UNIPROT:P51812 - FACTA Search

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Query: UNIPROT:P51812 (mitogen-activated protein)
10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have evaluated the signaling pathways activated by parathyroid hormone (PTH) in SaOS2 human osteoblastlike cells correlating with induction of the c-fos proto-oncogene. Human PTH(1-34) (hPTH[1-34]) and hPTH(1-34) Nle8,18 Tyr34 induced the expression of c-fos mRNA in quiescent SaOS2 cells in a concentration-dependent manner. N-terminal truncations of hPTH(1-34) that fail to activate protein kinase A (PKA) also abolished c-fos mRNA induction. In gel retardation assays hPTH(1-34) led to a change in the mobility of specific, cyclic adenosine monophosphate (cAMP) response element binding protein (CREB)-containing protein-DNA complexes identical to that caused by other activators of PKA. The appearance of this altered mobility complex correlated temporally with the induction of c-fos mRNA. Using a c-fos serum response element probe, a slowed protein DNA complex appeared upon serum, epidermal growth factor, and basic fibroblast growth factor treatment. This slowed complex reflects phosphorylation of the transcription factor ternary complex factor (TCF) mediated via activation of the mitogen-activated protein (MAP) kinase pathway. The MAP kinase cascade is also activated by protein kinase C (PKC), and treatment with phorbol ester led to the induced TCF shift. In contrast, PTH did not produce this shift, ruling out PTH activation of c-fos via PKC and the MAP kinase signaling cascade. Further evidence for this was the lack of effect of the highly selective PKC inhibitor CGP 41251 on c-fos induction by hPTH(1-34). The janus kinase (JAK)/signal transducers and activators of transcription (STAT) signaling cascade targets the v-sis-inducible element in the c-fos promoter via the induced binding of STATs. Interferon gamma rapidly induced STAT binding in SaOS2 cells, unlike PTH. Thus, PTH induction of c-fos transcription appears to occur principally through activation of PKA that then targets CREB and the c-fos calcium/cAMP response element.
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PMID:Analysis of signaling pathways used by parathyroid hormone to activate the c-fos gene in human SaOS2 osteoblast-like cells. 885 42

In a previous study, we demonstrated that parathyroid hormone (PTH) inhibits mitogen-activated protein (MAP) kinase activation in osteosarcoma cells via a protein kinase A-dependent pathway. Here, we show that PTH can induce a transient activation of MAP kinase as well. This was observed in both Chinese hamster ovary R15 cells stably expressing high levels of rat PTH/PTH-related peptide receptor and parietal yolk sac carcinoma cells expressing the receptor endogenously. PTH was a strong activator of adenylate cyclase and phospholipase C in Chinese hamster ovary R15 cells. PTH-induced MAP kinase activation did not depend on activation of Gi, phorbol ester-sensitive protein kinase C, elevated intracellular calcium levels, or release of Gbetagamma subunits. It could, however, be mimicked by addition of forskolin or 8-bromo-cAMP to these cells. Prolonged treatment with forskolin caused sustained protein kinase A activity, whereas MAP kinase activity returned to basal levels. Subsequent treatment with PTH or 8-bromo-cAMP did not result in MAP kinase activation, whereas phorbol ester- or insulin-induced MAP kinase activation was unaffected. Finally, expression of a dominant negative form of Ras (RasAsn-17), which completely blocked insulin-induced MAP kinase activation, did not affect activation by PTH or cAMP. In conclusion, PTH regulates MAP kinase activity in a cell type-specific fashion. The activation of MAP kinase by PTH is mediated by cAMP and independent of Ras.
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PMID:Parathyroid hormone activates mitogen-activated protein kinase via a cAMP-mediated pathway independent of Ras. 901 86

