Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) produces rapid osteoclast detachment and contraction in vitro, and this effect is accompanied by a profound inhibition of bone resorption. Work by others has confirmed these findings in vivo: inhibition of NO synthase [NOS; L-arginine, NADPH: oxygen oxidoreductase (NO-forming), EC 1.14.13.39] in normal rats is followed by increased bone resorption reflected by a marked loss in bone mineral density. In our present study, immunocytochemistry and Northern blotting show the presence of the constitutive calcium-sensitive NOS isoform (cNOS) in normal rat osteoclasts and in the human preosteoclast cell line (FLG 29.1). The inducible NOS isoform (iNOS) was also clearly demonstrable in the rat cells especially after treatment with gamma interferon (IFN-gamma) and bacterial wall products [lipopolysaccharide (LPS)], while a basal level of transcript was detected in the untreated human preosteoclast line. However NADPH-diaphorase activity was intense only in neonatal rat osteoclasts attached to bone, perhaps reflecting either enhancement of cNOS activity by calcium or increased amounts of the inducible isoform in activated osteoclasts in situ compared with isolated neonatal rat osteoclasts. These actively resorb devitalized bone but the untreated cells contain relatively low levels of NOS; they are extremely sensitive to inhibition by NO. The iNOS inhibitor aminoguanidine markedly enhances in vitro resorption by activated NOS-rich chick osteoclasts and by normal rat osteoclasts treated with LPS or IFN-gamma. In contrast, the nonselective NOS inhibitor NG-monomethyl-L-arginine inhibits resorption by untreated neonatal rat osteoclasts. Thus, osteoclast function may require intermittent calcium-stimulated increases in NO production by cNOS against a basal inhibitory background activity of the iNOS isoform. However, bone resorption depends on precursor replication and on the activity of the mature cells, and we found that the NO donor 3-morpholinosydnonimine (SIN-1) (50 microM) profoundly depressed replication in the human preosteoclast line. Taken together, these results strongly suggest that NO maintains a central control of bone resorption in both avian and mammalian species by exerting a powerful tonic restraint of osteoclast numbers and activity. The presence of NOS in human cells implies a similar function in man and that conventional views of calcium homoeostasis and skeletal metabolism will need substantial revision. Since NO also influences behavior of the osteoblast, the bone-forming cell, in vitro, a similar effect in vivo might imply a general influence on bone remodeling.
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PMID:Bidirectional regulation of osteoclast function by nitric oxide synthase isoforms. 753 33

Endothelial cells constitute an essential integrator of factors that effect blood vessel remodeling induced by chronic hypoxia. We hypothesized that vascular endothelial growth factor (VEGF) may participate in the lung response to acute and to chronic hypoxia. We found that ex vivo perfusion of isolated lungs under hypoxic conditions (when compared with normoxia) caused an increase in lung tissue mRNA of VEGF and of the VEGF receptors KDR/Flk and Flt. Chronic hypobaric hypoxia also increased lung tissue mRNA levels of VEGF, KDR/Flk, and Flt and the amount of VEGF protein. In situ hybridization studies demonstrated increased VEGF and KDR/flk hybridization signals in lungs from chronically hypoxic rats. Since endotoxin treatment of rats decreased lung VEGF mRNA, we postulated that nitric oxide (NO) or an NO-related metabolite might be involved in lung VEGF gene expression. Indeed, sodium nitroprusside, a NO donor, decreased and L-NAME (N-nitro-L-arginine methyl ester), an inhibitor of NO-synthesis, increased both VEGF and VEGF receptor transcripts. We conclude that VEGF in the isolated perfused lung acts as an early gene in response to hypoxia and that lung VEGF and VEGF receptor mRNA levels are influenced by hypoxia and NO-dependent mechanisms.
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PMID:Increased gene expression for VEGF and the VEGF receptors KDR/Flk and Flt in lungs exposed to acute or to chronic hypoxia. Modulation of gene expression by nitric oxide. 770 86

