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Query: EC:3.1.4.3 (
phospholipase C
)
18,461
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent evidence suggests that guanyl nucleotide binding (G) proteins are involved in receptor-mediated bone resorption and in osteoblastic function, but the nature of the G protein coupled to effectors that are involved in these skeletal effects is unknown. The purposes of this study were to determine (1) whether a G protein mediates activation of phosphoinositide-specific
phospholipase C
in UMR-106 rat osteosarcoma cells, and (2) whether parathyroid hormone (PTH) and a PTH-like protein (PLP) associated with
humoral hypercalcemia of malignancy
promote GTP-dependent PIP2 hydrolysis. Addition of GTP (10(-4) M) or guanosine 5'-0-(3-thiotriphosphate, GTP gamma S, 10(-5) M) to membranes prepared from UMR-106 cells labeled with [3H]myo-inositol increased both [3H]inositol trisphosphate (IP3) and [3H]inositol bisphosphate (IP2) formation. The increases in [3H]IP2 and [3H]IP3 produced by GTP were 8.6- and 4.3-fold, respectively. GTP gamma S produced a 17.6- and 11.9-fold increase in [3H]IP2 and [3H]IP3, respectively. The stimulatory effects of GTP and GTP gamma S were dose dependent (GTP ED50 = 3.9 x 10(-6) M; GTP gamma S ED50 = 2.5 x 10(-7) M) and progressive over 10 minutes and required the presence of Mg2+.GTP (10(-4) M) and GTP gamma S (10(-5) M) decreased membrane [3H]phosphoinositides concomitantly with increased [3H]IP2 and [3H]IP3. The GDP analog guanosine 5'-O-(2-thiodiphosphate, GDP beta S) alone did not alter [3H]IP2 or [3H]IP3 production but at 10(-4) M blocks the stimulatory effects of GTP and GTP gamma S. NaF (3 x 10(-2)M) produced a 2.8- and 2.0-fold stimulation of [3H]IP2 and [3H]IP3, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:G protein-dependent activation of a phosphoinositide-specific phospholipase C in UMR-106 osteosarcoma cell membranes. 255 86
Cloning of the PTH/PTHrP receptor has established a new class of a receptor family which couples with G-proteins. When this receptor is occupied by PTH or
PTHrP
, activation of adenylate cyclase and
phospholipase C
occurs. Site-specific mutagenesis is extensively employed to study the structure-function relationship. The mechanisms whereby PTH/PTHrP receptor level is regulated are also being studied. PTH/PTHrP receptor knock-out and
PTHrP
knock-out mice show similar skeletal abnormalities but the former apparently die earlier before birth. There are still many problems to be elucidated, such as the reason for the subtle difference of PTH action and
PTHrP
action, and the role that this receptor plays in the pathogenesis of pseudohypoparathyroidism Ib.
...
PMID:[Function of the PTH/PTHrP receptor]. 775 67
Calcium and phosphorus metabolism is mainly regulated by PTH through its actions on kidney and bone.
