UNIPROT:Q6PIZ9 - FACTA Search

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Query: UNIPROT:Q6PIZ9 (TRIM)
476 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inhibition of nitric oxide synthase (NOS) activity in vivo impedes hypertrophy in the overloaded rat plantaris. We investigated the mechanism for this effect by examining early events leading to muscle growth following 5 or 12 days of functional overload. Male Sprague-Dawley rats (approximately 350 g) were randomly divided into three treatment groups: control, N(G)-nitro-L-arginine methyl ester (L-NAME; 90 mg.kg(-1).day(-1)), and 1-(2-trifluoromethyl-phenyl)-imidazole (TRIM; 10 mg.kg(-1).day(-1)). Unilateral removal of synergists induced chronic overload (OL) of the right plantaris. Sham surgery performed on the left hindlimb served as a normally loaded control. L-NAME and TRIM treatments prevented OL-induced skeletal alpha-actin and type I (slow) myosin heavy chain mRNA expression at 5 days. Conversely, neither L-NAME nor TRIM affected hepatocyte growth factor or VEGF mRNA responses to OL at 5 days. However, OL induction of IGF-I and mechanogrowth factor mRNA was greater (P < 0.05) in the TRIM group compared with the controls. Furthermore, the phosphorylated-to-total p70 S6 kinase ratio was higher in OL muscle from NOS-inhibited groups, compared with control OL. At 12 days of OL, the cumulative proliferation of plantaris satellite cells was assessed by subcutaneous implantation of time release 5'-bromo-2'-deoxyuridine pellets during the OL-inducing surgeries. Although OL caused a fivefold increase in the number of mitotically active (5'-bromo-2'-deoxyuridine positive) sublaminar nuclei, this was unaffected by concurrent NOS inhibition. Therefore, NOS activity may provide negative feedback control of IGF-I/p70 S6 kinase signaling during muscle growth. Moreover, NOS activity may be involved in transcriptional regulation of skeletal alpha-actin and type I (slow) myosin heavy chain during functional overload.
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PMID:In vivo inhibition of nitric oxide synthase impairs upregulation of contractile protein mRNA in overloaded plantaris muscle. 1616 35

Because the regulation of vascular function involves complex mutual interactions between nitric oxide (NO) synthase (NOS) and cyclooxygenase (COX) products, we examined the contribution of NO and prostanoids derived from the COX pathway in modulating aortic baroreceptor resetting during an acute (30 min) increase in arterial pressure in anesthetized rats. Increase in pressure was induced either by administration of the nonselective NOS inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME) or aortic coarctation (COA) with or without treatment with the COX inhibitor indomethacin (INDO) or the selective neuronal NOS inhibitor 1-(2-trifluoromethylphenyl)imidazole (TRIM). The activity of the aortic depressor nerve and arterial pressure were simultaneously recorded, and the degree of resetting was determined by the shift of the pressure-nerve activity curve using the ratio [delta systolic pressure at 50% of maximum baroreceptor activity/delta systolic pressure] x 100. The magnitude of pressure rise was similar in the different groups (59 +/- 6, 53 +/- 5, 53 +/- 5, 45 +/- 5, 49 +/- 3, and 41 +/- 3 mmHg for COA, L-NAME, INDO+COA, INDO+L-NAME, TRIM+COA, and TRIM+INDO+COA, respectively, P = 0.27). The degree of resetting that occurred with L-NAME or COA combined with treatment with TRIM was attenuated compared with COA alone (7 +/- 4, 5 +/- 2, and 31 +/- 6%, respectively, P = 0.04). INDO failed to influence baroreceptor resetting to higher pressure but prevented L-NAME- and TRIM-induced effects (20 +/- 7, 21 +/- 8, and 32 +/- 6% for INDO+COA, INDO+L-NAME, and INDO+TRIM+COA, respectively; P = 0.38). Baroreceptor gain was affected only by l-NAME. These findings indicate that NO, probably from neuronal origin, may exert stimulatory influence on the degree of rapid baroreceptor resetting to hypertension that involves COX-derived prostanoids.
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PMID:Role of nitric oxide and prostanoids in attenuation of rapid baroreceptor resetting. 1622 47