The anti-platelet effects of FK409 ((+/-)-(E)-ethyl-2-[(E)-hydroxyimino]-5-nitro-3-hexeneamide) , a new spontaneous nitric oxide releaser, and TRK-100 (sodium dl-4-[(1R,2R,3aS,8bS)-1,2,3a,8b-tetra-hydro-2-hydroxy-1-[(3S ,4RS)-3-hydroxy- 4-methyl-oct-6-yen-(E)-1-enyl]-5-cyclopenta[b]benzofuranyl]butyrate), a stable prostacyclin analogue, were studied both in vivo and in vitro. FK409 and TRK-100 inhibited ADP-induced platelet aggregation in rat platelet-rich plasma at 1.0 and 0.032 microM, respectively. In a rat extracorporeal shunt model, FK409 suppressed thrombus formation dose dependently and significantly at 1.0 mg/kg and showed the maximum inhibition (52% inhibition) at 10 mg/kg. TRK-100 showed 79% inhibition of thrombus formation at 1.0 mg/kg, but not at less than 1.0 mg/kg. At the doses required for antiplatelet effects, TRK-100 decreased mean blood pressure significantly but FK409 did not alter the blood pressure. These data suggest that FK409 shows more selective activities on platelets than TRK-100 in these experiments.
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PMID:Comparison of antiplatelet effects of FK409, a spontaneous nitric oxide releaser, with those of TRK-100, a prostacyclin analogue. 771 47

The indirect stimulation of macrophages to produce nitrite was examined by using the macrophage cell line J774.J774 spontaneously produced nitrite, when cultured at high concentration. J774 cultured in low concentration (< 10(4) cells in 100 microliters) barely produced nitrite. J774 cultured in low concentration produced a large amount of nitrite by the co-culture of nonadherent spleen cells or nonadherent peritoneal exudate cells, which were stimulated with con A, anti-CD3, or staphylococcal enterotoxin A. J774 (BALB/c derived: H-2d) cultured with either syngeneic (BALB/c) or allogeneic (B6; H-2b B10BR; H-2k) nonadherent lymphocytes, which were stimulated with conA or anti-CD3, produced nitric oxide. However, J774 produced nitric oxide by stimulation with SEA only when co-cultured with SEA-reactive T lymphocytes. Peritoneal exudate cells from mice, which did not proliferate by the stimulation of conA or anti-CD3, proliferated well by the addition of L-arginine homologue, NG-monomethyl-L-arginine. The proliferation of nonadherent peritoneal exudate cells stimulated with conA or anti-CD3 was suppressed by the addition of peritoneal macrophages. This suppression was abolished by the addition of NG-monomethyl-L-arginine.
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PMID:Nitric oxide production from a macrophage cell line: interaction with autologous and allogeneic lymphocytes. 826 36

Altered vascular responsiveness is the hallmark of septic shock. Recently, these changes have frequently been attributed to increased production of nitric oxide (NO). Continued exposure to high levels of NO may alter both endothelial and vascular smooth muscle cell function. Although ex vivo studies demonstrate hyporeactivity of large conduit arteries during established sepsis, it is unclear if the same phenomena exist during early sepsis. This is especially true in the small resistance arterioles of the viscera. We used in vivo microscopy of the rat small intestine to assess (1) endothelial-dependent relaxation and vasomotion (periodic contraction and relaxation of blood vessels) in response to acetylcholine (ACH; 10(-8) to 10(-5) M), (2) endothelial-independent relaxation to nitroprusside (NTP; 10(-5) M), and (3) vascular smooth muscle response to norepinephrine (NE; 10(-10) to 10(-7) M) in normal and bacteremic rats (Escherichia coli). There were no alterations in endothelial-dependent or -independent relaxation during bacteremia as measured by mean diameters. However, acute E. coli bacteremia severely impaired vasomotion in A1 (inflow) and A3 (premucosal) arterioles. Vasomotion was returned to baseline levels in A1 with low-dose ACH (10(-8) M) but only partially improved in A3 arterioles (P < 0.05). A1 response to NE was impaired, while A3 were minimally altered despite being more sensitive to E. coli-induced vasoconstriction. These data suggest that bacteremia causes a rapid, differential impairment of both endothelial-dependent (A3 vasomotion) and vascular smooth muscle cell (A1 constriction) functions. These microvascular impairments occur much earlier than previously described and may contribute to sepsis-induced mucosal ischemia of the intestines.
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PMID:Differential intestinal microvascular dysfunction occurs during bacteremia. 907 Jan 84

