Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0406810 (NAME)
 13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Homocysteine found in the plasma of patients with coronary heart disease, induces vascular smooth muscle cell (VSMC) proliferation and increases deposition of extracellular matrix (ECM) components. Yet, the mechanism by which homocysteine mediates this effect and its role in vascular disease is largely unknown. We hypothesized that homocysteine induces ECM production via intracellular calcium release in VSMC. To test this hypothesis, aortic VSMC from Sprague-Dawley rats were isolated and characterized by positive labeling for vascular smooth muscle alpha-actin. Early passage cells (p2-3) were grown in monolayer on coverslips. Calcium transients were quantified with fura2/AM spectrofluorometry. Homocysteine induced intracellular calcium [Ca(2+)](i) transients with an EC(50) of 60 +/- 5 nM. The EC(50) for glutathione and cysteine were 10 and 100-fold lower, respectively. Depleting extracellular calcium did not alter the homocysteine effect on intracellular calcium; however, thapsigargin pretreatment, which depletes intracellular Ca(2+) stores, abolished the homocysteine effect, demonstrating its dependence on intracellular Ca(2+) stores. Extracellular sodium depletion significantly (P < 0.05) increased [Ca(2+)](i) also suggesting a possible role of sodium-calcium exchange in the process. To begin to elucidate the intracellular pathways by which homocysteine might act, VSMC were pretreated with specific inhibitors and stimulators prior to homocysteine stimulation. Staurosporine and phorbol myrisate acetate (PMA), potent simulators of protein kinase C, augmented the release of Ca(2+) by homocysteine. Interestingly, pretreatment with the nitric oxide synthase inhibitor N-nitro-L-arginine methyl ester (L-NAME) greatly exacerbated the sensitivity of VSMC to homocysteine. In contrast, pretreatment with either the phospholipase A(2) activator neomycin, the antioxidant and hepatic hydroxymethyl glutaryl coenzyme A (HMG CoA) reductase inhibitor, pravastatin, the tyrosine kinase inhibitor genestein, or the calcium channel blocker, felodipine completely inhibited the homocysteine-induced Ca(2+) signal in VSMC. This suggests the role of multiple signaling pathways in the homocysteine effect on VSMC Ca(2+). Effects of homocysteine on collagen production, as ascertained by immunoblot analysis, correlated with its effect in intracellular calcium. Regardless of the signaling pathways involved, homocysteine, by virtue of its role on VSMC proliferation and ECM deposition, has the potential to affect vascular reactivity. To determine the effect of homocysteine on the ability of VSMC to react to potent agonist such as angiotensin II, VSMC were pretreated with homocysteine and exposed to a range of angiotensin II concentrations which normally have no effect on intracellular Ca(2+). After homocysteine pretreatment, VSMC were extremely responsive to angiotensin II at concentrations well below the physiologic range. These data taken together suggested that an initial effect of homocysteine is to induce release of intracellular Ca(2+) in VSMC and may induce vascular reactivity. The transient in Ca(2+) correlates with the effect on ECM associated with homocysteine.
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PMID:Homocyst(e)ine induces calcium second messenger in vascular smooth muscle cells. 1069 63

The effect of short-term exposure to homocysteine (Hcy) on the contractile characteristics of rat aortic tissue was assessed both in vitro and in vivo. The contractile response of Hcy-treated aortic rings in culture for 1 or 4 days was unchanged from control responses. By comparison, aortic rings from animals injected with Hcy showed marked attenuation of response compared with controls injected with saline, cysteine or methionine. The contractile response to K+ was decreased within 24 hours of Hcy injection, whereas the response to both K+ (-27%) and noradrenaline (-56%) was significantly decreased by 4 days. In contrast, the contractile response to phorbol-12,13-dibutyrate was not different between Hcy and control groups. Intimal rubbing completely restored the responsiveness of Hcy-treated tissue to K+ and noradrenaline. By comparison, L-NAME only partially restored contractile responsiveness, while the cyclooxygenase inhibitor indomethacin had no effect on contractile attenuation induced by Hcy. Western blot analysis showed a 2-fold increase of endothelial nitric oxide synthase (eNOS) and a 3-fold increase in inducible nitric oxide synthase (iNOS) protein expression in the aortic endothelial cells from Hcy-injected rats. The results indicate an early detectable effect of Hcy on the in vivo contractile properties of vascular smooth muscle. The effect is endothelium-mediated and may vary depending on the agonist studied. The mechanism is uncertain but appears to involve increased nitric oxide (NO) production. Finally, the data suggest that attenuation of contraction may not be due to a direct effect of Hcy but that the compound is modified or acts indirectly in vivo.
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PMID:Short-term exposure to homocysteine depresses rat aortic contractility by an endothelium-dependent mechanism. 1091 40

