EC:3.6.1.3 - FACTA Search

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

We have examined protein phosphorylation in the presence of purified mammalian HSP-70 kDa using the phosphoproteins in the rabbit reticulocyte lysate system as a model. Purified HSP-70 added to the rabbit reticulocyte lysate decreased the general protein phosphorylation by 50-80% as measured by PAGE analysis of proteins labelled with gamma-(32P)-ATP. Reduction in protein phosphorylation was not due to the ATPase activity of HSP-70 as measured by thin layer chromatography. The reduction in protein phosphorylation was also not due to the reduced activities of the protein kinases. However, using (32P)-labelled phosphorylase-alpha as a substrate in the phosphatase assay system indicated increases in the activity of protein phosphatase 1(PP-1) and/or 2A (PP-2A) by 20-40% relative to control in the presence of increasing concentrations of HSP-70. Using a variety of activators and inhibitors of the two major protein phosphatases, PP-1 and PP-2A, we found that Mn2+ caused a similar pattern of dephosphorylation of proteins as measured by PAGE analysis. Both okadaic acid and microcystin, two protein phosphatase inhibitors, largely counteracted the HSP-70 effect as measured by gel electrophoresis or when (32P)-labelled phosphorylase-alpha was used as a substrate. We conclude that in this system HSP-70 activates specific protein phosphatases.
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PMID:Purified mammalian HSP-70 KDA activates phosphoprotein phosphatases in vitro. 838 96

The pattern of 72-kDa heat-shock protein (HSP-72) induction after renal ischemia suggests a role in restoring cell structure. HSP-72 activity in the repair and release from denatured and aggregated proteins requires ATP. Protein aggregates were purified from normal and ischemic rat renal cortex. The addition of ATP to cortical homogenates reduced HSP-72, Na(+)-K(+)-ATPase, and actin in aggregates subsequently isolated, suggesting that their interaction is ATP dependent. Altering ATP hydrolysis in the purified aggregates, however, had different effects. ATP released HSP-72 during reflow and preserved Na(+)-K(+)-ATPase association with aggregates at 2 h but had no effect in controls or at 6 h reflow and caused no change in actin. These results indicate that HSP-72 complexes with aggregated cellular proteins in an ATP-dependent manner and suggests that enhancing HSP-72 function after ischemic renal injury assists refolding and stabilization of Na(+)-K(+)-ATPase or aggregated elements of the cytoskeleton, allowing reassembly into a more organized state.
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PMID:ATP releases HSP-72 from protein aggregates after renal ischemia. 948 21

Under stress conditions, the facultative intracellular pathogen Listeria monocytogenes produces a ClpC ATPase, which is a general stress protein encoded by clpC and belonging to the HSP-100/Clp family. A ClpC-deficient mutant was obtained by gene disruption in strain LO28, which became highly susceptible to stress conditions in vitro. Intracellular growth of this mutant was restricted within macrophages, one of the major target cells of L. monocytogenes, during the infectious process. A quantitative electron microscope study showed that, contrary to wild-type bacteria that rapidly gain access to the cytoplasm of macrophages, mutant bacteria remained confined to membrane-bound phagosomes. Only a few mutant bacteria disrupted the phagosome membrane after 4h of incubation, then polymerized actin filaments and multiplied within the cytoplasm. The ClpC ATPase, therefore, promotes early bacterial escape from the phagosome of macrophages, thus enhancing intracellular survival. The ClpC ATPase was produced in vivo during experimental infection by wild-type bacteria. The virulence of the ClpC-deficient mutant was severely attenuated in mice, with a three-log decrease in its 50% lethal dose compared with wild-type bacteria. Bacterial growth of mutant bacteria was strongly restricted in organs, presumably because of an impairment of intracellular survival in host tissues. Our results provide evidence that a general stress protein is required for the virulence of L. monocytogenes, which behaves as a virulence factor promoting intracellular survival of this pathogen.
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PMID:The ClpC ATPase of Listeria monocytogenes is a general stress protein required for virulence and promoting early bacterial escape from the phagosome of macrophages. 957 Apr 8

