Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A form of protein phosphatase-1 (PP1M), which possesses 25-fold higher activity towards the P light chain of myosin (in heavy meromyosin) than other forms of protein phosphatase-1, was purified over 200,000-fold from the myofibrillar fraction of rabbit skeletal muscle. PP1M, which eluted from Superose 12 with an apparent molecular mass of 60 kDa, was dissociated by LiBr into two subunits. One of these displayed enzymic properties identical to those of the catalytic subunit of protein phosphatase-1 (PP1C) and was identified as the beta isoform of PP1C by amino acid sequencing. The second subunit had no intrinsic protein phosphatase activity, but greatly increased the rate at which PP1C dephosphorylated skeletal-muscle heavy meromyosin and decreased the rate at which it dephosphorylated glycogen phosphorylase. The properties of PP1M, together with those of smooth muscle PP1M [Alessi, D., MacDougall, L. K., Sola, M. M., Ikebe, M. & Cohen, P. (1992) Eur. J. Biochem. 210, 1023-1035] and the previously characterised glycogen-associated form of protein phosphatase-1 (PP1G), indicate that the subcellular localisation and substrate specificity of PP1 is determined by its interaction with specific targetting subunits.
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PMID:A myofibrillar protein phosphatase from rabbit skeletal muscle contains the beta isoform of protein phosphatase-1 complexed to a regulatory subunit which greatly enhances the dephosphorylation of myosin. 133 56

Improved methodology was used to establish that the phosphorylation of a serine located 10 residues from the N-terminus of glycogen synthase (N10) increases from 0.12 mol.mol-1 to 0.54 mol.mol-1 in vivo in response to adrenalin. The only 'N10 kinase' detected in muscle extracts was casein kinase-1 (CK1), although its activity was unaffected by injection of adrenalin in vivo or by incubation with cyclic-AMP-dependent protein kinase and MgATP in vitro. Prior phosphorylation of the serine residue N7 by phosphorylase kinase increased sixfold the rate of phosphorylation of glycogen synthase by CK1, and altered the specificity of CK1 so that it phosphorylated the serine residue N10 specifically. Stoichiometric phosphorylation of N7 decreased the activity ratio (+/- glucose 6-phosphate) of glycogen synthase from 0.80 to 0.45, and subsequent phosphorylation of N10 to 0.8 mol.mol-1 produced a further decrease to 0.17, demonstrating that N10 phosphorylation inhibits glycogen synthase. The major 'N10 phosphatase' in skeletal muscle extracts was identified as the glycogen-associated form of protein phosphatase-1 (PP1G), accounting for approximately 75% of the N10 phosphatase activity in the extracts and about 90% of the activity in isolated glycogen particles. Phosphorylation of N10, after prior phosphorylation of N7, decreased the rate of dephosphorylation of N7. These results, in conjunction with previous findings, establish that adrenalin inhibits glycogen synthase by increasing the phosphorylation of N7, N10 and three further serines located 30, 34 and 38 residues from the start of the C-terminal CNBr peptide (termed the region C30-C38). They also indicate that increased phosphorylation of N10, the region C30-C38, and perhaps N7, is initiated through the inhibition of PP1G by adrenalin, which results from phosphorylation of its glycogen-targetting subunit by cyclic-AMP-dependent protein kinase [Hubbard, M.J. & Cohen, P. (1989) Eur. J. Biochem. 186, 711-716]. The conclusion that direct phosphorylation of glycogen synthase by cyclic-AMP-dependent protein kinase makes little contribution to inhibition by adrenalin, is at variance with the teachings of the major textbooks of biochemistry.
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PMID:The molecular mechanism by which adrenalin inhibits glycogen synthesis. 165 Dec 42