PTHrP
, which is associated with the hypercalcemia of malignancy syndrome, binds to and activates the same receptor that PTH does. cDNA clones of PTH/PTHrP receptors from rat osteosarcoma (ROS 17/2.8) and opossum kidney (OK) cells are highly homologous and are members of a novel G protein-linked receptor family that includes calcitonin, glucagon, GLP-1, GHRH, VIP, and secretin receptors. Analysis of the protein sequence predicts a receptor with 7 transmembrane domains, a 155 amino acids (aa) extracellular (EC) N-terminal, and 130aa intracellular C-terminal domaina. The extracellular domain has 6 conserved cysteines and 4 potential glycosylation sites. When transfected in COS cells, both receptors are able to bind PTH and
PTHrP
active fragments with equal affinity. Likewise, agonists activate both adenylate cyclase and
phospholipase C
efficiently. The N-terminal EC domain and the first EC loop seem to determine the receptor binding capacity with the agonists. Activation of adenylate cyclase and
phospholipase C
might involve multiple sites between the 3rd helix and the C-terminal tail. Partial characterization of the rat PTH/PTHrP receptor gene demonstrates the existence of at least 15 exons. The first six transmembrane domains are encoded by separated exons. The PTH/PTHrP receptor mRNA is expressed mainly in kidney and bone, and also is widely expressed in many tissues, but not all. A major 2.3-2.5 kb transcript is observed in all these tissues. Nevertheless, 2 larger transcripts are observed in kidney and liver, and multiple smaller mRNA species are observed in kidney, skin, and testis.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Mode of action of parathyroid hormone (PTH) and PTH-related peptide (PTHrP) in target organs]. 785 77
Parathyroid hormone (PTH) activates both adenylate cyclase and
phospholipase C
in target cells, and cloned PTH/
PTH-related protein
(
PTHrP
) receptor can mediate both responses when expressed in host cells such as LLC-PK1 renal epithelial cells. Because calcitonin (CT) is known to augment 70-kDa heat shock protein (HSP70) mRNA by an adenosine 3',5'-cyclic monophosphate (cAMP)-independent mechanism in LLC-PK1 cells, we examined regulation of HSP70 transcription by PTH in these cells. Like CT, human PTH-(1-34) [hPTH-(1-34); 10(-10) to 10(-7) M)] increased porcine HSP70 mRNA and human HSP70 promoter-chloramphenicol acetyltransferase (CAT) expression within 4 h in LLC-PK1 cells that stably express > or = 100,000 PTH/PTHrP receptors per cell. The effect of PTH on HSP70 mRNA was not mimicked by cAMP analogues, forskolin, phorbol esters, Ca2+ ionophores, or alpha-thrombin; was insensitive to pertussis toxin; and was not due to increased mRNA stability. The upregulation of HSP70 gene transcription by hPTH (and CT) was clearly observed even after deletion of the functional heat shock consensus element in the promoter region of the human HSP70/CAT reporter. Upregulation of HSP70 transcription via endogenous PTH receptors also was observed in the osteoblastic cell lines SaOS-2 and ROS 17/2.8. Regulation of HSP70 gene transcription by PTH may be a common cellular response to the hormone, which, in some cells, may not be mediated by activation of adenylate cyclase or protein kinase C.
...
PMID:Regulation of HSP70 by PTH: a model of gene regulation not mediated by changes in cAMP levels. 876 37
A midregion fragment of
PTH-related protein
(
PTHrP
), which is intensively conserved across species, has been identified as a secretory product of several different cell types, including keratinocytes and squamous carcinomas. As recent data suggest that a midregion
PTHrP
fragment may be biologically active, we hypothesized that midregion PTHrPs interact with unique cell surface receptors that mediate autocrine or paracrine action. Dose-dependent transient elevations in intracellular calcium ([Ca2-]i) were observed in fura-2-loaded SqCC/Y1 squamous carcinoma cells exposed to human (h)
PTHrP
-(67-86)NH2, [Tyr36]hPTHrP-(1-36)NH2, and hPTHrP-(1-141) at concentrations ranging from 1 pM to 1 microM. The effects of maximal stimulatory concentrations of [Tyr36]
PTHrP
-(1-36)NH2 and
PTHrP
-(67-86)NH2 on [Ca2+]i were additive. The inhibitory PTH analog, [D-Trp12,Tyr34]bovine PTH-(7-34)NH2, attenuated the [Ca2+]i response to [Tyr36]hPTHrP-(1-36)NH2, but not that to
PTHrP
-(67-86)NH2. These data suggest that
PTHrP
-(67-86)NH2 activates a different receptor pathway in SqCC/Y1 cells from the one activated by [Tyr36]hPTHrP-(1-36)NH2. Radiolabeled
PTHrP
-(67-86)NH2 did not bind to SqCC/Y1 cells, and
PTHrP
-(67-86)NH2 did not compete for binding of 125I-labeled [Tyr36]
PTHrP
-(1-36)NH2 to PTH/PTHrP receptors on SaOS-2 osteosarcoma cells. Activation of the
phospholipase C
pathway by
PTHrP
-(67-86)NH2 was confirmed by exposing SqCC/Y1 cells to peptide for 1 min and measuring the accumulation of inositol trisphosphates.