The yeast SWI/SNF chromatin remodeling complex is comprised of 11 tightly associated polypeptides (SWI1, SWI2, SWI3, SNF5, SNF6, SNF11, SWP82, SWP73, SWP59, SWP61, and SWP29). We have used matrix-assisted laser desorption ionization time-of-flight mass spectrometry to identify the genes that encode the SWP59 and SWP61 subunits. Surprisingly, we find that SWP59 and SWP61 are encoded by the ARP9 and ARP7 genes, respectively, which encode members of the actin-related protein (ARP) family. Sequence analyses have shown that ARP9 and ARP7 are 24-26% identical (48-51% similar) to yeast actin and that they are likely to maintain the overall actin fold. Deletion of either the ARP9 or ARP7 gene causes typical swi/snf phenotypes, including growth defects on media containing galactose, glycerol, or sucrose as sole carbon sources. ARP9 and ARP7 are also required for expression of an HO-lacZ fusion gene and for full transcriptional enhancement by the GAL4 activator. The identification of two ARP family members as crucial subunits of the SWI/SNF complex suggests that the complex may contain a total of three different ATPase subunits; furthermore, the similarity of ARP7 and ARP9 to the HSP and HSC family of ATPases suggests the possibility that chromatin remodeling by SWI/SNF may involve chaperone-like activities.
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PMID:Subunits of the yeast SWI/SNF complex are members of the actin-related protein (ARP) family. 972 66

Autosomal dominant hereditary spastic paraplegia (AD-HSP) is a genetically heterogeneous neurodegenerative disorder characterized by progressive spasticity of the lower limbs. Among the four loci causing AD-HSP identified so far, the SPG4 locus at chromosome 2p2-1p22 has been shown to account for 40-50% of all AD-HSP families. Using a positional cloning strategy based on obtaining sequence of the entire SPG4 interval, we identified a candidate gene encoding a new member of the AAA protein family, which we named spastin. Sequence analysis of this gene in seven SPG4-linked pedigrees revealed several DNA modifications, including missense, nonsense and splice-site mutations. Both SPG4 and its mouse orthologue were shown to be expressed early and ubiquitously in fetal and adult tissues. The sequence homologies and putative subcellular localization of spastin suggest that this ATPase is involved in the assembly or function of nuclear protein complexes.
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PMID:Spastin, a new AAA protein, is altered in the most frequent form of autosomal dominant spastic paraplegia. 1061 Jan 78

Most cases of early onset torsion dystonia are caused by a 3-bp deletion (GAG) in the coding region of the TOR1A gene (alias DYT1, DQ2), resulting in loss of a glutamic acid in the carboxy terminal of the encoded protein, torsin A. TOR1A and its homologue TOR1B (alias DQ1) are located adjacent to each other on human chromosome 9q34. Both genes comprise five similar exons; each gene spans a 10-kb region. Mutational analysis of most of the coding region and splice junctions of TOR1A and TOR1B did not reveal additional mutations in typical early onset cases lacking the GAG deletion (N = 17), in dystonic individuals with apparent homozygosity in the 9q34 chromosomal region (N = 5), or in a representative Ashkenazic Jewish individual with late onset dystonia, who shared a common haplotype in the 9q34 region with other late onset individuals in this ethnic group. A database search revealed a family of nine related genes (50-70% similarity) and their orthologues in species including human, mouse, rat, pig, zebrafish, fruitfly, and nematode. At least four of these genes occur in the human genome. Proteins encoded by this gene family share functional domains with the AAA/HSP/Clp-ATPase superfamily of chaperone-like proteins, but appear to represent a distinct evolutionary branch.
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PMID:The TOR1A (DYT1) gene family and its role in early onset torsion dystonia. 1064 35

Autosomal dominant hereditary spastic paraplegia (AD-HSP) is a genetically heterogeneous neurodegenerative disorder characterised by progressive spasticity of the lower limbs. The SPG4 locus at 2p21-p22 accounts for 40-50% of all AD-HSP families. The SPG4 gene was recently identified. It is ubiquitously expressed in adult and foetal tissues and encodes spastin, an ATPase of the AAA family. We have now identified four novel SPG4 mutations in German AD-HSP families, including one large family for which anticipation had been proposed. Mutations include one frame-shift and one missense mutation, both affecting the Walker motif B. Two further mutations affect two donor splice sites in introns 12 and 16, respectively. RT-PCR analysis of both donor splice site mutations revealed exon skipping and reduced stability of aberrantly spliced SPG4 mRNA. All mutations are predicted to cause loss of functional protein. In conclusion, we confirm in German families that SPG4 mutations cause AD-HSP. Our data suggest that SPG4 mutations exert their dominant effect not by gain of function but by haploinsufficiency. If a threshold level of spastin were critical for axonal preservation, such threshold dosage effects might explain the variable expressivity and incomplete penetrance of SPG4-linked AD-HSP.
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PMID:Hereditary spastic paraplegia caused by mutations in the SPG4 gene. 1103 77