Hyperhomocysteinemia is associated with endothelial dysfunction, although the underlying mechanism is unknown. Previous studies have shown that nitric oxide (NO) plays an important role in the regulation of systemic and renal hemodynamics. This study investigated whether hyperhomocysteinemia induces renal oxidative stress and promotes renal dysfunction involving disturbances of the NO-pathway in Wistar rats. During 8 wk, control (C) and hyperhomocysteinemic (HYC) groups had free access to tap water and homocysteine-thiolactone (HTL, 50 mg/kg per d), respectively. At 8 wk, plasma homocysteine concentration, renal superoxide anion (O(2)), nitrotyrosine, and nitrite+nitrate levels, and renal function were measured. To assess NO involvement, the responses to L-Arginine (L-Arg, 300 mg/kg) and N(G)-nitro-L-arginine-methyl-ester (L-NAME, 20 microg/kg per min for 60 min) were analyzed. The HYC group showed higher homocysteine concentration (7.6 +/- 1.7 versus 4.9 +/- 1.0 micromol/L; P < 0.001), (O(2) production (157.92 +/- 74.46 versus 91.17 +/- 29.03 cpm. 10(3)/mg protein), and nitrite+nitrate levels (33.4 +/- 5.1 versus 11.7 +/- 4.3 micro mol/mg protein; P < 0.001) than the control group. Western blot analyses showed a nitrotyrosine mass 46% higher in the HYC group than in the controls. Furthermore, the HYC group showed lower GFR, renal plasma flow (RPF), and higher renal vascular resistance (RVR) than the controls. After L-Arg administration, the responses of GFR, RPF, and RVR were attenuated by 36%, 40%, and 50%, respectively; after L-NAME, the responses of RPF and RVR were exaggerated by 79% and 112%, respectively. This suggests a reduced NO bioavailability to produce vasodilation and an enhanced sensitivity to NO inhibition. In conclusion, hyperhomocysteinemia induces oxidative stress, NO inactivation, and renal dysfunction involving disturbances on the NO-pathway.
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PMID:Hyperhomocysteinemia induces renal hemodynamic dysfunction: is nitric oxide involved? 1259 1

Bleeding tendency in uraemic patients seems to be related to alterations in the activity of the L-arginine-nitric oxide (NO) signalling pathway in platelets. We have reported previously that L-arginine influx into human platelets is mediated by the high-affinity cationic amino acid transport system y(+)L. In the present study we examined the dependency of nitric oxide synthase (NOS) activity on L-arginine transport in platelets isolated from healthy controls and uraemic patients on haemodialysis. We investigated basal and ADP-stimulated NOS activity, as reflected by the conversion of L-[(3)H]arginine to L-[(3)H]citrulline, in platelets obtained from healthy controls and uraemic patients on haemodialysis. To determine whether NOS activity depended on L-arginine transport, we analysed the effects of competitive inhibitors of L-arginine transport via system y(+)L on NOS activity. Basal NOS activity was increased from 0.21+/-0.06 to 0.7+/-0.2 pmol/10(8) platelets ( n=9, P<0.05) in uraemic patients. Stimulation by ADP (10 micro M) significantly increased NOS activity (inhibitable by L-NAME) in control platelets (252%) but failed to increase further the elevated NOS activity in uraemic platelets. Homocysteine and L-leucine, competitive inhibitors of system y(+)L, markedly inhibited NOS activity in uraemic platelets. These observations indicate that platelets from uraemic patients on haemodialysis generate more NO than control platelets and that entry of L-arginine via system y(+)L is most likely rate-limiting for platelet NO production in chronic renal failure.
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PMID:Increased nitric oxide synthesis in uraemic platelets is dependent on L-arginine transport via system y(+)L. 1263 24

