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)

A 57-kDa protein in royal jelly (RJ) was previously shown to stimulate hepatocyte DNA synthesis and prolongs the proliferation of hepatocytes as well as increasing albumin production [Kamakura, M., Suenobu, N., and Fukushima, M. (2001) Biochem. Biophys. Res. Commun. 282, 865-874]. In this study, I investigated the signal transduction mechanisms involved in the induction of hepatocyte DNA synthesis and the promotion of cell survival by this 57-kDa protein in primary cultures of adult rat hepatocytes. Hepatocyte DNA synthesis induced by the 57-kDa protein was not influenced by several alpha- and beta-adrenoceptor antagonists, but was dose-dependently abolished by an inhibitor of a tyrosine-specific protein kinase, genistein. A phospholipase C inhibitor (U-73122) and a protein kinase C (PKC) inhibitor (sphingosine) inhibited 57-kDa protein-stimulated he-patocyte DNA synthesis, whereas a protein kinase A inhibitor (H-89) did not. The 57-kDa protein also activated PKC in rat hepatocytes. Various inhibitors of intracellular signal transduction elements (PD98059, p21 ras farnesyltransferase inhibitor, wortmannin and rapamycin) also blocked hepatocyte DNA synthesis induced by the 57-kDa protein. Furthermore, the 57-kDa protein activated mitogen-activated protein (MAP) kinase in rat hepatocytes. The activation of MAP kinase by the 57-kDa protein was inhibited by PD98059 and sphingosine. The 57-kDa protein also activated protein kinase B, which is a key regulator of cell survival. These results suggest that, like growth factors, the 57-kDa protein activates several important intracellular signaling factors involved in the stimulation of hepatocyte DNA synthesis and the protection of cells from apoptosis.
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PMID:Signal transduction mechanism leading to enhanced proliferation of primary cultured adult rat hepatocytes treated with royal jelly 57-kDa protein. 1247 93

The Forkhead Box (Fox) proteins are an extensive family of transcription factors that shares homology in the winged helix DNA-binding domain and whose members play essential roles in cellular proliferation, differentiation, transformation, longevity, and metabolic homeostasis. Liver regeneration studies with transgenic mice demonstrated that FoxM1B regulates the onset of hepatocyte DNA replication and mitosis by stimulating expression of cell cycle genes. Here, we demonstrate that albumin-promoter-driven Cre recombinase-mediated hepatocyte-specific deletion of the Foxm1b Floxed (fl) targeted allele resulted in significant reduction in hepatocyte DNA replication and inhibition of mitosis after partial hepatectomy. Reduced DNA replication in regenerating Foxm1b(-/-) hepatocytes was associated with sustained increase in nuclear staining of the cyclin-dependent kinase (Cdk) inhibitor p21(Cip1) (p21) protein between 24 and 40 h after partial hepatectomy. Furthermore, increased nuclear p21 levels and reduced expression of Cdc25A phosphatase coincided with decreases in Cdk2 activation and hepatocyte progression into S-phase. Moreover, the significant reduction in hepatocyte mitosis was associated with diminished mRNA levels and nuclear expression of Cdc25B phosphatase and delayed accumulation of cyclin B1 protein, which is required for Cdk1 activation and entry into mitosis. Cotransfection studies demonstrate that FoxM1B protein directly activated transcription of the Cdc25B promoter region. Our present study shows that the mammalian Foxm1b transcription factor regulates expression of cell cycle proteins essential for hepatocyte entry into DNA replication and mitosis.
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PMID:The Forkhead Box m1b transcription factor is essential for hepatocyte DNA replication and mitosis during mouse liver regeneration. 1248 52