The resistance of the immature kidney to ischemic injury is well documented, but the mechanisms involved in this tolerance have been elusive. Previous studies have demonstrated that tubules obtained from immature rats exhibit a bigger stress response than mature tubules. Consequently, we evaluated the developmental expression of HSP-72 in the postnatal kidney and determined whether or not that pattern of expression was correlated with the previously known tolerance of the immature kidney to injury. A distinct pattern of HSP-72 expression with a peak abundance at postnatal day 10 (P10), with a subsequent decline toward values seen in mature rats, was found. Moreover, this stress protein is located predominantly in tubular segments, the site of ischemic injury. To determine if this constitutive, non-induced expression of HSP-72 in the immature rat could be protective of cellular integrity and renal function, both immature (P10) and mature (8 weeks) rats were subjected to 45 min of bilateral renal artery ischemia. The postischemic induction of HSP-72 in the P10 animals was robust and the peak expression 2 h after ischemia was even greater than that detected in mature animals. Thus, the constitutive enhanced expression of HSP-72 did not prohibit or mute the inducible response of this stress protein in the immature animals. Immature animals, when compared with mature rats, also experienced cytoprotection, demonstrated by decreased detachment of Na-/K-ATPase from the cytoskeleton and substantial protection of renal function determined by serum creatinine level. These findings suggest that the developmental expression of heat shock proteins may play a critical and fundamental role in the well-observed tolerance of immature tubules to ischemic or anoxic injury.
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PMID:Developmental expression of HSP-72 and ischemic tolerance of the immature kidney. 1257 93

Immunization with antigenic peptide non-covalently associated with HSP elicits the peptide specific CD8+T cell response. The evidence encourages us to test the vaccination effect of recombinant HSP to which antigenic peptides are genetically fused. In the fusion protein, there should be no empty HSP molecules that failed to associate with the peptide of interest, like in vitro reconstitution method, therefore, promising effect may be easily obtained. Recombinant proteins expressed in Escherichia coli often form inclusion bodies and are thereby obtained as insoluble proteins or as proteins lacking their original functions. We describe here a simple and rapid refolding method of histidine-tagged recombinant hsp70/hsp70-peptide complex using a Ni(2+)-agarose column chromatography, without taking a process of dialysis to remove denaturants. The hsp70(hsp70-peptide complex) expressed in E. coli as a form of inclusion body was solubilized in 8 M urea containing buffer and applied to a Ni(2+)-agarose column. The bound hsp70 was refolded on the column by quick removal of urea with urea-free buffer and eluted with a denaturant-free and imidazole-containing buffer. The purified hsp70 was homogeneous and soluble. In addition, it had a very high ATPase activity and strong CTL inducing activity, whereas hsp70 prepared by conventional dialysis method had a negligible ATPase activity. This simple and rapid refolding method may provide a general method for a restoration of function (and/or immunization effect) and solubility of histidine-tagged recombinant HSP.
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PMID:Hsp-antigen fusion and their use for immunization. 1462 72

The most common form of human autosomal dominant hereditary spastic paraplegia (AD-HSP) is caused by mutations in the SPG4 (spastin) gene, which encodes an AAA ATPase closely related in sequence to the microtubule-severing protein Katanin. Patients with AD-HSP exhibit degeneration of the distal regions of the longest axons in the spinal cord. Loss-of-function mutations in the Drosophila spastin gene produce larval neuromuscular junction (NMJ) phenotypes. NMJ synaptic boutons in spastin mutants are more numerous and more clustered than in wild-type, and transmitter release is impaired. spastin-null adult flies have severe movement defects. They do not fly or jump, they climb poorly, and they have short lifespans. spastin hypomorphs have weaker behavioral phenotypes. Overexpression of Spastin erases the muscle microtubule network. This gain-of-function phenotype is consistent with the hypothesis that Spastin has microtubule-severing activity, and implies that spastin loss-of-function mutants should have an increased number of microtubules. Surprisingly, however, we observed the opposite phenotype: in spastin-null mutants, there are fewer microtubule bundles within the NMJ, especially in its distal boutons. The Drosophila NMJ is a glutamatergic synapse that resembles excitatory synapses in the mammalian spinal cord, so the reduction of organized presynaptic microtubules that we observe in spastin mutants may be relevant to an understanding of human Spastin's role in maintenance of axon terminals in the spinal cord.
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PMID:Drosophila spastin regulates synaptic microtubule networks and is required for normal motor function. 1556 20

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