PTHrP
-(67-86)NH2 treatment (100 nM) resulted in maximal stimulation of inositol trisphosphates of 3.1 +/- 0.1-fold over the control value, with an EC50 of 1.5 +/- 1.2 nm. In contrast,
PTHrP
-(67-86)NH2 (0.1 nM to 1 microM) did not stimulate adenylyl cyclase in SqCC/Y1 cells despite vigorous stimulation of cAMP formation by isoproterenol (1 microM) to 66-fold over the basal value. To determine whether messenger RNA (mRNA) prepared from SqCC/Y1 cells would direct the translation of a receptor protein that mediated a [Ca2+]i response to
PTHrP
-(67-86)NH2, we performed expression studies in Xenopus oocytes. Fluo-3 fluorescence in Xenopus oocytes expressing SqCC/Y1 mRNA was visualized by confocal video microscopy after exposure to 1 microM
PTHrP
-(67-86)NH2. Clear increases in [Ca2+]i were detected in mRNA-injected, but not in sham-injected, oocytes. Finally, we examined the effect of
PTHrP
-(67-86)NH2 treatment on fibronectin secretion from SqCC/YN1 cells. A significant 3.5-fold increase in fibronectin secretion into conditioned medium was observed when SqCC/Y1 cells were exposed to 100 nM
PTHrP
-(67-86)NH2, and this effect was dose dependent, with an EC50 of 0.1 nM. We conclude that
PTHrP
-(67-86)NH2 activates
phospholipase C
-dependent pathways in SqCC/Y1 cells through a receptor distinct from that activated by
PTHrP
-(1-36) in the same cells. As a midregion secretory fragment of
PTHrP
has been partially purified from several different cell types, this receptor may have broad biological significance.
...
PMID:A midregion parathyroid hormone-related peptide mobilizes cytosolic calcium and stimulates formation of inositol trisphosphate in a squamous carcinoma cell line. 894 Mar 60
Parathyroid hormone (PTH) regulates calcium metabolism through a specific G protein-coupled, seven-transmembrane helix-containing receptor. This receptor also binds and is activated by
PTH-related protein
(
PTHrP
). The human (h) PTH/PTHrP receptor is a membrane glycoprotein with an apparent molecular weight of approximately 85000 which contains four putative N-glycosylation sites. To elucidate the functional role of receptor glycosylation, if any, we studied hormone binding and signal transduction in human embryonic kidney cells transfected with hPTH/
PTHrP
receptor (HEK-293/C-21). These cells stably express 300000-400000 receptors per cell. Inhibition of N-glycosylation with an optimized concentration of tunicamycin yielded completely nonglycosylated hPTH/
PTHrP
receptor (approximately 60 kDa). This receptor form is fully functional; it maintains nanomolar binding affinity for PTH- and
PTHrP
-derived agonists and antagonists. PTH and
PTHrP
agonists stimulate cyclic AMP accumulation and increases in cytosolic calcium levels. In addition, the highly potent benzophenone (pBz2)-containing PTH-derived radioligand [Nle8,18,Lys13(epsilon-pBz2),L-2-Nal23,Tyr34 3-125I)]bPTH(1-34)NH2 can photoaffinity cross-link specifically to the nonglycosylated receptor. The molecular weight (approximately 60000) of the band representing the photo-cross-linked, nonglycosylated receptor (obtained from the tunicamycin-treated HEK-293/C-21 cells) was similar to that of the deglycosylated photo-cross-linked receptor (obtained by enzymatic treatment with Endoglycosidase-F/N-glycosidase-F). Our findings indicate that glycosylation of the hPTH/
PTHrP
receptor is not essential for its effective expression on the plasma membrane or for the binding of ligands known to interact with the native receptor. The nonglycosylated hPTH/
PTHrP
receptor remains fully functional with regard to both of its known signal transduction pathways: cAMP-protein kinase A and
phospholipase C
-cytosolic calcium.
...
