EC:3.1.3.16 - FACTA Search

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)

Using 32P-labeled histone as exogenous substrate, we showed a potent stimulatory effect of somatostatin on cytosolic phosphoprotein phosphatases (PPPases; phosphoprotein phosphohydrolase, EC 3.1.3.16) in rat gastric mucosal cells. Partial purification of cytosolic fraction in DEAE-Sephadex ion-exchange chromatography and further gel filtration on Sephadex C-75 and Sephadex G-100 separated somatostatin-dependent PPPases into three distinct molecular species. One corresponding to Mr 130,000 was devoid of any PPPase activity but specifically bound [Tyr1]somatostatin 125I-labeled on the Tyr ([125I-Tyr1]somatostatin) with an apparent equilibrium dissociation constant of 3 x 10(-10) M. The two other molecular species corresponded to Mrs 64,000 and 13,000. They produced catalytic dephosphorylation of 32P-labeled histone, but they were not sensitive to somatostatin and did not show any specific binding to radiolabeled hormone. Mixing of the larger with either of the two smaller molecular species resulted in concentration -dependent inhibition of PPPase activity. However this inhibition was reversed by increased concentrations of somatostatin, with the concentration for half-maximal reactivation on being close to 0.1 nM. Furthermore somatostatin stimulation in reconstituted materials developed according to a rapid time course (t1/2, less than 5 sec), consistent with that observed for binding of [125I-Tyr1]somatostatin. These results strongly argue for the presence of an intracellular somatostatin receptor in gastric mucosal cells and characterize this receptor as a PPPase regulatory subunit. Thus, substrate dephosphorylation could be the primary event triggering physiological effects of somatostatin in stomach and perhaps other organs of the digestive tract [Reyl, F. & Lewin, M. J.l M. (1981) Biochim. Biophys. Acta 675, 297-300].
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PMID:Intracellular receptor for somatostatin in gastric mucosal cells: decomposition and reconstitution of somatostatin-stimulated phosphoprotein phosphatases. 612 13

The substrate specificity of a preparation of phosphoprotein phosphatase (Mr = 32 000) from rat liver was investigated. Phosphopeptides based on the structure Leu-Arg-Arg-Ala-Ser(P)-Val-Ala-Glx-Leu and Ala-Arg-Thr-Lys-Arg-Ser-Gly-Ser(P)-Val-Tyr-Glu-Pro-Leu-Lys were used. These phosphopeptides correspond to the phosphorylation sites of rat liver pyruvate kinase (type L) and the beta subunit of rabbit muscle phosphorylase b kinase, respectively. A decrease in the apparent Km values and a concomitant increase in Vmax values was observed when the number of amino acyl residues after the phosphoseryl residue in the respective phosphopeptides were increased from 2 to 4, 5, or 6. Most of the phosphopeptides investigated generally showed apparent Km values higher than the values obtained with phosphopyruvate kinase. Ala-Ser(P)-Val-Ala and Gly-Ser(P)-Val-Tyr appeared to be the shortest phosphopeptides that could be dephosphorylated rapidly. These findings support the hypothesis that a small part of the phosphoprotein may be sufficient to fulfill the minimal requirements for its dephosphorylation.
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PMID:Phosphopeptide substrates of a phosphoprotein phosphatase from rat liver. 625 66

Terbium, a trivalent lanthanide, effectively substituted for Ca2+ in calmodulin as judged by several criteria: intrinsic fluorescence spectra, altered mobilities on polyacrylamide gel electrophoresis, formation of a stable complex with troponin I or calcineurin, and stimulation of phosphodiesterase. Calmodulin harbors four Ca2+ binding domains; domains I and II contain no tyrosine, whereas domains III and IV each have one tyrosine. The binding of Tb3+ to calmodulin was followed by the increase of Tb3+ fluorescence at 545 nm upon binding to calmodulin. This fluorescence was elicited either by exciting Tb3+ directly at 222 nm or by exciting the calmodulin tyrosine at 280 nm with resulting energy transfer from tyrosine to Tb3+. Fluorescence generated by direct excitation measures binding of Tb3+ to any of the Ca2+ binding domains, whereas energy transfer through indirect excitation is effective only when Tb3+ is within 5 A of tyrosine, indicating that Tb3+ necessarily occupies a Ca2+ binding domain that contains tyrosine. A judicious use of the direct and indirect excitation could reveal the sequence of fill of the binding domains. Our results suggest these domains are filled in the following sequence: 1) domain I or II; 2) domains III and IV; and 3) domain II or I that has not been filled initially.
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PMID:Calcium binding domains of calmodulin. Sequence of fill as determined with terbium luminescence. 627