In the present study we analyzed whether parathyroid hormone (rPTH[1-34]; PTH) stimulates the tyrosine phosphorylation of the growth-related protein mitogen-activated protein (MAP) kinases (p42/44-MAPK), also known as extracellular signal-regulated kinases (ERK1/2), in duodenal enterocytes isolated from young (3months) and aged (24months) rats. Western blot analysis revealed that PTH rapidly stimulates MAPK phosphorylation. The hormone effects on MAPK were evident within 30s, peaking at 1min (4-fold). PTH response was dose-dependent (10(-11)-10(-7) M) with maximal stimulation achieved at 10(-9)-10(-8) M. PTH-induced MAPK phosphorylation was effectively suppressed by the tyrosine-kinase inhibitors, genistein (100microM) and herbimycin (2microM). Moreover, the tyrosine phosphorylation and activation of MAPK was dependent on Src kinase, since PP1 (10 and 20microM), a specific Src family tyrosine-kinase inhibitor, blocked PTH-induced MAPK activation. With aging, the response to PTH was significantly reduced. However, The amount of basal protein expression determined by Western blot analysis for MAPK was not different in the enterocytes from young and aged rats. In conclusion, the results obtained in this work expand our knowledge on the mechanism of action of PTH in duodenal cells, revealing that protein tyrosine phosphorylation is linked to the PTH regulation of enterocyte MAPK activation, and that this mechanism is impaired with aging. Understanding the molecular mechanisms for the age-related differences in PTH signaling will require more information about the subtle mechanisms that modulate the PTH receptor-MAPK signaling pathway.
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PMID:Age-related decline in mitogen-activated protein kinase phosphorylation in PTH-stimulated rat enterocytes. 1112 86

In the rat proximal tubule, the alpha(2B)-adrenergic receptor (alpha(2B)-AR) enhances Na(+) reabsorption by increasing the activity of Na(+)/H(+) exchanger isoform NHE3. The mechanisms involved are unclear, and inhibition of cAMP production remains controversial. In this study, we reinvestigated alpha(2B)-AR signaling pathways using rat proximal tubule cells (PTC) in primary culture and LLC-PK(1) cells permanently transfected with the RNG gene (rat nonglycosylated alpha(2)-AR). Binding experiments indicated that PTC express substantial amounts of alpha(2B)-AR (130 fmol/mg protein), and only RNG transcripts were detected. In both cell types, the alpha(2B)-AR is coupled to G protein, and its stimulation by dexmedetomidine, but not by UK-14304, provoked a significant inhibition of the accumulation of cAMP induced by forskolin or parathyroid hormone. Exposure to alpha(2)-agonists increased arachidonic acid release and caused extracellular signal-regulated kinase (ERK)1/2 phosphorylation, which correlated with enhanced mitogen-activated protein kinse (MAPK) activity and nuclear translocation. MAPK phosphorylation was blunted by pertussis toxin but not by protein kinase C desensitization, and it coincided with transient phosphorylation of Shc. Finally, treatment with UK-14304 accelerated cell growth. Further studies will be necessary to clarify the precise mechanism of MAPK activation, but the present data suggest that alpha(2B)-AR may play a positive role during tubular regeneration.
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PMID:alpha(2B)-Adrenergic receptors activate MAPK and modulate proliferation of primary cultured proximal tubule cells. 1193 5

