Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Regulation of the mitogen-activated protein kinase (MAPK) family by prolactin-releasing peptide (PrRP) in both GH3 rat pituitary tumor cells and primary cultures of rat anterior pituitary cells was investigated. PrRP rapidly and transiently activated extracellular signal-regulated protein kinase (ERK) in both types of cells. Both pertussis toxin, which inactivates G(i)/G(o) proteins, and exogenous expression of a peptide derived from the carboxyl terminus of the beta-adrenergic receptor kinase I, which specifically blocks signaling mediated by the betagamma subunits of G proteins, completely blocked the PrRP-induced ERK activation, suggesting the involvement of G(i)/G(o) proteins in the PrRP-induced ERK activation. Down-regulation of cellular protein kinase C did not significantly inhibit the PrRP-induced ERK activation, suggesting that a protein kinase C-independent pathway is mainly involved. PrRP-induced ERK activation was not dependent on either extracellular Ca(2+) or intracellular Ca(2+). However, the ERK cascade was not the only route by which PrRP communicated with the nucleus. JNK was also shown to be significantly activated in response to PrRP. JNK activation in response to PrRP was slower than ERK activation. Moreover, to determine whether a MAPK family cascade regulates rat prolactin (rPRL) promoter activity, we transfected the intact rPRL promoter ligated to the firefly luciferase reporter gene into GH3 cells. PrRP activated the rPRL promoter activity in a time-dependent manner. Co-transfection with a catalytically inactive form of a MAPK construct or a dominant negative JNK, partially but significantly inhibited the induction of the rPRL promoter by PrRP. Furthermore, co-transfection with a dominant negative Ets completely abolished the response of the rPRL promoter to PrRP. These results suggest that PrRP differentially activates ERK and JNK, and both cascades are necessary to elicit rPRL promoter activity in an Ets-dependent mechanism.
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PMID:Prolactin-releasing peptide activation of the prolactin promoter is differentially mediated by extracellular signal-regulated protein kinase and c-Jun N-terminal protein kinase. 1065 64

Large conductance, calcium-activated potassium channels (BK(Ca) or maxi-K) are important determinants of membrane excitability in many cell types. We used patch clamp techniques to study the biochemical regulation of native BK(Ca) channel proteins by endogenous Ser/Thr-directed protein kinases and phosphatases in cell-free membrane patches from rat pituitary tumor cells (GH(4)C(1)). When protein kinase activity was blocked by removing ATP, endogenous protein phosphatases slowly increased BK(Ca) channel activity approximately 3-fold. Dephosphorylated channels could be activated fully by physiological increases in cytoplasmic calcium or membrane depolarization. In contrast, endogenous protein kinases inhibited BK(Ca) channel activity at two functionally distinct sites. A closely associated, cAMP-dependent protein kinase rapidly reduced channel activity in a conditional manner that could be overcome completely by increasing cytoplasmic free calcium 3-fold or 20 mV further depolarization. Phosphorylation at a pharmacologically distinct site inhibited channel activity unconditionally by reducing availability to approximately half that of maximum at all physiological calcium and voltages. Conditional versus unconditional inhibition of BK(Ca) channel activity through different protein kinases provides cells with a powerful computational mechanism for regulating membrane excitability.
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PMID:Conditional and unconditional inhibition of calcium-activated potassium channels by reversible protein phosphorylation. 1066 May 22