The effects of the putatively selective inhibitor of neuronal nitric oxide synthase (nNOS) 1-(2-trifluoromethylphenyl) imidazole (TRIM) were investigated on contractility, intracellular calcium and nitrergic relaxations in the rat anococcygeus muscle. TRIM (100-1000 microM) reduced the tension of rat anococcygeus muscles when contracted with guanethidine (10 microM) and clonidine (0.1 microM). Relaxations to TRIM persisted in the presence of the non-selective NOS inhibitor L-NAME (100 microM) and the inhibitor of soluble guanylate cyclase ODQ (1 microM). TRIM also reduced tension when muscles were contracted with phenylephrine (3 microM), noradrenaline (3 microM) or high K physiological salt solution (high KPSS; 60mM). Influx of calcium ([Ca(2+)](i)) in response to high KPSS was significantly reduced in the presence of TRIM (1mM). TRIM also inhibited the influx of (45)Ca(2+) induced by KPSS, but had no effect on the influx induced by phenylephrine (10 microM). TRIM (300 microM) had a modest, but significant, inhibitory effect on nitrergic relaxations that were evoked by electrical field stimulation (1-10 Hz, 15 V, 10s trains) in muscles contracted with guanethidine and clonidine. In contrast, L-NAME (1-100 microM) inhibited these nitrergic responses with an IC(50) of 9.31+/-0.87 microM (n=4). The results suggest that the smooth muscle relaxant effect of TRIM in the rat anococcygeus muscle may affect the entry of Ca(2+) possibly through voltage-operated calcium channels. Furthermore, the relatively modest effect of TRIM on nitrergic responses indicates that it is not a particularly reliable inhibitor of nNOS.
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PMID:Effects of TRIM on tension, intracellular calcium and nitrergic transmission in the rat anococcygeus muscle. 1676 30

Nitric oxide (NO) modulates the activity of an inwardly rectifying K(+) channel in cultured human proximal tubule cells. In this study, we investigated which NO synthase (NOS) isoform(s) was involved in the endogenous production of NO and hence the regulation of channel activity. The patch-clamp experiments using the cell-attached mode showed that a nonselective NOS inhibitor, N(omega)-nitro-L-arginine methyl ester (L-NAME; 100 microM), suppressed channel activity, whereas a NOS substrate, L-arginine (500 microM), stimulated it. A neuronal NOS (nNOS)/inducible NOS (iNOS)-selective inhibitor, 1-(alpha,alpha,alpha-trifluoro-o-tolyl)-imidazole (TRIM; 100 microM), suppressed channel activity to the same extent as L-NAME. TRIM also blocked the stimulatory effect of L-arginine. In contrast, an NO donor, sodium nitroprusside (10 microM) or 8-bromoguanosine 3',5'-cyclic monophosphate (100 microM) stimulated channel activity even in the presence of TRIM. RT-PCR revealed that iNOS mRNA alone was expressed in most of the cultures, i.e., 34 out of 40. In the other 6 cases, endothelial NOS (eNOS) and iNOS mRNA were simultaneously expressed. This finding was confirmed at the protein level by Western blotting. Indeed, in the patch-clamp experiments TRIM sometimes failed to suppress the channel activity, but the following addition of L-NAME suppressed it. However, since the suppressive effect of TRIM was usually similar to that of L-NAME, the involvement of eNOS in K(+) channel regulation would be relatively low. These results suggest that iNOS plays a pivotal role in the endogenous production of NO under the basal condition, which is involved in the activity of the inwardly rectifying K(+) channel in cultured human proximal tubule cells.
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PMID:Involvement of endogenous nitric oxide in the regulation of K+ channel activity in cultured human proximal tubule cells. 1706 69