The effect of homocysteine (HCY) on lipid peroxidation (LP), a current mechanism of oxidative neurotoxicity, was investigated in rat brain synaptosomes. LP was assessed by measuring the amount of thiobarbituric acid-reactive substances (TBARS) formed from synaptosomal fractions following HCY treatment. Increasing HCY concentrations (5-1000 micro M) enhanced the TBARS formation in brain synaptosomes in a concentration-dependent manner. When compared at equimolar concentrations (100 micro M), the oxidative potency of HCY was lower than that of the oxidant ferrous sulfate, similar to that produced by glutamate (Glu) and the mitochondrial toxin 3-nitropropionic acid, and higher than that of the Glu agonists, kainate and quinolinate. The N-methyl-D-aspartate receptor (NMDAr) antagonist dizocilpine (MK-801) completely blocked the HCY-induced LP at concentrations between 5 to 1000 micro M, whereas the well-known antioxidant N-acetylcysteine (NAC) was less effective, but still protective against the HCY oxidative toxicity at higher concentrations (400 and 1000 micro M). Three nitric oxide synthase (NOS) inhibitors, 7-nitroindazole (7-NI), Nomega-nitro-L-arginine (L-NARG) and Nomega-nitro-L-arginine methyl ester (L-NAME), were also tested on HCY-induced LP at increasing concentrations. Both nonspecific NOS inhibitors (L-NARG and L-NAME) decreased more effectively the HCY-induced LP than did the selective neuronal NOS inhibitor, 7-NI. These results show that submillimolar concentrations of HCY can induce oxidative injury to nerve terminals, and this effect involves NMDAr stimulation, NOS activation, and associated free radicals formation.
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PMID:Homocysteine-induced brain lipid peroxidation: effects of NMDA receptor blockade, antioxidant treatment, and nitric oxide synthase inhibition. 1283 15

The aim of this study was to investigate the acute direct effects of homocysteine (Hcy) on the vascular responsiveness of human internal mammary artery (IMA) and to define the possible underlying mechanisms. The contractile response to both phenylephrine (Phe) (-36%) and KCl (-18%) was significantly reduced in arteries that were incubated with Hcy (10 (-4)M, 30 minutes), compared with controls (P < 0.05). Removal of endothelium did not significantly alter the responses of human IMA to Phe. Hcy (10 (-6)M) also caused a relaxation response in human IMA rings precontracted with Phe (10 (-4) M) and this effect was not inhibited by N-nitro-L-arginine methyl ester (L-NAME, 10(-4) M), by l-NAME (10 (-4)M) + indomethacin (10 (-4)M), or by intimal rubbing. In addition, contractions induced by stepwise addition to calcium (Ca2+) to high KCl solution with no Ca(2+) were significantly inhibited by Hcy incubation as well as contractions induced by Phe in the absence of extracellular Ca (2+) (P < 0.05). On the other hand, Hcy (10 M, 30 minutes) did not significantly inhibit the relaxation responses to either acetylcholine (ACh) or sodium nitroprusside (SNP) (P > 0.05). These results demonstrated that short-term exposure to Hcy significantly decreased vascular responsiveness in human IMA without affecting endothelium-dependent and -independent vasorelaxation. This effect is not NO-, prostaglandin- or endothelium-dependent. The mechanism is uncertain but seems to depend on the interactions of Hcy with Ca(2+) influxes and/or other undefined direct effects in this tissue.
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PMID:Effects of short-term exposure to homocysteine on vascular responsiveness of human internal mammary artery. 1507 57

Hyperhomocysteinemia is a risk factor for cardiovascular diseases that induces endothelial dysfunction. Here, we examine the participation of endothelial NO synthase (eNOS) in the homocysteine-induced alterations of NO/O(2)(-) balance in endothelial cells from human umbilical cord vein. When cells were treated for 24 h, homocysteine dose-dependently inhibited thrombin-activated NO release without altering eNOS phosphorylation and independently of the endogenous NOS inhibitor, asymmetric dimethylarginine. The inhibitory effect of homocysteine on NO release was associated with increased production of reactive nitrogen and oxygen species (RNS/ROS) independent of extracellular superoxide anion (O(2)(-)) and was suppressed by the NOS inhibitor L-NAME. In unstimulated cells, L-NAME markedly decreased RNS/ROS formation and the ethidium red fluorescence induced by homocysteine. This eNOS-dependent O(2)(-) synthesis was associated with reduced intracellular levels of both total biopterins (-45%) and tetrahydrobiopterin (-80%) and increased release of 7,8-dihydrobiopterin and biopterin in the extracellular medium (+40%). In addition, homocysteine suppressed the activating effect of sepiapterin on NO release, but not that of ascorbate. The results show that the oxidative stress and inhibition of NO release induced by homocysteine depend on eNOS uncoupling due to reduction of intracellular tetrahydrobiopterin availability.
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PMID:Homocysteine induces oxidative stress by uncoupling of NO synthase activity through reduction of tetrahydrobiopterin. 1518 55