Fibroblast growth factors play a critical role in cell growth, development, and differentiation and are also implicated in the formation and progression of tumors in a variety of tissues including pituitary. We have previously shown that fibroblast growth factor activation of the rat PRL promoter in GH4T2 pituitary tumor cells is mediated via MAP kinase in a Ras/Raf-1-independent manner. Herein we show using biochemical, molecular, and pharmacological approaches that PKCdelta is a critical component of the fibroblast growth factor signaling pathway. PKC inhibitors, or down-regulation of PKC, rendered the rat PRL promoter refractory to subsequent stimulation by fibroblast growth factors, implying a role for PKC in fibroblast growth factor signal transduction. FGFs caused specific translocation of PKCdelta from cytosolic to membrane fractions, consistent with enzyme activation. In contrast, other PKCs expressed in GH4T2 cells (alpha, betaI, betaII, and epsilon) did not translocate in response to fibroblast growth factors. The PKCdelta subtype-selective inhibitor, rottlerin, or expression of a dominant negative PKCdelta adenoviral construct also blocked fibroblast growth factor induction of rat PRL promoter activity, confirming a role for the novel PKCdelta isoform. PKC inhibitors selective for the conventional alpha and beta isoforms or dominant negative PKCalpha adenoviral expression constructs had no effect. Induction of the endogenous PRL gene was also blocked by adenoviral dominant negative PKCdelta expression but not by an analogous dominant negative PKCalpha construct. Finally, rottlerin significantly attenuated FGF-induced MAP kinase phosphorylation. Together, these results indicate that MAP kinase-dependent fibroblast growth factor stimulation of the rat PRL promoter in pituitary cells is mediated by PKCdelta.
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PMID:Fibroblast growth factor activation of the rat PRL promoter is mediated by PKCdelta. 1151

A great deal of knowledge about anterior pituitary development, the pathogenesis of pituitary tumor and pituitary tumor progression has accumulated during the past decade. The role of multiple genes and gene products in pituitary development and the relationship of these genes to postnatal pituitary function and pituitary tumor development are being actively explored. Recent studies indicate that genes important in pituitary development do not contribute to pituitary tumorigenesis. However, mutations and other genetic alterations in these genes often lead to pituitary hypofunction. Many oncogenes and tumor suppressor genes that contribute to pituitary tumorigenesis have been described. There is a growing body of evidence showing that cellular and molecular changes in cyclins and cyclin-dependent kinase inhibitors contribute to pituitary tumorigenesis. Finally, recent comparative genomic hybridization studies show that many more genes that are important in pituitary tumorigenesis and tumor progression have yet to be discovered.
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PMID:Molecular pathology of pituitary adenomas. 1176 28

Carney complex (CNC) is caused by PRKAR1A-inactivating mutations. PRKAR1A encodes the regulatory subunit type I-alpha (RIalpha) of the cAMP-dependent kinase (PKA) holoenzyme; how RIalpha insufficiency leads to tumorigenesis remains unclear. In many cells PKA inhibits the extracellular receptor kinase (ERK1/2) cascade of the mitogen-activated protein kinase (MAPK) pathway leading to inhibition of cell proliferation. We investigated whether the PKA-mediated inhibitory effect on ERK1/2 is affected in CNC cells that carry germline PRKAR1A mutations. PKA activity both at baseline and after stimulation with cAMP was augmented in cells carrying mutations. Quantitative message analysis showed that the main PKA subunits expressed were type I (RIalpha and RIbeta) but RIalpha was decreased in mutant cells. Immunoblot assays of ERK1/2 phosphorylation by the cell- and pathway-specific stimulant lysophosphatidic acid (LPA) showed activation of this pathway in a time- and concentration-dependent manner that was prevented by a specific inhibitor. There was a greater rate of growth in mutant cells; forskolin and isoproterenol inhibited LPA-induced ERK1/2 phosphorylation in normal but not in mutant cells. Forskolin inhibited LPA-induced cell proliferation and metabolism in normal cells, but stimulated these parameters in mutant cells. These data were also replicated in a pituitary tumor cell line carrying the most common PRKAR1A mutation (c.578del TG), and an in vitro construct of mutant PRKAR1A that was recently shown to lead to augmented PKA-mediated phosphorylation. We conclude that PKA activity in CNC cells is increased and that its stimulation by forskolin or isoproterenol increases LPA-induced ERK1/2 phosphorylation, cell metabolism and proliferation. Reversal of PKA-mediated inhibition of this MAPK pathway in CNC cells may contribute to tumorigenesis in this condition.
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PMID:Protein kinase-A activity in PRKAR1A-mutant cells, and regulation of mitogen-activated protein kinases ERK1/2. 1281 76