The catalytic activity of src-family protein tyrosine kinases (src-PTK) is suppressed when a C-terminal tyrosine is phosphorylated by an intracellular PTK, C-terminal Src kinase (Csk). In the present report, to study the regulatory functions of the Csk in cells of monocyte/macrophage lineage, we transfected a eukaryotic expression vector containing rat csk cDNA in a macrophage cell line, J774A.1, and examined alterations of the response to lipopolysaccharide (LPS) in the transfectants which overexpressed Csk. Csk overexpression resulted primarily in a down-regulation of Fgr activity, an src-PTK expressed in J774A.1, and hyperphosphorylation of several cellular proteins of 35, 57, 66, 97 and 120-130 kDa. Furthermore, in these Csk transfectants, production of interleukin (IL)-1alpha, IL-6, tumor necrosis factor-alpha, and nitric oxide (NO) following LPS stimulation were reduced compared with those in parental J774A.1 or J774A.1 transfected with the vector alone. The extent of reduction paralleled the amounts of Csk proteins expressed in the Csk-transfected J774A.1. The reduced NO production in these cells was associated with low levels of mRNA of inducible NO synthetase. On the other hand, an enhancement of prostaglandin E2 production was observed in the Csk-transfected J774A.1 cells upon stimulation with LPS, which appeared to result from the high level of prostaglandin-H synthetase in the transfectants. The present findings indicate that overexpression of Csk has differential effects on the regulation of production of chemical mediators and monokines, probably via modulation of signal transduction downstream of LPS-mediated signals.
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PMID:Csk overexpression reduces several monokines and nitric oxide productions but enhances prostaglandin E2 production in response to lipopolysaccharide in the macrophage cell line J774A.1. 907 17

Vascular endothelial growth factor (VEGF) receptor KDR (kinase-insert-domain-containing receptor) is linked to endothelial cell proliferation, and VEGF receptor Flt-1 (fms-like tyrosine kinase) is essential for the organization of embryonic vasculature. Flt-1 is also known to be expressed on adult endothelial and trophoblast cells, although its function has not yet been established. Herein we report that human trophoblast and endothelial cells contain functional Flt-1 receptors for VEGF that trigger the synthesis and release of nitric oxide (NO) by the activation of constitutive NO synthase (cNOS). In first-trimester human trophoblast cells isolated by chorionic villous sampling, VEGF165 stimulated NO release in a concentration- and time-dependent manner, with a maximal increase of 60% (in comparison to basal release levels) occurring within 30 minutes (basal: 1342 pmol/ml; VEGF (10 ng/ml): 2162 pmol/ml; p < 0.001), as measured by an NO chemiluminescence analyzer. VEGF20, a peptide fragment that is composed of the first 20 amino acids at N-terminus, displayed properties of a partial agonist. VEGF165- and VEGF20-mediated NO biosynthesis was attenuated by NG-nitro-L-arginine in a concentration-dependent fashion, indicating NOS activation. VEGF-neutralizing anti-VEGF monoclonal antibody significantly inhibited VEGF-mediated NO release (p < 0.001), and the addition of a neutralizing anti-Flt-1 antibody inhibited the response by 79.6% +/- 7.59%, an effect found to be reversible with higher concentrations of VEGF. In contrast, anti-KDR antibody had no significant inhibitory effect. RT-PCR confirmed the presence of mRNA encoding the Flt-1 and KDR receptors as well as the endothelial form of cNOS in trophoblast cells. VEGF165-stimulated NO release was inhibited by genistein (5 microM; p < 0.001) as well as by the removal of calcium from the extracellular environment (p < 0.001), which suggests the contingency of this process on tyrosine phosphorylation and extracellular calcium, respectively. Addition of sodium nitroprusside, an NO donor, inhibited trophoblast DNA synthesis in a concentration-dependent manner, as measured by [3H]thymidine incorporation, without affecting cell viability. VEGF under maximal NO production had no mitogenic activity, suggesting that trophoblast-derived NO may limit trophoblast proliferation. Endogenous trophoblast DNA synthesis increased 3-fold in the presence of anti-Flt-1 antibody but not in the presence of anti-KDR antibody, suggesting that Flt-1 functions as a growth suppressive receptor to counteract the proliferative actions of KDR. Levels of immunoreactive endothelial cNOS were markedly increased in growth-restricted placentae (n = 4) in comparison to those of normal (n = 5) placentae, which may account for the relatively small-sized placentae associated with intrauterine growth restriction. VEGF165 stimulated NO release via phosphorylation of the Flt-1 receptor, indicating that VEGF may be an autocrine regulator of NO biosynthesis by aiding trophoblast penetration into spinal arterioles during the first trimester and preventing platelet aggregation within the placenta. Finally, the activation of Flt-1 receptor suppressed trophoblast DNA synthesis within the placenta via NO.
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PMID:Role of VEGF receptor-1 (Flt-1) in mediating calcium-dependent nitric oxide release and limiting DNA synthesis in human trophoblast cells. 919 54