The purpose of the present study was to identify the roles of the three nitric oxide synthase (NOS) isoforms on whole body ischemia-reperfusion injury during cardiopulmonary resuscitation (CPR) with periodic acceleration (pGz) in pigs. Thirty-two anesthetized pigs (27.6+/-3.4 kg) were monitored for hemodynamics and selected echocardiographic variables. Twenty minutes after NOS inhibition or placebo administration, ventricular fibrillation (VF) was induced and remained untreated for 3 min, followed by CPR with pGz for 15 min, plus 3 min of manual chest compressions and defibrillation attempt. Four groups were studied: (1) saline control; (2) L-NAME (non-selective NOS inhibitor); (3) aminoguanidine (inducible NOS inhibitor); (4) TRIM (neuronal NOS inhibitor). Return of spontaneous circulation (ROSC) to 180 min occurred in 6/8 controls, 4/8 L-NAME, 7/8 aminoguanidine, and 2/8 TRIM animals. The L-NAME group had significantly lower organ blood flow, impaired cardiac function, but higher vascular tone than control group. The aminoguanidine group had the highest organ blood flows and survival rate. Six out of eight TRIM treated animals had initial return of heartbeat; however, with impaired heart contractility and could not survive more than 20 min of ROSC. This study reveals the differential role of endogenous NO produced from the three NOS isoforms during pGz-CPR. Both endothelial and neuronal NOS derived NO show predominantly protective effects while inducible NOS derived NO plays a detrimental role in pGz-CPR. The present study has shown that cardiac arrest and resuscitation appears to be associated with a different expression of NOS isoforms which appear to affect resuscitation outcomes differently.
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PMID:Different roles of nitric oxide synthase isoforms in cardiopulmonary resuscitation in pigs. 1731 54

Neurones in the lumbosacral spinal cord are known to play a significant role in ejaculation. In these same areas neurones containing nitric oxide synthase (NOS) have been described. This raised the question as to whether there is a physiological role for nitrous oxide (NO) in the spinal cord in sexual behavior. We first established immunohistochemical localization of NOS positive neurones in the lumbosacral spinal cord. NOS positive neurones were found in several areas of the lumbosacral cord. Namely the intermediolateral column (IML) at L(1)-L(4) and sacral cord; the dorsal gray commissure above the central canal at L(1)-L(2); the ventral gray area of lamina X below the central canal at L(3)-L(4); the superficial laminae of the dorsal horn at all levels. Secondly, we examined the role of NO in the generation of synchronized bursting activity within the vas deferens nerve and associated penile muscles, typical of sexual responses in the male anesthetized rat. NO modulators were applied directly to the spinal cord at T(13)-L(4) via a catheter placed subdurally (intrathecal) and their effect on the genital responses evoked by systemic administration of p-chloroamphetamine (PCA) or apomorphine (apo) (both 1 mg/kg) was observed. All responses evoked by PCA (n=4) or apo (n=3) were abolished or reduced (n=1) during intrathecal NOS inhibition using N((G)) nitro-L-Arginine methyl ester (l-NAME, 200 mM, 20-microl). NOS inhibition using l-NAME was reversed with simultaneous intrathecal application of the NO substrate l-arginine (100 mM, 20-microl, n=3). The selective neuronal NOS inhibitor 1-(2-trifluoro-methylphenyl) imidazole (100 mM, 20-microl, TRIM) also abolished all responses evoked by PCA (n=3). There was evidence that the responses within the vas deferens nerve (VDN) after PCA or apo were enhanced following NO donation using sodium nitroprusside (SNP, 1 mM, 20-microl). Furthermore, a PCA-like response within the VDN was evoked following intrathecally applied l-glutamic acid (200 mM, 20-microl) in six of 26 animals and also by intrathecal SNP in two of eight animals. In conclusion the results suggest a significant excitatory role for NO in the bursting pattern of synchronized discharge generated in autonomic and somatic outflows from the lumbosacral cord by neurones governing ejaculation.
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PMID:A physiological role for nitric oxide in the centrally mediated sympathetic and somatomotor ejaculatory response in anesthetized male Wistar rats. 1794 40