Most pituitary tumors are sporadic, though a few occur with a familial aggregation. Three distinct syndromes have been recognized to date: multiple endocrine neoplasia, type I (MEN-1), Carney complex (CNC), and isolated familial somatotropinomas (IFS). Pituitary tumor types in MEN-1 are similar to those occurring sporadically. The largest percentage are prolactin-secreting or non-functioning and only about 10% are growth hormone (GH)-secreting (somatotropinomas). In contrast, tumors types in CNC and IFS are invariably somatotropinomas, though there are differences in both clinical and histological features. Each of the familial syndromes is associated with a tumor-suppressor gene that was initially recognized by an observed loss of heterozygosity on chromosome 11q13 in MEN-1 and IFS and on chromosome 17q in CNC. The MEN-1 gene, which codes for the nuclear protein, menin, has been identified and a large number of inactivating mutations have been recognized. The gene associated with CNC codes for the protein kinase A regulatory subunit 1, inactivation of which leads to enhanced activity of the GH-releasing hormone-induced signal transduction pathway. This pathway exerts proliferative effects in somatotropes. The gene associated with IFS is distinct from the MEN-1 gene, though it is located in close proximity, and is contained in a candidate region of approximately 10 Mb. Identification of the IFS gene should provide new insight into the pathogenesis of somatotropinomas, not only in IFS but also in sporadic tumors, where there is an up to 40% allelic loss on chromosome 11q13.
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PMID:Familial acromegaly. 1513 86

Somatostatin limits cell growth by inhibiting the proliferative activity of growth factor receptors. In this study, it is shown that in pituitary tumor cells, the somatostatin analogue octreotide produces its antiproliferative action by inducing the expression the tumor suppressor gene Zac1. ZAC/Zac1 induces cell cycle arrest and apoptosis and is highly expressed in normal pituitary, mammary, and ovarian glands but is down-regulated in pituitary, breast, and ovarian tumors. Knocking down Zac1 by RNA interference abolished the antiproliferative effect of octreotide in pituitary tumor cells, indicating that Zac1 is necessary for the action of octreotide. The effect of octreotide on Zac1 expression was pertussis toxin sensitive and was abolished after transfection with a dominant negative vector for SHP-1. Zac1 is a target of the phosphatidylinositol 3-kinase (PI3K) survival pathway. Octreotide treatment decreased the tyrosine phosphorylation levels of the PI3K regulatory subunit p85, induced dephosphorylation of phosphoinositide-dependent kinase 1 (PDK1) and Akt, and activated glycogen synthase kinase 3beta (GSKbeta). Therefore, in pituitary tumor cells, somatostatin analogues produce their antiproliferative action by acting on the PI3K/Akt signaling pathway and increasing Zac1 gene expression.
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PMID:Octreotide, a somatostatin analogue, mediates its antiproliferative action in pituitary tumor cells by altering phosphatidylinositol 3-kinase signaling and inducing Zac1 expression. 1645 15

Hereditary cases of growth hormone (GH)-secreting tumors have been classified into three clinical entities: the multiple endocrine neoplasia type 1 (MEN1) syndrome, the Carney complex (CNC) and the isolated familial somatotropinomas (IFS). The genomic defects associated with MEN1 are all linked to various mutations of the MEN1 gene, which is located at chromosome 11q13 and codes for menin, a nuclear protein expressed in multiple tissues. Inactivation of the MEN1 gene appears to be only rarely associated with sporadic pituitary tumor development. A CNC-associated gene, the type 1 alpha regulatory subunit (R1alpha) of cAMP-dependent protein kinase A (PRKAR1A), is located at 17q23-24. A second CNC candidate gene is located at chromosome 2p15-16, with characteristics of inheritance consistent with an oncogene; however, this gene has not been identified yet. PRKAR1A mutations are infrequently associated with sporadic GH-secreting adenomas. A candidate IFS gene is located at 11q13, in proximity to the MEN1 gene, at a locus narrowed down to a 2.21-Mb area, with approximately 50 genes, that does not appear to include the MEN1 gene. Apart from the linkage of IFS to 11q13, a possible linkage to 2p16 has also been raised, although data are still inconclusive. This manuscript reviews genetic aspects of hereditary GH-secreting tumors, data from animal models resulting from the inactivation of the MEN1 and PRKAR1A tumor suppressor genes and available in vitro data regarding possible functions of menin, the product of the MEN1 gene.
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PMID:Growth hormone-secreting tumors: genetic aspects and data from animal models. 1704 80