A recent consensus conference proposed a new classification for focal segmental glomerulosclerosis (FSGS). Five patterns have been defined: FSGS not otherwise specified, perihilar variant, cellular variant, tip variant, and collapsing variant. In light of the multiplicity of classification schemes in use, the promise of a rational and uniform scheme for FSGS pathology is most welcome. This approach has worked extremely well for the classification of lupus nephritis. It does not necessarily mean, however, that this new classification scheme will help to select treatment protocols according to histopathologic subsets of FSGS. In fact, one renal biopsy examination may show multiple variants and this classification, despite many merits, still lumps categories that should be split and splits categories that should be lumped together. It has become clear that despite its histologic diversity FSGS begins as a podocyte disease that progresses from a cellular to a scar lesion. Recent years have brought about astonishing insight into the complex molecular array of proteins forming the slit diaphragm between podocyte foot processes, a narrow space essential for restricting glomerular permeability to albumin. Concentrating on the podocyte rather than on the glomerular tuft is helpful for abolishing the classic distinction between primary versus secondary forms of FSGS, a distinction that crumbles away with each new evidence of genetic, ischemic, or viral etiologies of FSGS, despite similar lesions. In fact, recent studies focusing on the podocyte changes that occur in various subsets of FSGS have unraveled the striking phenomena of podocyte dedifferentiation and transdifferentiation along with differential expression of cyclin-dependent kinase inhibitors. Interestingly, the latter showed that expression of cyclin-dependent kinase inhibitors p21 and proliferation marker Ki-67 are the same in cellular FSGS, collapsing glomerulopathy, and human immunodeficiency virus-associated FSGS. Taken together these findings lead to a reassuring unitary interpretation of the pluralistic appearance of FSGS by histopathology. Clearly, further studies of the podocyte will lead to improved understanding of FSGS and to improved classification schemes that are grounded in molecular understanding of glomerular injury and that will guide the clinician in the choice of treatment and prognosis.
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PMID:E pluribus unum: The riddle of focal segmental glomerulosclerosis. 1270 73

Skeletal homeostasis is partly regulated by the mechanical environment and specific signals generated by a cell's adhesion to the matrix. Previous studies demonstrated that osteopontin (OPN) expression is stimulated in response to both cellular adhesion and mechanical stimulation. The present studies examine if specific integrin ligands mediate osteoblast selective adhesion and whether opn mRNA expression is induced in response to these same ligands. Embryonic chicken calvaria osteoblastic cells were plated on bacteriological dishes coated with fibronectin (FN), collagen type I (Col1), denatured collagen/gelatin (G), OPN, vitronectin (VN), laminin (LN) or albumin (BSA). Osteoblastic cells were shown to selectively adhere to FN, Col1, G and LN, yet not to VN, OPN or BSA. Opn mRNA expression was induced by adhesion to Col1, FN, LN and G, but neither OPN nor VN induced this expression. Examination of the activation of the protein kinases A and C second signaling systems showed that only adhesion to FN induced protein kinase A and protein kinase C (PKC) activity while adherence to Col1 induced PKC. Evaluation of the intracellular distribution of focal adhesion kinase (FAK) and p-tyrosine within cells after adherence to FN, VN or BSA demonstrated that adherence to FN stimulated FAK translocation from the nucleus to the cytoplasm and high levels of p-tyrosine localization at the cell surface. However, cell adherence to VN or BSA did not show these morphological changes. These data illustrate that osteoblast selective adhesion is mediated by specific integrin ligands, and induction of intracellular second signal kinase activity is related to the nature of the ligand.
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PMID:Selective adhesion of osteoblastic cells to different integrin ligands induces osteopontin gene expression. 1285 34

To assess the role of insulin receptor (IR) substrate (IRS)-2 in insulin action and resistance in the liver, immortalized neonatal hepatocyte cell lines have been generated from IRS-2(-/-), IRS-2(+/-), and wild-type mice. These cells maintained the expression of the differentiated liver markers albumin and carbamoyl phosphate synthetase, as well as bear a high number of IRs. The lack of IRS-2 did not result in enhanced IRS-1 tyrosine phosphorylation or IRS-1-associated phosphatidylinositol (PI) 3-kinase activity on insulin stimulation. Total insulin-induced PI 3-kinase activity was decreased by 50% in IRS-2(-/-) hepatocytes, but the translocation of PI-3,4,5-trisphosphate to the plasma membrane in these cells was almost completely abolished. Downstream PI 3-kinase, activation of Akt, glycogen synthase kinase (GSK)-3 (alpha and beta isoforms), Foxo1, and atypical protein kinase C were blunted in insulin-stimulated IRS-2(-/-) cells. Reconstitution of IRS-2(-/-) hepatocytes with adenoviral IRS-2 restored activation of these pathways, demonstrating that IRS-2 is essential for functional insulin signaling in hepatocytes. Insulin induced a marked glycogen synthase activity in wild-type and heterozygous primary hepatocytes; interestingly, this response was absent in IRS-2(-/-) cells but was rescued by infection with adenoviral IRS-2. Regarding gluconeogenesis, the induction of phosphoenolpyruvate carboxykinase and glucose 6-phosphatase by dibutyryl cAMP and dexamethasone was observed in primary hepatocytes of all genotypes. However, insulin was not able to suppress gluconeogenic gene expression in primary hepatocytes lacking IRS-2, but when IRS-2 signaling was reconstituted, these cells recovered this response to insulin. Suppression of gluconeogenic gene expression in IRS-2-deficient primary hepatocytes was also restored by infection with dominant negative Delta 256Foxo1.
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PMID:Molecular mechanisms of insulin resistance in IRS-2-deficient hepatocytes. 1294 62

