UNIPROT:P06889 - FACTA Search

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Glycogen phosphorylase from Saccharomyces cerevisiae is activated by the covalent phosphorylation of a single threonine residue in the N terminus of the protein. We have hypothesized that the structural features that effect activation must be distinct from those characterized in rabbit muscle phosphorylase because the two enzymes have unrelated phosphorylation sites located in dissimilar protein contexts. To understand this potentially novel mechanism of activation by phosphorylation, we require information at atomic resolution of the phosphorylated and unphosphorylated forms of the enzyme. To this end, we have purified, characterized and crystallized glycogen phosphorylase from S. cerevisiae. The enzyme was isolated from a phosphorylase-deficient strain harboring a multicopy plasmid containing the phosphorylase gene under the control of its own promoter. One liter of cultured cells yields 12 mg of crystallizable material. The purified protein was not phosphorylated and had an activity of 4.7 units/mg in the presence of saturating amounts of substrate. Yeast phosphorylase was crystallized in four different crystal forms, only one of which is suitable for diffraction studies at high resolution. The latter belongs to space group P4(1)2(1)2 with unit cell constants of a = 161.1 A and c = 175.5 A Based on the density of the crystals, the solvent content is 49.7%, indicating that the asymmetric unit contains the functional dimer of yeast phosphorylase.
J Mol Biol 1992 Jun 20
PMID:Purification and crystallization of glycogen phosphorylase from Saccharomyces cerevisiae. 161 87

The phosphorylation of extracellular signal-regulated kinases 1 and 2 (ERK1 and ERK2) in response to insulin in Rat 1 HIRc B cells and in response to nerve growth factor (NGF) in PC12 cells has been examined. ERK1 and ERK2 are phosphorylated on serine in the absence of the stimuli and additionally on tyrosine and threonine residues after exposure to NGF and insulin. NGF stimulates tyrosine phosphorylation of ERK1 more rapidly than threonine phosphorylation. Two-dimensional phosphopeptide maps of both ERK1 and ERK2 phosphorylated in intact cells treated with NGF or with insulin display the same three predominant phosphopeptides that comigrate when digests of ERK1 and ERK2 are mixed. As many as five additional phosphopeptides are detected under certain conditions. Autophosphorylated recombinant ERK2 also contains the three tryptic phosphopeptides found in ERKs labeled in intact cells. These experiments demonstrate that ERK1 and ERK2 are phosphorylated on related sites in response to two distinct extracellular signals. The data also support the possibility that autophosphorylation may be involved in the activation of the ERKs.
Mol Biol Cell 1992 Mar
PMID:Extracellular signal-regulated kinases 2 autophosphorylates on a subset of peptides phosphorylated in intact cells in response to insulin and nerve growth factor: analysis by peptide mapping. 162 31

Different point mutations have been identified in the T3-binding domain of the c-erbA beta thyroid hormone receptor gene that are associated with variant phenotypes of generalized thyroid hormone resistance (GTHR). In most cases of GTHR, heterozygotes are affected; a single mutant allele results in the inhibition of the function of normal thyroid hormone receptors. We report here a novel genetic abnormality, a 3-basepair (bp) deletion in the T3-binding domain of the beta-receptor in a kindred, S, with GTHR. One patient, S1, was the product of a consanguineous union of two heterozygotes and was homozygous for this defect. Heterozygotes from kindred S harbored a CAC deletion at nucleotides 1295-1297, which resulted in the deduced loss of amino acid residue threonine at codon 332, and they displayed elevated free T4 levels and inappropriately normal TSH levels characteristic of other kindreds with GTHR. However, patient S1, who had two mutant alleles, had markedly elevated TSH and free T4 levels and displayed profound abnormalities in brain development and linear growth. A fibroblast c-erbA beta cDNA extending from codon 175 to stop codon 457 was cloned from patient S1, sequenced, and used to create a full-length mutant cDNA. The kindred S mutant receptor was synthesized in vitro and did not bind T3. This mutant receptor did bind with similar avidity as the wild-type human beta-receptor to thyroid hormone response elements of the human TSH beta (-12 to 43 bp) and rat GH (-188 to -160 bp) genes. Kindred S showed the effect in man of heterozygous and homozygous expression of a dominant negative form of c-erbA beta.
Mol Endocrinol 1991 Mar
PMID:A homozygous deletion in the c-erbA beta thyroid hormone receptor gene in a patient with generalized thyroid hormone resistance: isolation and characterization of the mutant receptor. 165 89