Phosphoinositide-3-kinase (PI3K) is a lipid kinase, which phosphorylates the D3 position of phosphoinositides, and is known to be activated by a host of protein tyrosine kinases. PI3K plays an important role in mitogenesis in several cell systems. However, whether parathyroid hormone (PTH) affects the activity and functional roles of PI3K in intestinal cells remain to be determined. The objective of this study was to identify and characterize the PI3K pathway, and its relation to other non-receptor tyrosine kinases in mediating PTH signal transduction in rat enterocytes. PTH dose- and time-dependently increased PI3K activity with a peak occurring at 2 min. The tyrosine kinase inhibitor genistein, c-Src inhibitor PP1 and two structurally different inhibitors of PI3K, LY294002 and wortmannin, suppressed PI3K activity dependent on PTH. Co-immunoprecipitation analysis showed a constitutive association between c-Src and PI3K, which was enhanced by PTH treatment, suggesting that the cytosolic tyrosine kinase forms an immunocomplex with PI3K probably via the N-SH2 domain of the p85alpha regulatory subunit. In response to PTH, tyrosine phosphorylation of p85alpha was enhanced, effect that was abolished by PP1, the inhibitor of c-Src kinase. PTH causes a rapid (0.5-5 min) phosphorylation of Akt/PKB, effect that was abrogated by PI3K inhibitors, indicating that in rat enterocytes, PI3K is an upstream mediator of Akt/PKB activation by PTH. We report here that PI3K is also required for PTH activation of the mitogen-activated protein kinases ERK1 and ERK2. Taken together, the present study demonstrate, for the first time, that PTH rapidly and transiently stimulates PI3K activity and its down effector Akt/PKB in rat enterocytes playing c-Src kinase a central role in PTH-dependent PI3K activation and that PI3K signaling pathway contributes to PTH-mediated MAPK activation.
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PMID:Involvement of PI3-kinase and its association with c-Src in PTH-stimulated rat enterocytes. 1221 Jul 43

The discovery of the calcium-sensing receptor (CaR), a G protein-coupled receptor, has led to the elucidation of the pivotal roles of the CaR in systemic calcium homeostasis. The receptor is situated on the chief cells of the parathyroid glands, where it senses the extracellular Ca2+ concentration and in turn alters the rate of secretion of parathyroid hormone (PTH). The intracellular signal pathways to which the CaR couples include, but are not limited to, phospholipase C (PLC), and mitogen-activated protein kinases. The receptor is widely expressed in various tissues and likely serves important cellular functions beyond that of maintaining systemic calcium homeostasis. Functionally important mutations in the receptor have been found to cause disorders in calcium homeostasis due both to changes in the set point for PTH secretion and to the control of renal calcium excretion. These mutations cause hypercalcemia when the mutation inactivates the receptor and cause hypocalcemia when the mutation activates the receptor. Recent studies have revealed the presence of circulating autoantibodies to the calcium-sensing receptor in humans, with the clinical presentation the same as that for diseases caused by mutations in the CaR. In renal secondary hyperparathyroidism, a drug that stimulates the receptor (calcimimetic) shows great promise as a medical treatment for this condition.
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PMID:The calcium-sensing receptor in human disease. 1270 51

The intracellular signaling mechanisms that mediate the regulation of parathyroid hormone (PTH) secretion by parathyroid glands are becoming increasingly more understood. Extracellular calcium modulates parathyroid function by acting on a G protein-coupled calcium-sensing receptor, which activates the hydrolysis of membrane phospholipids by phospholipases C, D, and A2 to generate intracellular signals. Arachidonic acid (AA) produced by phospholiphase A2 (PLA2) appears to play a crucial role throughout the generation of downstream-oxygenated products. Recent studies demonstrate the activation of the PLA2 via an intracellular calcium increase, and that the elevation of cytosolic calcium also overcomes the repressive effect of high extracellular phosphate on AA production. Furthermore, a role of the mitogen-activated protein (MAP) kinase cascade has also been documented in PLA2 activation.
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PMID:Importance of arachidonic acid as a mediator of parathyroid gland response. 1275 57