The kallikrein-kinin system plays important roles in blood pressure regulation, metabolism of electrolytes and organ protection. Although the bradykinin B2 receptor (B2R) has been reported to be involved in most of these effects, a role of the bradykinin B1 receptor (B1R) has also been noted recently. The aim of this study was to determine the role of renal B1R in stroke-prone spontaneously hypertensive rats (SHR-SP). Sixteen-week-old SHR-SP and Wistar Kyoto rats (WKY) as a control were used in the experiments. A high level of B1R mRNA was detected in SHR-SP, while the expression in WKY was almost undetectable. Immunohistochemistry revealed a B1R protein in the renal tubules and glomeruli in SHR-SP. The acute injection of a B1 R agonist into SHR-SP increased urinary NOx excretion to a level up to 5-fold higher than that in the SHR-SP treated with vehicle. The infusion of B1 R antagonist for 4 weeks resulted in a significant elevation of blood pressure and urinary albumin excretion and a decrease in urinary NOx excretion in SHR-SP. The administration of B1 R antagonist resulted in renal interstitial and glomerular fibrosis in SHR-SP. Moreover, the expressions of transforming growth factor (TGF) beta1 protein and collagen III mRNA in SHR-SP treated with B1R antagonist were significantly higher than those of SHR-SP treated with a vehicle. The expression and phosphorylation of extracellular signal-regulated protein kinase (ERK) and p38, but not c-Jun N-terminal kinase (JNK), were significantly increased in the SHR-SP treated with B1R antagonist. These results indicated that renal B1R might be over-expressed in a high blood pressure condition, and that this upregulated B1 R may play an important role in renal protection by inhibiting renal fibrosis via an increase of NO production and a suppression of TGFbeta1 expression and mitogen-activated protein kinase (ERK and p38) phosphorylation.
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PMID:Renal protective role of bradykinin B1 receptor in stroke-prone spontaneously hypertensive rats. 1525 5

A growing body of evidence implicates albumin has an important regulatory function in renal proximal tubule cells (PTCs). In present study, the effect of bovine serum albumin (BSA) on 14C-alpha-methyl-D-glucopyranoside (alpha-MG) uptake and its related signal molecules were examined in the primary cultured rabbit renal PTCs. BSA significantly increased uptake of alpha-MG, a distinctive proximal tubule marker, as well as expression level of Na+/glucose cotransporters (SGLT1 and SGLT2) proteins. The BSA-induced increase of alpha-MG uptake was completely blocked by actinomycin D and cycloheximide. Neomycin or U 73122 (PLC inhibitors), BAPTA/AM or TMB-8 (intracellular Ca2+ mobilization inhibitors) completely abolished BSA-induced increase of alpha-MG uptake. BSA significantly increased IPs accumulation, but did not affect Ca2+ uptake. Effect of BSA on alpha-MG uptake was blocked by PD 98059, but did not SB 203580. BSA increased phosphorylation of p44/42 mitogen activated protein kinase (MAPK) in a time-dependent manner. NAC or catalase (antioxidants) significantly blocked BSA-induced increase of H2O2 formation and alpha-MG uptake. BSA activated NF-kappaB translocation into nucleus. PDTC, SN50, and TLCK (NF-kappaB inhibitors) also completely blocked BSA-induced increase of alpha-MG uptake, NF-kappaB p65 and phospho IkappaB-alpha activation. In conclusion, BSA stimulates alpha-MG uptake and its action is partially correlated with PLC, MAPK, or NF-kappaB signal molecules in primary cultured renal PTCs.
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PMID:Effect of albumin on 14C-alpha-Methyl-D-Glucopyranoside uptake in primary cultured renal proximal tubule cells: involvement of PLC, MAPK, and NF-kappaB. 1538 29