Microinjection of acetylcholine chloride (ACh) in the nucleus of the solitary tract (NTS) of awake rats caused a transient and dose-dependent hypotension and bradycardia. Because it is known that cardiovascular reflexes are affected by nitric oxide (NO) produced in the NTS, we investigated whether these ACh-induced responses depend on NO in the NTS. Responses to ACh (500 pmol in 100 nl) were strongly reduced by ipsilateral microinjection of the NOS inhibitor NG-nitro-L-arginine methyl ester (L-NAME; 10 nmol in 100 nl) in the NTS: mean arterial pressure (MAP) fell by 50 +/- 5 mmHg before L-NAME to 9 +/- 4 mmHg, 10 min after L-NAME, and HR fell by 100 +/- 26 bpm before L-NAME to 20 +/- 10 bpm, 10 min after L-NAME (both P < 0.05). Microinjection of the selective inhibitor of neuronal nitric oxide synthase (nNOS), 1-(2-trifluoromethylphenyl) imidazole (TRIM; 13.3 nmol in 100 nl), in the NTS also reduced responses to ACh: MAP fell from 42 +/- 3 mmHg before TRIM to 27 +/- 6 mmHg, 10 min after TRIM (P < 0.05). TRIM also tended to reduce ACh-induced bradycardia, but this effect was not statistically significant. ACh-induced hypotension and bradycardia returned to control levels 30-45 min after NOS inhibition. Control injections with D-NAME and saline did not affect resting values or the response to ACh. In conclusion, injection of ACh into the NTS of conscious rats induces hypotension and bradycardia, and these effects may be mediated at least partly by NO produced in NTS neurons.
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PMID:Nitric oxide modulates the cardiovascular effects elicited by acetylcholine in the NTS of awake rats. 1881 11

Endothelium-dependent vasorelaxation in large vessels is mainly attributed to Nomega-nitro-L-arginine methyl ester (L-NAME)-sensitive endothelial nitric oxide (NO) synthase (eNOS)-derived NO production. Endothelium-derived hyperpolarizing factor (EDHF) is the component of endothelium-dependent relaxations that resists full blockade of NO synthases (NOS) and cyclooxygenases. H2O2 has been proposed as an EDHF in resistance vessels. In this work we propose that in mice aorta neuronal (n)NOS-derived H2O2 accounts for a large proportion of endothelium-dependent ACh-induced relaxation. In mice aorta rings, ACh-induced relaxation was inhibited by L-NAME and Nomega-nitro-L-arginine (L-NNA), two nonselective inhibitors of NOS, and attenuated by selective inhibition of nNOS with L-ArgNO2-L-Dbu-NH2 2TFA (L-ArgNO2-L-Dbu) and 1-(2-trifluoromethylphehyl)imidazole (TRIM). The relaxation induced by ACh was associated with enhanced H2O2 production in endothelial cells that was prevented by the addition of L-NAME, L-NNA, L-ArgNO2-L-Dbu, TRIM, and removal of the endothelium. The addition of catalase, an enzyme that degrades H2O2, reduced ACh-dependent relaxation and abolished ACh-induced H2O2 production. RT-PCR experiments showed the presence of mRNA for eNOS and nNOS but not inducible NOS in mice aorta. The constitutive expression of nNOS was confirmed by Western blot analysis in endothelium-containing vessels but not in endothelium-denuded vessels. Immunohistochemistry data confirmed the localization of nNOS in the vascular endothelium. Antisense knockdown of nNOS decreased both ACh-dependent relaxation and ACh-induced H2O2 production. Antisense knockdown of eNOS decreased ACh-induced relaxation but not H2O2 production. Residual relaxation in eNOS knockdown mouse aorta was further inhibited by the selective inhibition of nNOS with L-ArgNO2-L-Dbu. In conclusion, these results show that nNOS is constitutively expressed in the endothelium of mouse aorta and that nNOS-derived H2O2 is a major endothelium-dependent relaxing factor. Hence, in the mouse aorta, the effects of nonselective NOS inhibitors cannot be solely ascribed to NO release and action without considering the coparticipation of H2O2 in mediating vasodilatation.
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PMID:Neuronal nitric oxide synthase-derived hydrogen peroxide is a major endothelium-dependent relaxing factor. 1895 16