The amount of protein phosphatase 1 (PP1) activity in rabbit skeletal muscle associated with membranes (predominantly sarcoplasmic reticulum) is similar to that bound to glycogen-protein particles. Membrane-vesicle-associated (sarcovesicular) PP1 can be solubilised with 0.5% Triton X-100 (but not 0.5M NaCl) and is complexed to a protein that is structurally and functionally very similar or identical to the G subunit which targets PP1 to glycogen-protein particles. This conclusion is based on immunoblotting and immunotitration experiments using two different preparations of G-subunit-specific antibodies, binding of Triton-solubilised sarcovesicular enzyme to glycogen, stimulation of phosphorylase phosphatase activity by glycogen, phosphorylation of the same tryptic peptides by cyclic-AMP-dependent protein kinase (A-kinase) and release of catalytic subunit following phosphorylation by A-kinase. Membrane-association is not mediated via glycogen because sarcovesicular PP1 is (1) not released by digestion with alpha-amylase or at dilutions which fully dissociate the glycogen-bound enzyme, and (2) is solubilised by Triton X-100 (whereas glycogen-associated PP1 is not). These findings demonstrate that sarcovesicular PP1 is highly homologous to, or the same as, glycogen-associated PP1G and raises the possibility that a common targetting subunit may direct PP1 to different subcellular locations.
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PMID:Targetting of protein phosphatase 1 to the sarcoplasmic reticulum of rabbit skeletal muscle by a protein that is very similar or identical to the G subunit that directs the enzyme to glycogen. 215 75

The regulatory G-subunit of the glycogen-associated form of protein phosphatase 1 (PP1) plays a crucial part in muscle tissue glycogen synthesis and breakdown. As impaired insulin stimulated glycogen synthesis in peripheral tissues is considered to be a pathogenic factor in subsets of non-insulin-dependent diabetes mellitus (NIDDM) and obesity, the G-subunit of PP1 should be viewed as a candidate gene for inherited insulin resistance. When applying heteroduplex formation analysis and nucleotide sequencing of PP1G-subunit cDNA from 30 insulin resistant white NIDDM patients two cases were identified as heterozygous carriers of an Asp905 --> Tyr substitution. The carrier prevalence of the PP1G-subunit variant was 18% in 150 healthy subjects and 13% in 313 NIDDM subjects (chi 2 = 1.94, p = 0.16). Twenty-seven healthy subjects volunteered for a 4 h euglycaemic, hyperinsulinaemic clamp in combination with indirect calorimetry in order to elucidate the potential impact of the Tyr905 substitution on the whole body glucose metabolism. Interestingly, the Tyr905 variant was associated with altered routing of glucose: a decreased insulin stimulated non-oxidative glucose metabolism of peripheral tissues (glycogen synthesis) (p < 0.04) and an increased basal glucose oxidation rate (p < 0.04) when compared with wild type carriers. A population-based sample of 380 unrelated young healthy Caucasians was examined during a combined intravenous glucose and tolbutamide test to address whether the Asp905/Tyr905 polymorphism was associated with alterations in insulin secretion which might be secondary to the insulin resistance of skeletal muscle.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A widespread amino acid polymorphism at codon 905 of the glycogen-associated regulatory subunit of protein phosphatase-1 is associated with insulin resistance and hypersecretion of insulin. 758 68

Impaired insulin-stimulated glycogen synthesis of peripheral tissues is a characteristic feature of many patients with non-insulin-dependent diabetes mellitus (NIDDM) and their first-degree relatives with normal glucose tolerance, suggesting putative inherited defects in this metabolic pathway. In previous studies, we have failed to reveal mutations in the coding regions of the muscle-specific glycogen synthase gene and the three genes that encode the catalytic subunits of protein phosphatase 1 (PP1) as frequent causes of insulin resistance. Because the glycogen-associated regulatory subunit of protein phosphatase 1 (PP1 G-subunit) plays a key role in the insulin stimulation of glycogen synthesis and the activity of PP1 is decreased in insulin-resistant subjects, we have now cloned the human G-subunit cDNA to search for abnormalities in the corresponding gene (designated PPP1R3 in the human genome nomenclature) in patients with NIDDM. The human cDNA was isolated from a skeletal muscle cDNA library and was found to encode a 126-kDa protein, which shows 73% amino acid identity to the rabbit PP1 G-subunit. The human G-subunit cDNA from 30 insulin-resistant NIDDM patients was analyzed for genetic variations in the G-subunit by using single-stranded conformation polymorphism (SSCP) scanning of reversely transcribed mRNA. One variant SSCP profile was detected in the region encoding the COOH-terminal part of the PP1 G-subunit in only one NIDDM patient, and subsequent nucleotide sequencing showed a C to A transversion on one allele at base position 2792. This change predicts an amino acid substitution from alanine to glutamic acid.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sequence of the human glycogen-associated regulatory subunit of type 1 protein phosphatase and analysis of its coding region and mRNA level in muscle from patients with NIDDM. 792 94