Mitogen-activated protein kinases (MAPKs) have been implicated in the signal transduction of the endothelial response to growth factors and inflammatory stimuli. The objective of this study was to test the hypothesis that the p42/44 MAPK pathway plays a common role in mediating the microvascular hyperpermeability response to vascular endothelial growth factor (VEGF) and histamine. The apparent permeability coefficient of albumin was measured in isolated and perfused coronary venules. Application of VEGF induced a rapid increase in venular permeability, and the effect was blocked by PD98059 and UO126, selective inhibitors of the mitogen-activated protein kinase kinase MEK1/2, in a dose-dependent pattern. The same MEK1/2 inhibitors dose-dependently attenuated the increase in venular permeability caused by histamine. In addition, the increases in venular permeability caused by agents that are known to activate the nitric oxide pathway, including the calcium ionophore ionomycin, the nitric oxide donor S-nitroso-N-acetylpenicillamine, and the protein kinase G activator 8-bromo-cGMP, were significantly attenuated in venules pretreated with the MEK1/2 inhibitors. Furthermore, transfection of venules with active MEK1 increased baseline permeability. In contrast, transfection of active ERK1, a downstream target of MEK1/2, did not significantly alter the basal permeability of venules. Moreover, inhibition of ERK1/2 with a specific inhibiting peptide did not prevent the hyperpermeability response to VEGF or histamine. The results suggest that activation of MEK1/2 may play a central role in the signal transduction of microvascular hyperpermeability in response to growth factors and inflammatory mediators.
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PMID:The protein kinase MEK1/2 mediate vascular endothelial growth factor- and histamine-induced hyperpermeability in porcine coronary venules. 1553

During capacitation, major changes take place in the sperm plasma membrane so as to render it fusogenic and responsive to zona pellucida glycoproteins. However, the mechanisms involved have not been defined. As bicarbonate is known to be the key component that induces capacitation, we have investigated the bicarbonate-dependent changes in the boar sperm's plasma membrane architecture. We have discovered that bicarbonate induces a rapid collapse of phospholipid transverse asymmetry, exposing phosphatidylethanolamine and phosphatidylserine at the outer surface of the lipid bilayer. The collapse, which is reversible, is brought about as a result of activation of the phospholipid scramblase that exchanges phospholipids in a non-specific fashion between the two leaflets of the lipid bilayer. The activation takes place via a cyclic AMP-protein kinase A-dependent pathway and is initiated via stimulation of the so-called 'soluble' adenylyl cyclase in the sperm cell by bicarbonate. As a result of the collapse and the concurrent increase in phospholipid exchange, removal of cholesterol by albumin is facilitated (perhaps due to increased lipid packing disorder). This finding is in conflict with earlier surmises that cholesterol loss precedes activation of the cyclic AMP-protein kinase A axis. We have noted that not all cells in a given sperm population show rapid changes in response to bicarbonate stimulation; samples from individual boars also differ in their response. Maturation differences between cells have been found to play an important role in such functional heterogeneity.
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PMID:Bicarbonate-induced membrane processing in sperm capacitation. 1562 3

Albumin is the most abundant protein in serum and contributes to the maintenance of oncotic pressure as well as to transport of hydrophobic molecules. Although albumin is a large anionic protein, it is not completely retained by the glomerular filtration barrier. In order to prevent proteinuria, albumin is reabsorbed along the proximal tubules by receptor-mediated endocytosis, which involves the binding proteins megalin and cubilin. Endocytosis depends on proper vesicle acidification. Disturbance of endosomal acidification or loss of the binding proteins leads to tubular proteinuria. Furthermore, endocytosis is subject to modulation by different signaling systems, such as protein kinase A (PKA), protein kinase C (PKC), phosphatidylinositol 3-kinase (PI3-K) and transforming growth factor beta (TGF-beta). In addition to being reabsorbed in the proximal tubule, albumin can also act as a profibrotic and proinflammatory stimulus, thereby initiating or promoting tubulo-interstitial diseases.
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PMID:Renal tubule albumin transport. 1570 71


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