To evaluate the biocompatibility of a newly developed degradable class of polyesterurethanes and their possible use as biomaterials, we investigated the cell and tissue interactions with these polymers using a small number of chemical base entities. The polymers were prepared by chain extension with diisocyanates of PHB/HV-diol and either PCL-diol or Diorez, another aliphatic polyester-diol. Regardless of the chemical composition of the four tested polyesterurethanes used as substrates, no morphological difference was observed either in the macrophages (macrophage cell line J774) or in the fibroblasts (fibroblast cell line 3T3) cultured on the polymers. In contrast, however, cell adhesion and growth of macrophages and fibroblasts were affected by the polymer properties. Compared to macrophages cultured on tissue culture polystyrene (TCPS), cells cultured on the test polymers exhibited levels of cell adhesion that varied from 65-100% of TCPS, and the doubling time was 25-43% higher on the polymers than on TCPS. Likewise, fibroblasts adhered to the polymers at lower rates (50-85% of TCPS) and grew at higher doubling times (125-140% of TCPS). Furthermore, cells cultured on the test polymers preserved their phenotypes: fibroblasts produced high amounts (up to 280% of control cells) of collagens Type I and Type IV and fibronectin; and macrophages produced nitric oxide (NO) and tumor necrosis factor alpha (TNF-alpha) in the same concentrations as control cells and responded to lipopolysaccharide treatment by the elevation of the production of NO and TNF-alpha, indicating that the cell-to-polymer interactions allow fibroblasts and macrophages to maintain their phenotypes. In vivo investigations showed that all four test polymers exhibit favorable tissue compatibility. The formed capsule was 60-250 microns thick. In addition, the polymers are degradable. After one year's subcutaneous implantation in rats, the molecular weight of the test polymers were reduced to about 50%, depending on the composition. Taken collectively, the present data demonstrate that the newly developed polyesterurethanes are cell and tissue compatible and biodegradable.
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PMID:Development of degradable polyesterurethanes for medical applications: in vitro and in vivo evaluations. 921 90