The synthetic phosphohexapeptides Arg-Arg-Ala-Thr(35P)-Val-Ala and Arg-Arg-Ala-Ser(32P)-Val-Ala, phosphorylated by the cAMP-dependent protein kinase and differing only in the nature of the phosphorylated residue, have been used as substrates of a partially purified rat liver protein phosphatase-T, distinct from the multifunctional protein phosphatase-1. While the phosphothreonyl hexapeptide is readily dephosphorylated (exhibiting a Km = 15 microM), the phosphoseryl one is almost unaffected. Such a behavior is not shared by protein phosphatase-1, calf intestine alkaline phosphatase, and potato acid phosphatase, all of which are more active on the phosphoseryl hexapeptide. The NH2-terminal basic residues critical for cAMP-dependent phosphorylation are not required in the dephosphorylation reaction, as both Arg can be removed without impairing the efficiency of protein phosphatase-T toward the phosphothreonyl peptide. On the other hand, the replacement of 2 Pro for the Ala and Val flanking Thr(32P), to give a new phosphohexapeptide reproducing the phosphorylated site of protein phosphatase inhibitor-1, prevents the protein phosphatase-T activity. Moreover, IgG heavy chain 32P labeled in tyrosine is not affected by protein phosphatase-T, while it is dephosphorylated by alkaline phosphatase. These results would indicate that protein phosphatase(s)-T represent a distinct class of protein phosphatases specifically involved in the dephosphorylation of phosphothreonyl residues fulfilling definite structural requirements.
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PMID:Dephosphorylation of synthetic phosphopeptides by protein phosphatase-T, a phosphothreonyl protein phosphatase. 628 35

The LSTRA murine thymoma cell line contains an elevated level of tyrosine protein kinase activity. When a microsomal preparation from these cells is incubated in vitro with ATP, the principal tyrosine protein kinase substrate is a 56,000-dalton protein, p56. We have found that an activity phosphorylating p56 on tyrosine can also be detected at low levels in microsomes from most, but not all, T lymphoma cell lines and from normal thymic tissue. Only 1 of 30 other lymphoma cell lines was found to contain an elevated level of such a tyrosine protein kinase. An activity that phosphorylated p56 in vitro was not detectable in the cells of other hematopoietic lineages. Anti-peptide antibodies reactive with the site of in vitro tyrosine phosphorylation of p56 allowed us to determine that the apparent abundance of the p56 polypeptide parallels closely the level of the tyrosine protein kinase activity in the cell lines examined. This suggests that p56 is the protein kinase responsible for the elevated tyrosine protein kinase activity in LSTRA cells and that the phosphorylation of p56 observed in vitro results from autophosphorylation. Two-dimensional tryptic peptide mapping revealed that p56 is distinct from the proteins encoded by the cellular genes which are the progenitors of retroviral tyrosine protein kinases, src, yes, fgr, abl, fes, and ros. Additionally, none of these proto-oncogenes was found to be transcribed at elevated levels in LSTRA or Thy19 cells. Like the catalytic subunit of the cyclic AMP-dependent protein kinase, the cellular and viral forms of p60src, and the protein phosphatase calcineurin B, p56 contains covalently bound fatty acid.
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PMID:Characterization of the protein apparently responsible for the elevated tyrosine protein kinase activity in LSTRA cells. 654 43

Calmodulin transduces Ca2+ signals by binding to and activating essential regulatory enzymes. The large number of intracellular targets for calmodulin raises the possibility that mechanisms in addition to Ca2+ may modulate calmodulin activity. Phosphocalmodulin is found in cells and tissues, and calmodulin phosphorylation is enhanced by several mitogens. Phosphorylation of calmodulin on serine/threonine residues by casein kinase II decreased its ability to activate Ca2+/calmodulin-dependent protein kinase II (CaM-kinase II). The major effect was a 2.5-fold increase in the concentration at which half-maximal velocity (K0.5) was attained, with no apparent alteration in the Vmax, or the K0.5 for Ca2+. In contrast, calmodulin phosphorylated on tyrosine residues by the insulin receptor kinase produced an increase in the Vmax, with no alteration in the affinity for CaM-kinase II or the K0.5 for Ca2+. Direct determination by surface plasmon resonance of the dissociation constants with a synthetic peptide corresponding to the calmodulin-binding domain of CaM-kinase II revealed that phosphorylation on serine/threonine residues of calmodulin significantly decreased its affinity for the peptide, while tyrosine phosphorylation had no effect on binding. In contrast to CaM-kinase II, neither serine/threonine nor tyrosine phosphorylation of calmodulin altered its ability to activate calcineurin. These data indicate that phosphorylation of calmodulin differentially modifies its interaction with individual target enzymes. Moreover, the amino acid residues phosphorylated provide an additional level of control. These results demonstrate that phosphorylation is an in vitro regulatory mechanism in the targeting of calmodulin responses and, coupled with the stoichiometric phosphorylation of calmodulin in rat hepatocytes, suggest that it may be relevant in intact cells.
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PMID:The activity of calmodulin is altered by phosphorylation: modulation of calmodulin function by the site of phosphate incorporation. 749 13