Mitogen-activated protein kinase (p42mapk) becomes transiently activated after treatment of serum-starved murine Swiss 3T3 cells or EL4 thymocytes with a diversity of mitogens. Similarly, a meiosis-activated protein kinase (p44mpk) becomes stimulated during maturation of sea star oocytes induced by 1-methyladenine. Both p42mapk and p44mpk have been identified as protein-serine/threonine kinases that are activated as a consequence of their phosphorylation. Because homologous protein kinases may play essential roles in both mitogenesis and oogenesis, we have compared in detail the biochemical properties of these two kinases. We find that these kinases are highly related based on their in vitro substrate specificities, sensitivity to inhibitors, and immunological cross-reactivity. However, they differ in apparent molecular weight and can be separated chromatographically, indicating that the two enzymes are distinct. Furthermore, in the course of this investigation, we have identified a 44-kDa protein kinase in mitogen-stimulated Swiss mouse 3T3 cells and EL4 thymocytes that co-purifies with p44mpk and thus appears to be a closer homolog of the sea star enzyme. Analysis of these protein kinases clarifies the relationships between a set of tyrosine-phosphorylated 41-45-kDa proteins present in mitogen-stimulated cells (Martinez, R., Nakamura., K. D., and Weber, M. J. (1982) Mol. Cell. Biol. 2, 653-655; Cooper, J. A., and Hunter, T. (1984) Mol. Cell. Biol. 4, 30-37), two myelin basic protein kinases identified in epidermal growth factor-treated Swiss mouse 3T3 cells (Ahn, N. G., Weiel, J. E., Chan, C. P., and Krebs, E. G. (1990) J. Biol. Chem. 265, 11487-11494), and p42mapk. Our work points to the existence of a group of related serine/threonine protein kinases, regulated by tyrosine phosphorylation and functioning at different stages of the cell cycle.
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PMID:Biochemical characterization of a family of serine/threonine protein kinases regulated by tyrosine and serine/threonine phosphorylations. 165 19

Cyclic AMP regulates a variety of cellular responses through activation of the catalytic subunit of cAMP-dependent protein kinase. The cDNAs for two protein isoforms of the catalytic subunit, C alpha and C beta, were placed into expression vectors, and their ability to stimulate cAMP-dependent transcription of the human enkephalin promoter was examined in transiently transfected CV-1 cells. Expression vectors for C alpha and C beta that were directed by the human cytomegalovirus promoter produced up to 350- and 200-fold increases in chloramphenicol acetyltransferase activity, respectively, when cotransfected with the ENKAT-12 reporter plasmid. Transcriptional activation was shown to be dependent upon functional kinase activity by point mutations in catalytic subunit vectors which eliminated activation. Transcriptional activation by C alpha and C beta was eliminated when the cAMP response elements (CREs) were deleted from the native enkephalin promoter, but activation was recovered when this region was replaced with an oligonucleotide containing two copies of the somatostatin CRE consensus TGACGTCA. C alpha expression vectors were found to produce 2-fold greater transcriptional activation than C beta expression vectors. These results were most likely due to the cellular kinase activity produced by the catalytic subunit expression vectors and did not appear to be dependent on CRE motif or substrate specificity. In vitro mutagenesis indicates that neither C alpha nor C beta requires N-terminal myristylation for transcriptional activation, but threonine-197 is critical to subunit function.
Mol Endocrinol 1991 Jul
PMID:Regulation of the human enkephalin promoter by two isoforms of the catalytic subunit of cyclic adenosine 3',5'-monophosphate-dependent protein kinase. 165 33