Pituitary tumor transforming gene (PTTG) encodes a securin protein critical in regulating chromosome separation. PTTG-null (PTTG(-/-)) mice exhibit pancreatic beta-cell hypoplasia and insulinopenic diabetes. We tested whether PTTG deletion causes beta-cell senescence, resulting in diminished beta-cell mass. We examined beta-cell mass, proliferation, apoptosis, neogenesis, cell size, and senescence in PTTG(-/-) and WT mice from embryo to young adulthood before diabetes is evident. The roles of cyclin-dependent kinase inhibitors and DNA damage in the pathogenesis of diabetes in PTTG(-/-) mice were also addressed. Relative beta-cell mass in PTTG(-/-) mice began to decrease at 2-3 wk, whereas beta-cell proliferation rate was initially normal but decreased in PTTG(-/-) mice beginning at 2 months. Apoptosis was also much more evident in PTTG(-/-) mice. At 1 month, beta-cell neogenesis was robust in wild-type mice but was absent in PTTG(-/-) mice. In addition, the size of beta-cells became larger and macronuclei were prominent in PTTG(-/-) animals. Senescence-associated beta-galactosidase was also active in PTTG(-/-) beta-cells at 1 month. Cyclin-dependent kinase inhibitor p21 was progressively up-regulated in PTTG(-/-) islets, and p21 deletion partially rescued PTTG(-/-) mice from development of diabetes. mRNA array showed that DNA damage-associated genes were activated in PTTG(-/-) islets. We conclude that beta-cell apoptosis and senescence contribute to the diminished beta-cell mass in PTTG(-/-) mice, likely secondary to DNA damage. Our results also suggest that ductal progenitor beta-cells are exhausted by excessive neogenesis induced by apoptosis in PTTG(-/-) mice.
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PMID:Diminished pancreatic beta-cell mass in securin-null mice is caused by beta-cell apoptosis and senescence. 1921 44

Cell cycle inhibitors, such as the cyclin-dependent kinase (Cdk) inhibitor proteins and retinoblastoma (Rb) family members, control exit from the cell cycle during the development of a variety of terminally differentiated tissues. It is unclear whether sustained expression of these proteins is required to prevent cell cycle re-entry in quiescent and terminally differentiated cells. The organ of Corti (cochlear sensory epithelium) and pars intermedia (intermediate lobe of the pituitary) are two tissues that share the characteristic of ongoing cell division in mice lacking either the p27(Kip1) Cdk inhibitor, Ink4 proteins, or Rb. Here, we use tamoxifen-inducible mouse models to delete p27(Kip1) in postnatal animals and show this is sufficient to induce proliferation in both the organ of Corti and pars intermedia. Thus, these tissues remain sensitive to the presence of p27(Kip1) even after their developmental exit from the cell cycle. The neonatal cochlea displayed heightened sensitivity to changes in p27(Kip1) expression, with a proliferative response higher than that of constitutive null mice. In adults, the proliferative response was reduced but was accompanied by increased cell survival. In contrast, re-establishment of normal p27(Kip1) expression in animals with established pituitary tumors, in an inducible "knock-on" model, led to cessation of pituitary tumor growth, indicating the cells had maintained their susceptibility to p27-mediated growth suppression. Although restoration of p27(Kip1) did not induce apoptosis, it did lead to resolution of pathological features and normalization of gene expression. Our data underscore the importance of p27(Kip1) expression in the maintenance of cellular quiescence and terminal differentiation.
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PMID:p27(Kip1) is required to maintain proliferative quiescence in the adult cochlea and pituitary. 2183 96


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