This study identifies a 100-residue domain within the rabbit skeletal muscle regulatory subunit (PP1G) that binds both type-1 protein phosphatase (PP1C) and glycogen. An N-terminal portion of PP1G was cloned by RT-PCR, and different sized fragments were expressed in bacteria as glutathione S-transferase (GST) fusion proteins. A GST-PP1G fusion containing residues 51-240 bound both PPIC and glycogen, whereas GST alone or fusions containing residues 51-140 or 241-360 bound neither PP1C nor glycogen. The PPIC in whole cell lysates or partially purified PP1C from skeletal muscle, or a complex of PP1C-MCLR-biotin, all bound more effectively than Mn(2+)-activated, recombinant PP1C purified from bacteria. Binding was enhanced by increasing the ionic strength and was disrupted by ethylene glycol, consistent with hydrophobic interactions being critical for stable association. Phosphorylation of the GST-PP1G fusion by cAMP-dependent protein kinase prevented completely association of PP1C. This domain of PP1G, from residues 141-240, contains two sequence motifs of hydrophobic residues: Gx8FEKx10W and DxFxFxIxL, that are conserved among the known glycogen-binding PP1 regulatory subunits. These segments are predicted to form an alpha helix and a beta sheet, and we propose that they are the sites for association with PP1C and glycogen, respectively.
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PMID:Protein phosphatase type-1 and glycogen bind to a domain in the skeletal muscle regulatory subunit containing conserved hydrophobic sequence motif. 890 29

Even among young, healthy individuals, there is more than a 10-fold variation in insulin sensitivity; however, taken in combination, all the known modifiers of insulin sensitivity - including obesity and a variety of environmental factors - explain less than one third of this variation. It is possible that genetic factors could account for the bulk of the variance observed, and hence play a major role in the development of impaired insulin sensitivity, ie insulin resistance. From the genetic point of view, insulin resistance is thought to be due to the inheritance of a number of mutations in a variety of genes. Three complementary approaches have been applied in the search for mutations: mutational analysis of candidate genes; linkage analysis of candidate genes or chromosomal regions for insulin resistance in familial type 2 diabetes; and random genome mapping with quantitative trait loci (QTL) analysis. Mutational analysis of the insulin signalling cascade has identified a glycine-arginine (Gly-Arg) substitution at codon 972 of the insulin receptor substrate-1 (IRS-1) gene with a carrier prevalence of 9% among Caucasians. Expression of this variant in 32-D cells is associated with a significant (20-30%) impairment of insulin-stimulated PI3-kinase activity, as well as reduced binding of IRS-1 to the p85 regulatory subunit of PI3-kinase. Genotype/phenotype studies stratified according to body mass index (BMI) indicate that obese subjects who are heterozygous for the mutant allele have a 50% decrease in insulin sensitivity, compared with wild-type obese subjects. This suggests that there may be an interaction between the mutant allele and obesity, such that, in the presence of obesity, the mutant variant may aggravate the obesity-associated insulin resistance. Mutational analysis has also shown that homozygous carriers of a codon Met 326 Ile mutation in the p85 subunit of phosphatidylinositol-3 (PI3)-kinase (about 2% of the Caucasian population) have lower glucose tolerance, glucose effectiveness. A further Asp to Tyr polymorphism has been identified at codon 905 of the gene encoding the regulatory subunit of glycogen-associated protein phosphatase-1 (PP1G). Individuals who are heterozygous for this polymorphism constitute 18% of the Caucasian population and appear to exhibit both tissue-specific and pathway-specific insulin resistance. It is likely that inherited insulin resistance will eventually prove to be related to subtle mutations in many such genes of the insulin signalling network and the numerous genetic components controlling energy metabolism.
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PMID:Genetics of insulin resistance. 1032 50

