Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prolactin is an ancient hormone, with different functions in many species. The binding of prolactin to its receptor, a member of the cytokine receptor superfamily, results in the activation of different intracellular signaling pathways, such as JAK2/STAT5, MAP kinase, and PI3K/AKT. How prolactin elicits so many different biological responses remains unclear. Recently, microarray technology has been applied to identify prolactin target genes in different systems. Here, we attempt to summarize and compare the available data. Our comparison of the genes reported to be transcriptionally regulated by prolactin indicates that there are few genes in common between the different tissues. Among the organs studied, mammary and prostate glands displayed the largest number of overlaps in putative prolactin target genes. Some of the candidates have been implicated in tumorigenesis. The relevance and validation of microarray data, as well as comparison of the results obtained by different groups, will be discussed.
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PMID:Using gene expression arrays to elucidate transcriptional profiles underlying prolactin function. 1497 73

Previous studies have shown that the synthesis and stability of milk protein mRNAs are regulated by lactogenic hormones. We demonstrate here in cultured mouse mammary epithelial cells (CID 9) that insulin plus prolactin also synergistically increases the rate of milk protein mRNA translation. Insulin alone stimulates synthesis of both milk and nonmilk proteins, whereas prolactin alone has no effect, but insulin plus prolactin selectively stimulate synthesis of milk proteins more than insulin alone. The increase in beta-casein mRNA translation is also reflected in a shift to larger polysomes, indicating an effect on translational initiation. Inhibitors of the phosphatidylinositol 3-kinase, mammalian target of rapamycin, and MAPK pathways block insulin-stimulated total protein and beta-casein synthesis but not the synergistic stimulation. Conversely, cordycepin abolishes synergistic stimulation of protein synthesis without affecting insulin-stimulated translation. The poly(A) tract of beta-casein mRNA progressively increases from approximately 20 to about 200 A residues over 30 min of treatment with insulin plus prolactin. The 3'-untranslated region of beta-casein mRNA containing an unaltered cytoplasmic polyadenylation element is sufficient for the translational enhancement and mRNA-specific polyadenylation, based on transient transfection of cells with a reporter construct. Insulin and prolactin stimulate cytoplasmic polyadenylation element binding protein phosphorylation with no increase of cytoplasmic poly(A) polymerase activity.
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PMID:Insulin and prolactin synergistically stimulate beta-casein messenger ribonucleic acid translation by cytoplasmic polyadenylation. 1507 Oct 91

We generated kinase-positive and kinase-negative erbB2 tagged with YFP and the long form of leptin receptor (LEPRb) tagged with CFP. Both were as active as their untagged analogs. Both short and long isoforms of leptin receptor phosphorylated and thereby activated erbB2 upon leptin binding and enhanced MAPK activity. Our results unveil a novel route by which leptin may provoke erbB2's phosphorylation and thus enhance its oncogenic potential independently of HER family ligands or its overexpression. Using FRET technology in living cells, we found no evidence of complex formation between erbB2 and prolactin or leptin receptors, indicating that the transactivation occurs through an indirect interaction.
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PMID:Transactivation of erbB2 by short and long isoforms of leptin receptors. 1513 67

16K prolactin (PRL) is the name given to the 16-kDa N-terminal fragment obtained by proteolysis of rat PRL by tissue extracts or cell lysates, in which cathepsin D was identified as the candidate protease. Based on its antiangiogenic activity, 16K PRL is potentially a physiological inhibitor of tumor growth. Full-length human PRL (hPRL) was reported to be resistant to cathepsin D, suggesting that antiangiogenic 16K PRL may be physiologically irrelevant in humans. In this study, we show that hPRL can be cleaved by cathepsin D or mammary cell extracts under the same conditions as described earlier for rat PRL, although with lower efficiency. In contrast to the rat hormone, hPRL proteolysis generates three 16K-like fragments, which were identified by N-terminal sequencing and mass spectrometry as corresponding to amino acids 1-132 (15 kDa), 1-147 (16.5 kDa), and 1-150 (17 kDa). Biochemical and mutagenetic studies showed that the species-specific digestion pattern is due to subtle differences in primary and tertiary structures of rat and human hormones. The antiangiogenic activity of N-terminal hPRL fragments was assessed by the inhibition of growth factor-induced thymidine uptake and MAPK activation in bovine umbilical endothelial cells. Finally, an N-terminal hPRL fragment comigrating with the proteolytic 17-kDa fragment was identified in human pituitary adenomas, suggesting that the physiological relevance of antiangiogenic N-terminal hPRL fragments needs to be reevaluated in humans.
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PMID:Cathepsin D processes human prolactin into multiple 16K-like N-terminal fragments: study of their antiangiogenic properties and physiological relevance. 1519 82