PMID:Role of glycosylation in expression and function of the human parathyroid hormone/parathyroid hormone-related protein receptor. 896 54
To define the structural requirements of the parathyroid hormone (PTH)/
PTH-related protein
(
PTHrP
) receptor necessary for activation of
phospholipase C
(
PLC
), receptors with random mutations in their second cytoplasmic loop were synthesized, and their properties were assessed. A mutant in which the wild type (WT) rat PTH/PTHrP receptor sequence EKKY (amino acids 317-320) was replaced with DSEL had little or no PTH-stimulated
PLC
activity when expressed transiently in COS-7 cells, but it retained full capacity to bind ligand and to generate cAMP. This phenotype was confirmed in LLC-PK1 cells stably expressing the DSEL mutant receptor, where both PTH-stimulated
PLC
activity and sodium-dependent phosphate co-transport were essentially abolished. Individual mutations of these four residues point to a critical role for Lys-319 in receptor-G protein coupling. PTH-generated IPs were reduced to 27 +/- 13% when K319E, compared with the WT receptor, and
PLC
activation was fully recovered in a receptor revertant in which Glu-319 in the DSEL mutant cassette was restored to the WT residue, Lys. Moreover, the WT receptor and a mutant receptor in which K319R had indistinguishable properties, thus suggesting that a basic amino acid at this position may be important for
PLC
activation. All of these receptors had unimpaired capacity to bind ligand and to generate cAMP. To ensure adequacy of Galphaq-subunits for transducing the receptor signal, Galphaq was expressed in HEK293 and in LLC-PK1 cells together with either WT receptors or receptors with the DSEL mutant cassette. PTH generated no inositol phosphates (IPs) in either HEK293 or LLC-PK1 cells, when they expressed DSEL mutant receptors together with Galphaq. In contrast, PTH generated 2- and 2. 5-fold increases in IPs, respectively, when these cells co-expressed both the WT receptor and Galphaq. Thus, generation of IPs by the activated PTH/PTHrP receptor can be selectively abolished without affecting its capacity to generate cAMP, and Lys-319 in the second intracellular loop is critical for activating the
PLC
pathway. Moreover, alpha-subunits of the Gq family, rather than betagamma-subunits, transduce the signal from the activated receptor to
PLC
, and the
PLC
, rather than the adenylyl cyclase, pathway mediates sodium-dependent phosphate co-transport in LLC-PK1 cells.
...
PMID:Mutations in the second cytoplasmic loop of the rat parathyroid hormone (PTH)/PTH-related protein receptor result in selective loss of PTH-stimulated phospholipase C activity. 905 74
PTH-induced mobilization of cytosolic Ca2+ in a human kidney cell line (HEK/W) occurring in the absence of cAMP stimulation was characterized and compared with that obtained in the same cells stably transfected by the PTH/PTH-related peptide (PTHrp) receptor (HEK/T). In both cell lines, N-terminal fragments of PTH and PTHrp induced a concentration-dependent biphasic stimulation in [Ca2+]i: a transient peak followed by a slow linear increase. These increases in [Ca2+]i were inhibited by the PTH antagonist [Nle(8,18),Tyr(34)]bPTH(3-34). The transient peaks were due to calcium release from intracellular stores, as they resisted quenching of calcium in the extracellular buffer and were abolished by prior emptying of intracellular stores. These peaks differed, however, both in latency period and in magnitude, in the two cell lines. The
phospholipase C
inhibitor U73122 inhibited the PTH-induced increase in [Ca2+]i in HEK/T cells, but not in HEK/W. Similarly, PTH-induced inositol phosphate (InsPs) production was detected in HEK/T but not in HEK/W cells. PTH-induced calcium release in HEK/W cells was inhibited by the simultaneous presence of ryanodine and U73122. Low level PTH/PTHrp receptor messenger RNA expression was demonstrated by ribonuclease protection in HEK/W cells, although no specific binding of [125I]
PTHrP
(1-34) could be detected. Amplification products for the PTH/PTHrp receptor 1, but no other isoforms, were detected by RT-PCR in HEK/W cells. As expected, HEK/T cells responded to PTH by a 500-fold stimulation in cAMP production and expressed large numbers of PTH/PTHrp receptors, as shown by [125I]PTHrp binding. These results demonstrate that the signal transduction pathways activated by PTH in HEK/W and HEK/T cells are different. Because the major difference in these cell lines is the number of PTH/PTHrp receptors expressed, these results suggest that the transduction of signals by the PTH/PTHrp receptor is controlled by receptor number in such a way that PTH stimulates an increase in intracellular calcium in the absence of stimulation of InsPs and cAMP production in cells expressing low levels of PTH/PTHrp receptor, but stimulates calcium release through an InsPs pathway and induces cAMP production in cells expressing large numbers of PTH/PTHrp receptors. The control of receptor number may be one of the mechanisms through which PTH effects are regulated.