Homocysteine (Hcy), an intermediate in methionine metabolism, has been proposed to be involved in hepatic fibrogenesis. Impaired liver function can alter Hcy metabolism. The aim of the present study was to determine plasma Hcy alterations in acute obstructive cholestasis and the subsequent biliary cirrhosis. Cholestasis was induced by bile duct ligation and sham-operated and unoperated rats were used as controls. The animals were studied on the days 7th, 14th, 21st and 28th after the operation. Plasma Hcy, cysteine, methionine, nitric oxide (NO) and liver S-adenosyl-methionine (SAM), S-adenosyl-homocysteine (SAH), SAM to SAH ratio and glutathione were measured. Chronic L-NAME treatment was also included in the study. Plasma Hcy concentrations were transiently elevated by the day 14th after bile duct ligation (P < 0.01) and subsequently returned to control levels. Similar relative fluctuations in plasma Hcy were observed in BDL rats after intraperitoneal methionine overload. Plasma methionine, cysteine and nitrite and nitrate were significantly increased after bile duct ligation. SAM to SAH ratio was diminished by the 1st week of cholestasis and remained significantly decreased throughout the study. These events were accompanied by a decrease in GSH to GSSG ratio in the liver. Chronic L-NAME treatment improved SAM to SAH ratio and prevented the elevation of plasma Hcy and methionine (P < 0.05) while couldn't influence the other parameters. In conclusion, this study demonstrates alterations in plasma Hcy and liver SAM and SAH contents in precirrhotic stages and in secondary biliary cirrhosis, for the first time. In addition, we observed that plasma Hcy concentrations in BDL rats follow a distinct pattern of alteration from what has been previously reported in other models of cirrhosis. NO overproduction may contribute to plasma Hcy elevation and liver SAM depletion after cholestasis.
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PMID:Homocysteine alterations in experimental cholestasis and its subsequent cirrhosis. 1576 80

PC12 pheochromocytoma cells expressing a dominant inhibitory mutant of Ha-Ras (M-M17-26) and PC12 cells transfected with normal c-RasH (M-CR3B) have been used to investigate the role of nitrosylation and farnesylation of Ras on the production of homocysteine and the activities of the redox-sensitive transcription factors NF-kappaB and c-Fos. We found that under serum and nerve growth factor withdrawal conditions undifferentiated apoptotic M-CR3B cells accumulated more homocysteine than M-M17-26 cells, and the production of homocysteine decreased in the presence of manumycin and increased in the presence of l-NAME. Furthermore, we have shown that manumycin increased the activity of c-Fos in the M-CR3B cells and decreased the activity of NF-kappaB, while l-NAME decreased the activities of both transcription factors, and accelerated apoptosis of M-CR3B cells. In contrast, in M-M17-26 cells manumycin did not change the activity of c-Fos, nor the activity of NF-kappaB. We conclude that trophic factor withdrawal stimulates Ras, which apparently through the Rac/NADPH oxidase system induces permanent oxidative stress, modulates the activities of NF-kappaB and c-Fos, induces production of homocysteine and accelerates apoptosis. Nitrosylation of Ras is necessary for maintaining the survival of PC12 cells, while farnesylation of Ras stimulates apoptosis under withdrawal conditions.
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PMID:Production of homocysteine in serum-starved apoptotic PC12 cells depends on the activation and modification of Ras. 1616 75

The study has been designed to investigate the effect of Bis-(maltolato) oxovanadium (BMOV), an inhibitor of protein tyrosin phosphatase (PTPase), in diabetes mellitus and hyperhomocysteinemia induced vascular endothelial dysfunction. Streptozotocin (55 mg kg(-1), i.v.) and methionine (1.7% w/w, p.o., 4 weeks) were administered to rats to produce diabetes mellitus (serum glucose >140 mg dl(-1)) and hyperhomocysteinemia (serum homocysteine>10 microM), respectively. Vascular endothelial dysfunction was assessed using isolated aortic ring preparation, electron microscopy of thoracic aorta and serum concentration of nitrite/nitrate. Serum thiobarbituric acid reactive substances (TBARS) were estimated to assess oxidative stress. Atorvastatin has been employed in the present study as standard drug to improve vascular endothelial dysfunction. BMOV (0.2 mg/ml in drinking water) or atorvastatin (30 mg kg(-1), p.o.) in diabetic and hyperhomocysteinemic rats significantly reduced serum glucose and homocysteine concentration. BMOV or atorvastatin markedly improved acetylcholine induced endothelium dependent relaxation, vascular endothelial lining, serum nitrite/nitrate concentration and serum TBARS in diabetic and hyperhomocysteinemic rats. However, this ameliorative effect of BMOV has been prevented by l-NAME (25 mg kg(-1), i.p.), an inhibitor of NOS or by glibenclamide (5 mg kg(-1), i.p.), a blocker of ATP sensitive K(+) channels. Therefore, it may be concluded that BMOV induced inhibition of PTPase may activate eNOS due to opening of ATP sensitive K(+) channels and consequently reduce oxidative stress to improve vascular endothelial dysfunction.
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PMID:Inhibition of protein tyrosin phosphatase improves vascular endothelial dysfunction. 1644 49


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