Several recent observations suggest that the vascular medium is a mosaic of functionally and morphologically unique cell types. This diversity includes differences in cell phenotype and expression of cytoskeletal and contractile proteins as well as heterogeneity of the number and activity of potassium (K+) channel types. K+ channels play a role in the regulation of arterial tone and in the control of cell proliferation. There is evidence for cell to cell, segment to segment, and vascular bed to bed diversity of K+ channels that could explain the varying responses of arterial segments or different arteries to stimuli such as hypoxia, vasoactive drugs, or arterial wall injury. Pulmonary artery vascular smooth muscle cells contain several types of K+ channels, including calcium sensitive (KCa), delayed rectifier (KDR), and ATP gated (KATP). Hypoxic pulmonary vasoconstriction (HPV) is more prominent in the resistance than in the conduit arteries. HPV is initiated by the inhibition of a KDR channel, resulting in membrane depolarization, increase in the intracellular calcium, and contraction. We have shown that some pulmonary artery smooth muscle cells are enriched in KDR channels whereas others have more KCa channels. These cells can be differentiated by their morphology (using light microscopy and electron microscopy) and their electrical properties (using patch-clamp techniques). Although present throughout the pulmonary artery, KDR-enriched cells are more prominent in the distal-resistance segments whereas KCa-enriched cells are more prominent in the proximal-conduit segments. Nitric oxide (NO) causes relaxation in part by activating a KCa channel, causing membrane hyperpolarization and inactivation of the voltage-gated calcium channels. NO is a slightly more potent vasodilator in the conduit than in the resistance pulmonary artery. In summary, the pulmonary artery may be thought of as a mosaic of cells that have different proportions of key proteins, such as K+ channel subtypes, which confer upon the cell an ability to respond to a stimulus (hypoxia or NO) differently than an adjacent cell exposed to the same stimulus. The prevalence of these cells differs from conduit to resistance arteries. Diversity of cell function may be important in physiology and pathophysiology, allowing responses to vasodilators, vasoconstrictors, and proliferative stimuli to vary within or between vascular beds.
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PMID:Potassium channel diversity in vascular smooth muscle cells. 931 58

Nitronyl nitroxides react with nitric oxide radical (.NO) to form imino nitroxides. We used a nitronyl nitroxide, [2-(4-carboxyphenyl)-4,4,5,5-tetramethylimidazoline-1-oxyl 3 oxide] (CPTIO) to evaluate the contribution of .NO to basal tone and acetylcholine-induced endothelium-dependent relaxation in control vs. diabetic rat aortic rings. In rings precontracted with phenylephrine, CPTIO produced an additional increment in tension that was greater in control vs. diabetic rings. Tension after CPTIO was similar to that observed in rings pretreated with the NO synthase inhibitor, L-nitroarginine or in rings without endothelium. This increment was insensitive to indomethacin, cysteine, tetraethylammonium or catalase, but was sensitive to inhibition by the soluble guanylate cyclase inhibitor, 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxaline-1-one. L-Nitroarginine blocked relaxation to ACH by 100 and 90% in control and diabetic rings, respectively. In contrast, CPTIO produced a concentration-dependent inhibition of ACH-induced relaxation that was greater in control rings. The residual CPTIO-resistant component of relaxation was equivalent to 26 and 43% of initial precontraction in control vs. diabetic rings, respectively, and was not altered by indomethacin, catalase, cysteine or tetraethylammonium but was significantly inhibited by 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxaline-1-one. These data suggest the release of additional unknown factor(s) that cannot be discerned using NO synthase inhibitors only. This CPTIO-resistant dilator is likely not a cyclooxygenase product or a hyperpolarizing factor but a factor that acts, in part, by activation of guanylate cyclase. This substance is possibly .NO that is not available for reaction with CPTIO either by its diffusibility and sequestration or molecular rearrangement to a redox active form (i.e., not free .NO) or is a completely different vasodilator. The use of a more lipid soluble nitronyl nitroxide derivative suggests a portion of the CPTIO-resistant relaxation in diabetic (but not control) rings could be explained by .NO sequestered in the lipid phase.
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PMID:Use of a nitronyl nitroxide to discriminate the contribution of nitric oxide radical in endothelium-dependent relaxation of control and diabetic blood vessels. 933 18


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