFD. 2010 22

Cdc48p/p97 is a highly conserved essential AAA protein that is required for many cellular processes, and is identified as a causative gene for an autosomal dominant human disorder, inclusion body myopathy associated with Paget's disease of the bone and frontotemporal dementia (IBMPFD). Cdc48p/p97 is composed of an N-terminal domain, followed by two AAA domains (D1 and D2) whose ATPase activities have been characterized extensively. In this study, effects of mutations on the essential functions of yeast Cdc48p/p97 in vivo were systematically analyzed. IBMPFD-related mutations do not affect the essential functions of Cdc48p/p97. Loss of ATPase activity of D2 leads to loss of function of the protein in vivo. In contrast, ATPase activity of D1 per se is not essential, but a mutation locking D1 in an ATP-bound form is exceptionally lethal. Site-directed and random mutagenesis analyses suggest that the ATP-bound form of D1 changes an inter-domain interaction, thereby perturbing an essential function of Cdc48p/p97.
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PMID:ATP-bound form of the D1 AAA domain inhibits an essential function of Cdc48p/p97. 2013 Jun 84

Inclusion body myopathy associated with Paget's disease of bone and frontotemporal dementia (IBMPFD) is a dominantly inherited degenerative disorder caused by mutations in the valosin-containing protein (VCP) gene. VCP (p97 in mouse, TER94 in Drosophila melanogaster and CDC48 in Saccharomyces cerevisiae) is a highly conserved AAA(+)-ATPase that regulates a wide array of cellular processes. The mechanism of IBMPFD pathogenesis is unknown. Towards elucidating the pathogenic mechanism we have developed and characterized transgenic mice with ubiquitous expression of wild-type and disease-causing versions of human VCP/p97. Here, we report that mice expressing VCP/p97 harboring the mutations R155H or A232E develop pathology that is limited to muscle, brain and bone, recapitulating the spectrum of disease in humans with IBMPFD. The mice exhibit progressive muscle weakness and pathological examination of muscle shows classic characteristics of inclusion body myopathy including rimmed vacuoles and TDP-43 pathology. The mice exhibit abnormalities in behavioral testing and pathological examination of the brain shows widespread TDP-43 pathology. Furthermore, radiological examination of the skeleton reveals that mutant mice develop severe osteopenia accompanied by focal lytic and sclerotic lesions in vertebrae and femur. In vitro studies indicate that mutant VCP causes inappropriate activation of the NF-kappaB signaling cascade, which could contribute to the mechanism of pathogenesis in multiple tissues including muscle, bone and brain.
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PMID:Transgenic mice expressing mutant forms VCP/p97 recapitulate the full spectrum of IBMPFD including degeneration in muscle, brain and bone. 2014 19

Inclusion body myopathy associated with Paget's disease of the bone and fronto-temporal dementia (IBMPFD) is a progressive autosomal dominant disorder caused by mutations in p97/VCP (valosin-containing protein). p97/VCP is a member of the AAA+ (ATPase associated with a variety of activities) protein family and participates in multiple cellular processes. One particularly important role for p97/VCP is facilitating intracellular protein degradation. p97/VCP has traditionally been thought to mediate the ubiquitin-proteasome degradation of proteins; however, recent studies challenge this dogma. p97/VCP clearly participates in the degradation of aggregate-prone proteins, a process principally mediated by autophagy. In addition, IBMPFD mutations in p97/VCP lead to accumulation of autophagic structures in patient and transgenic animal tissue. This is likely due to a defect in p97/VCP-mediated autophagosome maturation. The following review will discuss the evidence for p97/VCP in autophagy and how a disruption in this process contributes to IBMPFD pathogenesis.
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PMID:Inclusion body myopathy, Paget's disease of the bone and fronto-temporal dementia: a disorder of autophagy. 2041 Feb 87


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