We have investigated the ability of amino acid analogues of serine and threonine to inhibit the increase in steroidogenesis elicited by addition of ACTH or cAMP in cells isolated from the rat adrenal cortex. We have found that the serine analogues, D, L-isoserine, alpha-methyl-D, L-serine and L-homoserine, are almost totally ineffective in inhibiting this process but that the threonine analogue, D, L-beta-hydroxynorvaline, at a concentration of 300 microM inhibits stimulated steroid hormone biosynthesis by ca 95%, while inhibiting overall protein synthesis by only ca 40%. This inhibition was found to occur in a dose-dependent manner and to be reversible by a stoichiometric concentration of threonine. These studies suggest that beta-hydroxynorvaline is functioning as a threonine analogue in our experimental system. Both the onset of inhibition by analogue and reversal of this inhibition by the natural amino acid occurred rapidly, without detectable lag. Since results obtained using cAMP as stimulant parallel those obtained using ACTH, the inhibitory effect of the analogue seems to occur subsequent to the synthesis of cAMP. Additionally, the analogue does not inhibit the conversion of pregnenolone to corticosterone, suggesting the site of action of analogue occurs prior to the synthesis of pregnenolone from cholesterol. Thus, the analogue may be exerting its effect on a protein that is synthesized subsequent to ACTH addition and is important in the acute phase of stimulated steroid hormone biosynthesis. Further, since ACTH action on adrenal cortex cells causes the activation of protein kinase A, which phosphorylates serine and threonine residues, it is possible that the effect of the analogue is to prevent the phosphorylation of a newly-synthesized protein.
J Steroid Biochem Mol Biol 1991
PMID:Inhibition of steroidogenesis in rat adrenal cortex cells by a threonine analogue. 165 80

We have used okadaic acid (OA), a cell-permeable inhibitor of serine/threonine protein phosphatase types 1 (PP-1) and 2A (PP-2A), to demonstrate that the subcellular distribution of glucocorticoid receptor (GR) in rat fibroblasts is influenced by its phosphorylation state. Nuclear GRs in OA-treated cells retain transcriptional enhancement activity. Nuclear import or export of hormone agonist-bound GRs is not affected by OA. However, a dose of OA that fully inhibits PP-2A and partially inhibits PP-1, but not a lower dose that only partially inhibits PP-2A, leads to inefficient nuclear retention of agonist-bound GRs, and their redistribution into the cytoplasm. These receptors appear to be trapped in the cytoplasmic compartment and are unable to recycle (i.e. reenter the nucleus). Addition of OA during different steps of GR recycling demonstrates that OA must be present during nuclear export of GRs to block GR recycling. A direct role for PP-1 and/or PP-2A in GR recycling is suggested by site-specific hyperphosphorylation of GRs in vivo during OA inhibition of recycling. These are the same sites that undergo in vitro site-specific dephosphorylation by PP-1 and PP-2A. The block in GR recycling that results from inhibition of PP-1 and/or PP-2A resembles effects previously observed in v-mos-transformed rat fibroblasts. Interestingly, OA inhibition of PP-2A in v-mos-transformed cells leads to the reversal of oncoprotein effects on GR recycling and retention of receptors within the nuclear compartment. We propose that GR recycling is influenced by the activities of distinct protein phosphatases (PP-1 and/or PP-2A), and that the interference of this pathway observed in v-mos-transformed cells may be the result of effects of the oncoprotein on the phosphatases or a specific subset of their targets.
Mol Endocrinol 1991 Sep
PMID:Protein phosphatase types 1 and/or 2A regulate nucleocytoplasmic shuttling of glucocorticoid receptors. 166 12