Neurogenic inflammation of the dura mater encephali has been suggested to contribute to the mechanisms of meningeal nociception and blood flow regulation. Recent findings demonstrated that the rat dura mater is innervated by trigeminal capsaicin-sensitive peptidergic nociceptive afferent nerves which mediate meningeal vascular responses through activation of the transient receptor potential vanilloid type 1 (TRPV1) receptor. The present work explored the functional significance of the capsaicin-sensitive subpopulation of dural afferent nerves via their contribution to the meningeal vascular responses evoked through activation of the proteinase-activated receptor 2 (PAR-2). The vascular responses of the dura mater were studied by laser Doppler flowmetry in a rat open cranial window preparation. Topical applications of trypsin, a PAR-2-activator, or Ser-Leu-Ile-Gly-Arg-Leu-amide (SLIGRL-NH(2)), a selective PAR-2 agonist peptide, resulted in dose-dependent increases in meningeal blood flow. The SLIGRL-NH(2)-induced vasodilatation was significantly reduced following capsaicin-sensitive afferent nerve defunctionalization by prior systemic capsaicin treatment and by pretreatment of the dura mater with the calcitonin gene-related peptide (CGRP) receptor antagonist CGRP(8-37). Nomega-nitro-L-arginine methyl ester hydrochloride (L-NAME) an unspecific inhibitor of nitric oxide (NO) production, but not 1-(2-trifluoromethylphenyl) imidazole (TRIM), a neuronal NO synthase inhibitor, also inhibited the vasodilator response to SLIGRL-NH(2). The vasodilator responses elicited by very low concentrations of capsaicin (10 nM) were significantly enhanced by prior application of SLIGRL-NH(2). The present findings demonstrate that activation of the PAR-2 localized on capsaicin-sensitive trigeminal nociceptive afferent nerves induces vasodilatation in the dural vascular bed by mechanisms involving NO and CGRP release. The results indicate that the PAR-2-mediated activation and sensitization of meningeal capsaicin-sensitive C-fiber nociceptors may be significantly implicated in the pathophysiology of headaches.
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PMID:Involvement of capsaicin-sensitive afferent nerves in the proteinase-activated receptor 2-mediated vasodilatation in the rat dura mater. 1936 18

The sporulation stage of the aquatic fungus Blastocladiella emersonii culminates with the formation and release to the medium of a number of zoospores, which are motile cells responsible for the dispersal of the fungus. The presence in the sporulation solution of 1H-[1,2,4]Oxadiazolo[4,3-a]quinoxalin-1-one (ODQ), a potent and selective inhibitor of nitric oxide-sensitive guanylyl cyclases, completely prevented biogenesis of the zoospores. In addition, this compound was able to significantly reduce cGMP levels, which increase drastically during late sporulation, suggesting the existence of a nitric oxide-dependent mechanism for cGMP synthesis. Furthermore, increased levels of nitric oxide-derived products were detected during sporulation by fluorescence assays using DAF-2 DA, whose signal was drastically reduced in the presence of the nitric oxide synthase inhibitor Nomega-Nitro-L-arginine methyl ester (L-NAME). These results were confirmed by quantitative chemiluminescent determination of the intracellular levels of nitric oxide-derived products. A putative nitric oxide synthase (NOS) activity was detected throughout sporulation, and this enzyme activity decreased significantly when L-NAME and 1-[2-(Trifluoromethyl)phenyl]imidazole (TRIM) were added to the assays. NOS assays carried out in the presence of EGTA showed decreased enzyme activity, suggesting the involvement of calcium ions in enzyme activation. Additionally, expressed sequence tags (ESTs) encoding putative guanylyl cyclases and a cGMP-phosphodiesterase were found in B. emersonii EST database (http://blasto.iq.usp.br), and the mRNA levels of the corresponding genes were observed to increase during sporulation. Altogether, data presented here revealed the presence and expression of guanylyl cyclase and cGMP phosphodiesterase genes in B. emersonii and provided evidence of a Ca(2+)-(*)NO-cGMP signaling pathway playing a role in zoospore biogenesis.
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PMID:Evidence of a Ca(2+)-(*)NO-cGMP signaling pathway controlling zoospore biogenesis in the aquatic fungus Blastocladiella emersonii. 1939 57

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