...
PMID:Parathyroid hormone-induced calcium release from intracellular stores in a human kidney cell line in the absence of stimulation of cyclic adenosine 3',5'-monophosphate production. 938 12
The present study was performed to characterize the possible involvement of cAMP synthesis and protein kinase C (PKC) activation in the DNA synthesis-stimulating effect of
parathyroid hormone-related protein
(
PTHrP
) in proximal tubule cells. We found that DNA synthesis was stimulated by 10 microM 8BrcAMP, and 1 microM Sp-cDBIMPS, two cAMP analogs, and also by 1 microM phorbol 12-myristate 13-acetate (PMA) and 100 microM 1,2-dioctanoyl-sn-glycerol, two PKC activators, and 10 nM [Cys23] human (h)
PTHrP
(24-35) amide in rabbit proximal tubule cells (PTC). Both Sp-cDBIMPS and PMA, at 1 microM, also increased DNA synthesis in SV40-immortalized mouse proximal tubule cells MCT. Human
PTHrP
(7-34) amide [
PTHrP
(7-34)] dose dependently stimulated DNA synthesis in a similar manner as [34Tyr]
PTHrP
(1-34) amide [
PTHrP
(1-34)], in PTC. PMA pre-treatment for 20 h, which downregulates PKC, completely blocked the effect induced by
PTHrP
(7-34), but not that of
PTHrP
(1-34), in the latter cells. In contrast, the same PMA pre-treatment abolished the DNA synthesis stimulation by
PTHrP
(1-34) and
PTHrP
(7-34) in MCT cells, which appear to have PTH receptors mainly coupled to
phospholipase C
and not adenylate cyclase. Our results indicate that the stimulatory effect of
PTHrP
on DNA synthesis in proximal tubule cells is mediated by a cAMP- and PKC-dependent mechanism.
...
PMID:Parathyroid hormone-related protein increases DNA synthesis in proximal tubule cells by cyclic AMP- and protein kinase C-dependent pathways. 965 Nov 15
Parathyroid hormone (PTH) and
PTH-related protein
interact with a G protein-coupled receptor linked to the activation of adenylyl cyclase and
phospholipase C
signaling pathways. Regulation by PTH of the expression of three distinct, stably transfected luciferase reporter genes responsive to cAMP (CRE-luc), serum (SRE-luc) and phorbol ester (TRE-luc) has been studied in rat osteoblast-like UMR-106 cells. Maximal 43-fold induction of CRE-luc expression occurred in response to 100 nM rat (r)PTH(1-34) (EC50=0.44 nM), but SRE-luc and TRE-luc remained unaffected. Maximal 2.8- and 3.4-fold inductions of SRE-luc by 10 ng/ml EGF and 100 nM phorbol ester (PMA) were suppressed with 100 nM rPTH(1-34) (IC50=0.04 and 0.15 nM, respectively). Similarly, 7.3-fold induction of TRE-luc by 100 nM PMA was inhibited to 50% with 100 nM rPTH(1-34) (IC50=0.5 nM). Activation of mitogen-activated protein kinase by EGF and PMA was also suppressed by rPTH(1-34). 1 mM 8-Br-cAMP and 0.1 mM forskolin mimicked all the effects of rPTH(1-34). In conclusion, the regulation of target genes by PTH in osteoblast-like UMR-106 cells is mediated by the activation of the cAMP/protein kinase A signaling pathway.
...
PMID:Parathyroid hormone responses of cyclic AMP-, serum- and phorbol ester-responsive reporter genes in osteoblast-like UMR-106 cells. 970 77
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