A unique feature of neuronal calcium/calmodulin-stimulated protein kinase II (CaM-PK II) is its autophosphorylation. A number of sites are involved and, depending on the in vitro conditions used, three serine and six threonine residues have been tentatively identified as autophosphorylation sites in the alpha subunit. These sites fall into three categories. Primary sites are phosphorylated in the presence of calcium and calmodulin, but under limiting conditions of temperature, ATP, Mg2+, or time. Secondary sites are phosphorylated in the presence of calcium and calmodulin under nonlimiting conditions. Autonomous sites are phosphorylated in the absence of calcium and calmodulin after initial phosphorylation of Thr-286. Mechanisms that lead to a decrease in CaM-PK II autophosphorylation include the thermolability of the enzyme and the activity of protein phosphatases. A range of in vitro inhibitors of CaM-PK II autophosphorylation have recently been identified. Autophosphorylation of CaM-PK II leads to a number of consequences in vitro, including generation of autonomous activity and subcellular redistribution, as well as alterations in conformation, activity, calmodulin binding, substrate specificity, and susceptibility to proteolysis. It is established that CaM-PK II is autophos-phorylated in neuronal cells under basal conditions. Depolarization and/or activation of receptors that lead to an increase in intracellular calcium induces a marked rise in the autophosphorylation of CaM-PK II in situ. The incorporation of phosphate is mainly found on Thr-286, but other sites are also phosphorylated at a slower rate. One consequence of the increase in CaM-PK II autophosphorylation in situ is an increase in the level of autonomous kinase activity. It is proposed that the formation of an autonomous enzyme is only one of the consequences of CaM-PK II autophosphorylation in situ and that some of the other consequences observed in vitro will also be seen. CaM-PK II is involved in the control of neuronal plasticity, including neurotransmitter release and long-term modulation of postreceptor events. In order to understand the function of CaM-PK II, it will be essential to ascertain more fully the mechanisms of its autophosphorylation in situ, including especially the sites involved, the consequences of this autophosphorylation for the kinase activity, and the relationships between the state of CaM-PK II autophosphorylation and the physiological events within neurons.
Mol Neurobiol 1991
PMID:Autophosphorylation of neuronal calcium/calmodulin-stimulated protein kinase II. 166 85

Data emerging from a number of different systems indicate that protein phosphatases are highly regulated and potentially responsive to changes in the levels of intracellular second messengers produced by extracellular stimulation. They may therefore be involved in the regulation of many cell functions. The protein phosphatases in the nervous system have not been well studied. However, a number of neuronal-specific regulators (such as DARPP-32 and G-substrate) exist, and brain protein phosphatases appear to have particularly low specific activity, suggesting that neuronal protein phosphatases possess considerable and unique potential for regulation. Several early events following depolarization or receptor activation appear to involve specific dephosphorylations, indicating that regulation of protein phosphatase activity is important for the control of many neuronal functions. This article reviews the current literature concerning the identification, regulation, and function of serine/threonine protein phosphatases in the brain, with particular emphasis on the regulation of the major protein phosphatases, PP1 and PP2A, and their potential roles in modulating neurotransmitter release and postsynaptic responses.
Mol Neurobiol 1991
PMID:The regulation and function of protein phosphatases in the brain. 166 87

The product of the HER-2 proto-oncogene, p185HER-2, was found to be amplified approximately 10-fold in the human breast carcinoma cell line, BT474, compared to a cell line, HBL-100, derived from normal breast tissue. To explore the possible role of p185HER-2 in growth of the breast carcinoma cells, we investigated factors that may modulate cell growth and phosphorylation of the HER-2 protein product. Two growth factors, epidermal growth factor (EGF) and insulin, stimulated phosphorylation of the HER-2 protein product. In response to insulin, the phosphoserine and phosphothreonine content in p185HER-2 was transiently enhanced about 6-fold. When EGF was added to BT474 cells there was 2- to 3-fold enhanced phosphorylation of serine and threonine residues in p185HER-2 which was maintained for at least 60 min. Although p185HER-2 has been found to be phosphorylated on tyrosine residues following EGF treatment of several different cell types, we estimate that less than 1% of the protein contained phosphotyrosine in the BT474 cells.
Mol Cell Endocrinol 1990 Mar 05
PMID:Insulin and epidermal growth factor stimulate phosphorylation of p185HER-2 in the breast carcinoma cell line, BT474. 169 19

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