A newly identified 3'-untranslated region (UTR) polymorphism of the gene for skeletal muscle-specific glycogen-targeting subunit of protein phosphatase 1 (PPP1R3) was associated with insulin resistance and type 2 diabetes in Pima Indians (Xia J, Scherers W, Cohen PTW, Majer M, Xi T, Norman RA, Knowler WC, Bogardus C, Prochazka M: A common variant in PP1R3 associated with insulin resistance and type 2 diabetes. Diabetes 47:1519-1524, 1998). Thus, we investigated the frequency of polymorphism of the adenine- and thymine-rich element (ARE-1 and its variant ARE-2) in 426 Japanese type 2 diabetic and 380 nondiabetic subjects using a polymerase chain reaction (PCR)-restriction enzyme fragment length polymorphism (RFLP) method. The allele frequency of the ARE-2 variant in diabetic subjects was higher than that in nondiabetic subjects (0.34 vs. 0.29; P < 0.05), even though its frequency in Japanese subjects was lower (P < 0.001) than the reported value in Pima Indians (0.56). An aspartate polymorphism at codon 905 was 100% coupled to the ARE-2 allele, and its allele frequency was higher also in diabetic subjects. Although a serine substitution at codon 883 was partially linked with the ARE-2 allele, there was no difference between diabetic and nondiabetic subjects. These results indicate that the frequency of polymorphism of the PPP1R3 gene (ARE-2 and Asp905) is different between two ethnic groups and is increased in Japanese people with type 2 diabetes, suggesting that these variants may be a possible marker for searching for diabetogenic genes.
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PMID:The 3'-untranslated region polymorphism of the gene for skeletal muscle-specific glycogen-targeting subunit of protein phosphatase 1 in the type 2 diabetic Japanese population. 1038 56

Recently, the PTEN/MMAC1 gene encoding a protein phosphatase (PP) and the PPP2R1B gene encoding a regulatory subunit of PP2A have been identified as being genetically altered in several types of human cancers, indicating that aberrations of intracellular signaling pathways via PPs are involved in human carcinogenesis. Here we report genetic alterations of the PPP1R3 gene located at chromosome 7q31, which encodes regulatory subunit 3 of PP1, in various types of human cancers. Mutations of the PPP1R3 gene were detected in 5 of 33 (15%) non-small cell lung cancer cell lines and 2 of 38 (5%) primary non-small cell lung cancers and were also observed in cell lines derived from a small cell lung cancer, an ovarian cancer, a colorectal cancer, and a gastric cancer. Mutations were widely dispersed in the coding region of the PPP1R3 gene. Three of the 11 detected mutations were nonsense mutations, whereas the remaining ones were missense mutations, most of which caused substitutions of evolutionarily conserved amino acids. These findings suggest that PPP1R3 alteration plays a role in the development of human cancers and that PPP1R3 could act as a tumor suppressor gene.
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PMID:Alterations of the PPP1R3 gene in human cancer. 1048 48

The PPP1R3 gene encoding the G-subunit of protein phosphatase-1 has three polymorphisms in linkage disequilibrium in the Pima Indians: an mRNA-destabilizing element in the 3'-untranslated region (ARE1/ARE2 alleles), Arg883Ser, and Asp905Tyr substitutions. The ARE2 allele, Arg883, and Asp905 variants are associated with insulin resistance and higher prevalence of type 2 diabetes in the Pima Indians. The ARE2 allele is associated with lower PPP1R3 transcript and protein levels in muscle tissue. Here we determined the functional contribution of the amino acid substitutions independent of the ARE alleles to insulin-stimulated glycogen synthesis by adenoviral-mediated gene expression in L6 myotubes. Similar overexpression levels of the G-subunit variants increased glycogen synthase fractional activity in the presence ( approximately 1. 5-fold) of insulin compared to control myotubes transduced with adenovirus encoding beta-galactosidase. The glycogen synthesis rate of myotubes overexpressing the G-subunit variants also increased by approximately 1.7-fold over the control with and without insulin. However, these measures were not significantly different among the variants. This study does not support a role for Arg883 and Asp905 variants independent of the ARE2 allele in the impaired insulin-stimulated glycogen synthesis in the muscle of Pima Indians.
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PMID:Functional analyses of amino acid substitutions Arg883Ser and Asp905Tyr of protein phosphatase-1 G-subunit. 1087 97


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