Dopamine secreted by hypothalamic neurons is crucial in regulating prolactin secretion from the pituitary. We have examined the ability of angiotensin II (AngII) to regulate the activity of these dopaminergic neurons and thus act as a potential physiological regulator of prolactin secretion. Using a hypothalamic cell culture preparation we determined the effect of AngII on tyrosine hydroxylase activity and expression (TOH). This is important because TOH is the rate-limiting enzyme in dopamine biosynthesis. AngII stimulated a time- and concentration-dependent increase in TOH activity which was suppressed by inhibitors able to act on protein kinase A (PKA), protein kinase C (PKC) and Ca(2+)/calmodulin-dependent protein kinase II (CaMPKII). An inhibitor of the mitogen-activated protein kinase (MAPK) pathway, PD 98059, reduced basal TOH activity but the AngII response was still detectable. AngII stimulation enhanced the phosphorylation of TOH at Ser19, Ser31 and Ser40. AngII also induced a time-dependent increase in TOH mRNA expression which was unaffected by inhibitors able to act on PKA and CaMPKII, but was abolished by inhibitors able to act on ERK and PKC. AngII responses were very much larger in cultures prepared from female when compared to male rat pups. Data from adult hypothalamic slices confirmed this sexual dimorphism and supported the role of the protein kinases noted above. Therefore AngII can regulate both the activity and expression of TOH in hypothalamic neurons employing multiple, but only partially overlapping, signaling pathways.
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PMID:Angiotensin II regulates tyrosine hydroxylase activity and mRNA expression in rat mediobasal hypothalamic cultures: the role of specific protein kinases. 1522 99

Stimulation of resting W53 cells (lymphoid murine cells expressing prolactin (PRL) receptor) by PRL induced expression of growth-related immediate-early genes (IEG), and proliferation through activation of the Src kinases. Since IEG are essential for cell cycle progression, we have studied how PRL controls expression of c-Myc mRNA and c-Fos. Stimulation of W53 cell proliferation by PRL required activation of MAPK, as the Mek1/2 inhibitor PD184352 eliminated Erk1/2 stimulation, cell proliferation, and expression of c-Fos mRNA. In contrast, PD184352 did not alter PRL activation of c-Myc mRNA expression or stimulation of p70S6K, Akt, and the Jak2/Stat5 pathway. Activation of the PI3K by PRL was necessary for the expression of c-MycmRNA and W53 cell proliferation, as the PI3K inhibitor LY294002 abolished them. However, it did not modify PRL stimulation of c-Fos mRNA expression or activation of Erk1/2 and Stat5. Furthermore, rapamycin, an inhibitor of mTOR and consequently of p70S6K, did not alter PRL stimulation of c-Myc and c-Fos mRNA expression and it had a very minor inhibitory effect on PRL stimulation of W53 cell proliferation. In addition, rapamycin did not affect PRL stimulation of Akt or Stat5. However, it reinforced PRL activation of Erk1/2. Overexpression of a constitutively activated Akt (myristoylated Akt) in W53 cells overcame the inhibitory effect of LY294002 on c-Myc expression, as well as cell death upon PRL deprivation. Consistently, inducible expression of Akt-CAAX Box in W53 cells caused inhibition of c-Myc expression. PRL stimulation of W53 cells resulted in Akt translocation to the nucleus, phosphorylation of FKHRL1 transcription factor, and its nuclear exclusion. In contrast, induced expression of Akt-CAAX Box caused inhibition of FKHRL1 phosphorylation. Furthermore, transient expression of nonphosphorylatable FKHRL1-A3 mutant impaired PRL-induced activation of the c-Myc promoter. Akt activation also resulted in phosphorylation and inhibition of glycogen synthetase kinase 3 (GSK3), which in turn promoted c-Myc stability. Consistently, treatment of W53 with selective inhibitors of GSK3 such as SB415286 and lithium salts resulted in increased levels of c-Myc. Also, overexpression of c-Myc in W53 cells overcame the decrease in cell proliferation induced by LY294002. These findings defined a PRL-signalling cascade in W53 cells, involving Src kinases/PI3K/Akt/FKHRL1-GSK3, that mediates stimulation of c-Myc expression.
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PMID:Prolactin induces c-Myc expression and cell survival through activation of Src/Akt pathway in lymphoid cells. 1528

The importance of prolactin (PRL) in physiological proliferation and differentiation of the mammary gland, together with high levels of PRL receptors in breast tumors, the association of circulating PRL with incidence of breast cancer, and the recognition of locally produced PRL, point to the need for greater understanding of PRL actions in mammary disease. Although PRL has been shown to activate multiple kinase cascades in various target cells, relatively little is known of its signaling pathways in the mammary gland apart from the Janus kinase 2/ signal transducer and activator of transcription 5 pathway, particularly in tumor cells. Another potential effector is activating protein-1 (AP-1), a transcription complex that regulates processes essential for neoplastic progression, including proliferation, survival and invasion. We demonstrate that PRL activates AP-1 in MCF-7 cells, detectable at 4 h and sustained for at least 24 h. Although Janus kinase 2 and ERK1/2 are the primary mediators of PRL-induced signals, c-Src, phosphatidylinositol 3'-kinase, protein kinase C, and other MAPKs contribute to maximal activity. PRL activation of these pathways leads to increased c-Jun protein and phosphorylation, JunB protein, and phosphorylation of c-Fos, elevating the levels of AP-1 complexes able to bind DNA. These active AP-1 dimers may direct expression of multiple target genes, mediating some of PRL's actions in mammary disease.
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PMID:Multiple kinase cascades mediate prolactin signals to activating protein-1 in breast cancer cells. 1531 52