The parathyroid hormone (PTH) and some of its fragments and analogs stimulate bone growth in various animal models and humans and one of them (hPTH-(1-34)) has been approved by the USFDA for treating osteoporosis. However, there are reports that PTH can stimulate the PI-3 kinase/mitogen-activated protein kinases-mediated proliferation of rat enterocytes and that primary hyperparathyroidism in humans is associated with an increased incidence of colon cancer. Here we have investigated the ability of two PTH fragments, hPTH-(1-34)NH(2) and [Leu(27)]cyclo(Glu(22)-Lys(26))hPTH-(1-31)NH(2) to initiate colon carcinogenesis or increase the initiatory activity of the widely used colon carcinogen azoxymethane (AOM). The initiation of colon carcinogenesis by AOM was indicated by the very early appearance of aberrant crypt foci. While both PTH peptides strongly stimulated femoral bone formation, they did not cause the appearance of ACFs or affect the number or the distribution along the colon of AOM-induced ACFs. Nor did AOM affect the PTHs' ability to stimulate bone formation. Thus, a relatively short PTH treatment that is long enough to strongly stimulate bone formation does not initiate colon carcinogenesis in rats.
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PMID:The effects of parathyroid hormone fragments on bone formation and their lack of effects on the initiation of colon carcinogenesis in rats as indicated by preneoplastic aberrant crypt formation. 1456 63

The sensing of extracellular Ca(2+) concentration ([Ca(2+)](o)) and modulation of cellular processes associated with acute or sustained changes in [Ca(2+)](o) are cell-type specific and mediated by the calcium sensing receptor (CaR). [Ca(2+)](o) signalling requires protein kinase C (PKC), but the identity and role of PKC isoforms in CaR-mediated responses remain unclear. Here we show that high [Ca(2+)](o) activated PKC-alpha and PKC- in parathyroid cells and in human embryonic kidney (HEK293) cells overexpressing the CaR (HEK-CaR) and that this response correlated with the CaR-dependent activation of mitogen-activated protein kinases ERK1/2. Activation of ERK1/2 by acute high [Ca(2+)](o) required influx of Ca(2+)through Ni(2+)-sensitive Ca(2+)channels and phosphatidylinositol-dependent phospholipase C-beta activity. Inhibition of PKC by co-expression of dominant-negative (DN) mutants of PKC-alpha or - with the CaR attenuated sustained ERK1/2 activation. Overexpression of a PKC phosphorylation site (T888A) mutant CaR in HEK293 cells showed that this site was important for ERK1/2 activation at high [Ca(2+)](o). Activation of ERK1/2 by high [Ca(2+)](o) was not necessary for the [Ca(2+)](o)-regulated secretion of parathyroid hormone (PTH) in dispersed bovine parathyroid cells. These data suggest that the CaR-mediated [Ca(2+)](o) signal leading to regulated PTH secretion that requires diacylglycerol-responsive PKC isoforms is not mediated via the ERK pathway.
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PMID:Involvement of protein kinase C-alpha and -epsilon in extracellular Ca(2+) signalling mediated by the calcium sensing receptor. 1521 56

Activation of the extracellular calcium-sensing receptor (CaR) stimulates mitogen-activated protein kinases to upregulate the synthesis and secretion of parathyroid hormone related peptide (PTHrP) from cells expressing the CaR heterologously or endogenously. The current experiments demonstrate that this occurs because CaR activation "transactivates" the EGF receptor (EGFR). Time dependent increases in tyrosine phosphorylation of the EGFR after addition of extracellular calcium ([Ca2+]o, 3 mM) occurred in stably CaR-transfected HEK293 cells but not in non-transfected HEK293 cells. AG1478, an EGFR kinase inhibitor, prevented the CaR-mediated increases of pERK and PTHrP release, while AG1296, a PDGFR kinase inhibitor, had no effect. Inhibitors of matrix metalloproteinase and heparin bound-EGF prevented the CaR-mediated increases of pERK and PTHrP, consistent with a "triple-membrane-spanning signaling" requirement for transactivation of the EGFR by the CaR. Proximal and distal signal transduction cascades activated by the CaR may reflect transactivation of the EGFR by the extracellular calcium-sensing receptor.
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PMID:Extracellular calcium-sensing receptor transactivates the epidermal growth factor receptor by a triple-membrane-spanning signaling mechanism. 1521 50

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