A gene named stp1+, coding for a 17.5-kDa protein, that rescues cdc25-22 when overexpressed, has been previously isolated from fission yeast. Here we describe the expression and purification of Stp1 protein as a fusion with the glutathione S-transferase in E. coli and its kinetic characterisation. Stp1 deduced protein sequence shows an high homology to members of a class of cytosolic low M(r) protein phosphatase previously known to exist only in mammalian species. Stp1 has a kinetic behaviour that appears to be intermediate with respect to the two isoenzymatic forms of low M(r) protein tyrosine phosphatases present in mammalian tissues. These differing kinetic characteristics are mainly due to the sequence 45-56 that is spatially close to the active site pocket.
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PMID:Expression, purification and kinetic behaviour of fission yeast low M(r) protein-tyrosine phosphatase. 749 7

Protein phosphatase 1 (PP1) is a serine/threonine protein phosphatase that is essential in regulating diverse cellular processes. Here we report the crystal structure of the catalytic subunit of human PP1 gamma 1 and its complex with tungstate at 2.5 A resolution. The anomalous scattering from tungstate was used in a multiple wavelength anomalous dispersion experiment to derive crystallographic phase information. The protein adopts a single domain with a novel fold, distinct from that of the protein tyrosine phosphatases. A di-nuclear ion centre consisting of Mn2+ and Fe2+ is situated at the catalytic site that binds the phosphate moiety of the substrate. Proton-induced X-ray emission spectroscopy was used to identify the nature of the ions bound to the enzyme. The structural data indicate that dephosphorylation is catalysed in a single step by a metal-activated water molecule. This contrasts with other phosphatases, including protein tyrosine phosphatases, acid and alkaline phosphatases which form phosphoryl-enzyme intermediates. The structure of PP1 provides insight into the molecular mechanism for substrate recognition, enzyme regulation and inhibition of this enzyme by toxins and tumour promoters and a basis for understanding the expanding family of related phosphatases which include PP2A and PP2B (calcineurin).
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PMID:Crystal structure of the catalytic subunit of human protein phosphatase 1 and its complex with tungstate. 750 Mar 62

The catalytic subunit of protein phosphatase 2A (PP2A) is inactivated by in vitro phosphorylation of Tyr307 by receptor and nonreceptor protein tyrosine kinases (Chen, J., Martin, B. L., and Brautigan, D. L. (1992) Science 257, 1261-1264). Here we show the phosphorylation of PP2A in cells under different growth conditions. In lysates of nontransformed murine 10T1/2 fibroblasts, there were two forms of PP2A at 36 kDa detected after two-dimensional gel electrophoresis and immunoblotting with anti-PP2A peptide antibody. These two forms exactly comigrated with unphosphorylated purified PP2A and the PP2A 32P-labeled by in vitro phosphorylation with p60v-src kinase. The phosphorylated form of PP2A recovered from red blood cells or produced by in vitro phosphorylation was eliminated by incubation with tyrosine-specific phosphatase (PTP1B). Transformation of 10T1/2 cells by expression of p60v-src resulted in most of the PP2A in the cells being converted to a phosphorylated form that was reactive with anti-phosphotyrosine antibody. Serum starvation of cells reduced the amount of phosphorylated PP2A, whereas serum stimulation of quiescent cells caused an increase to the same relative amount of phosphorylated PP2A as in src-transformed cells. Addition of epidermal growth factor to quiescent NeoR cells (10T1/2 fibroblasts overexpressing epidermal growth factor receptors) temporarily increased the level of phosphorylation of PP2A, with a peak at 5-15 min and a return to basal level within 60 min. The results show that PP2A is phosphorylated in intact cells, and the extent of this modification is increased by growth factors or cell transformation, providing evidence for a physiological mechanism of PP2A regulation.
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PMID:Tyrosine phosphorylation of protein phosphatase 2A in response to growth stimulation and v-src transformation of fibroblasts. 751 Jun 77

Rat parotid glands were shown to possess protein phosphatase activity capable of catalyzing the dephosphorylation of several model phosphatase substrates, including p-nitrophenyl phosphate, tyrosine phosphorylated myelin basic protein and serine phosphorylated casein. A portion of this activity closely resembled dephosphorylation patterns of known protein tyrosine phosphatases. The reaction showed sensitivity to sodium orthovanadate, proceeded efficiently in the presence of metal chelators and favored acidic pH for optimum activity. Cell lysates from EGF- or isoproterenol-stimulated parotid glands, when immuno-precipitated with anti-Syp antibody, showed the induction of protein tyrosine phosphatase activity significantly higher than the unstimulated controls. The protein of M(r) = 65kDa also had elevated levels of tyrosine phosphorylation following isolation from cells treated to undergo proliferation. Thus parotid gland acinar cells possess protein tyrosine phosphatase activity of the PTPase 1D class associated with inducible cell growth, in addition to other phosphatases.
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PMID:Characterization of an SH2 containing protein tyrosine phosphatase in rat parotid gland acinar cells. 751 84

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