Prolactin secretion from the anterior pituitary is tightly regulated by feedback onto the hypothalamic neuroendocrine dopaminergic (NEDA) neurons. Prolactin stimulates these neurons to synthesize and secrete dopamine, which acts via the pituitary portal vasculature to inhibit prolactin secretion from the pituitary lactotrophs. Despite the physiological importance of this feedback, relatively little is known about the signaling mechanisms responsible for prolactin activation of NEDA neurons. This issue has been examined here using a cell culture preparation of the fetal rat mediobasal hypothalamus. Prolactin stimulated a time- and concentration-dependent increase in catecholamine synthesis, which was maximal after 60-120 min (1 microg/ml prolactin) and inhibited by the prolactin antagonist Delta1-9-G129R-hPRL. This prolactin response was accompanied by a rise in the site-specific (ser-19, -31, and -40) phosphorylation of tyrosine hydroxylase (TH), the rate-limiting enzyme in catecholamine synthesis. Consistent with this observation, the prolactin-induced increase in catecholamine synthesis was abolished by inhibitors of protein kinase A and protein kinase C (PKC). Prolactin incubation also resulted in a PKC-dependent activation of the MAPK pathway, although this was not required for the stimulation of catecholamine synthesis. In addition to increasing TH phosphorylation and catecholamine synthesis, prolactin also increased TH mRNA expression. In contrast to catecholamine synthesis, this latter response was not suppressed by inhibition of protein kinase A or PKC. These results indicate that although prolactin controls catecholamine synthesis in NEDA neurons by regulating both TH activity and TH mRNA expression, it employs distinct, nonoverlapping, signaling pathways to achieve these ends.
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PMID:Prolactin-regulated tyrosine hydroxylase activity and messenger ribonucleic acid expression in mediobasal hypothalamic cultures: the differential role of specific protein kinases. 1538 49

The pituitary hormone prolactin (PRL) exerts pleiotropic effects, which are mediated by a membrane receptor (PRLR) present in numerous cell types including adipocytes. Brown adipose tissue (BAT) expresses uncoupling proteins (UCPs), involved in thermogenesis, but also secretes leptin, a key hormone involved in the control of body weight. To investigate PRL effects on BAT, we used the T37i brown adipose cell line, and demonstrated that PRLRs are expressed as a function of cell differentiation. Addition of PRL leads to activation of the JAK/STAT and MAP kinase signaling pathways, demonstrating that PRLRs are functional in these cells. Basal and catecholamine-induced UCP1 expression were not affected by PRL. However, PRL combined with insulin significantly increases leptin expression and release, indicating that PRL potentiates the stimulatory effect of insulin as revealed by the recruitment of insulin receptor substrates and the activation of phosphatidylinositol 3-kinase. To explore the in vivo physiological relevance of PRL action in BAT, we showed that leptin content was significantly increased in BAT of PRLR-null mice compared with wild-type mice, highlighting the involvement of PRL in the leptin secretion process. This study provides the first evidence for a functional link between PRL and energy balance via a cross-talk between insulin and PRL signaling pathways in brown adipocytes.
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PMID:Prolactin potentiates insulin-stimulated leptin expression and release from differentiated brown adipocytes. 1559 Oct 27

Normal and neoplastic human mammary gland cells are targets for the proliferative action of prolactin. These cells also synthesize prolactin, thereby inducing an autocrine/paracrine proliferative loop. We present the first extensive analysis of the transcriptional regulation of the human prolactin gene (hPRL) in human mammary tumor cells, SK-BR-3. We show that the pituitary promoter is functional in these cells in the absence of the pituitary-specific factor Pit-1. Expression of exogenous Pit-1 or epidermal growth factor (EGF) treatment stimulates the transfected hPRL pituitary promoter and the endogenous hPRL expression. EGF stimulation is mediated by increased synthesis of c-fos and c-jun, resulting in AP-1 binding to the proximal hPRL pituitary promoter. This regulation involves the EGF receptor, possibly ErbB2 that is highly expressed in SK-BR-3 cells, and a PI3K/JNK pathway. The stimulation of hPRL gene transcription by EGF in mammary cells may include hPRL in a complex regulatory network controlling growth of human mammary cells.
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PMID:EGF stimulates Pit-1 independent transcription of the human prolactin pituitary promoter in human breast cancer SK-BR-3 cells through its proximal AP-1 response element. 1560 37


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