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: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Arachidonic acid (AA) is reported to be metabolized by three major pathways, i.e., cyclooxygenase (CO), lipoxygenase (LO), and NADPH-dependent cytochrome P450 monooxygenase (MO) pathways. Monooxygenase metabolites of AA have been proposed to play an important role in hormone action in various cells. Recently it was reported that the MO pathway may exist in rat liver. The present study was carried out to investigate the role of MO metabolites in vasopressin-induced glycogenolysis in isolated rat hepatocytes. The pretreatment of isolated rat hepatocytes with eicosatetraynoic acid (ETYA), an inhibitor of CO, LO, and MO pathways, and ketoconazole and SKF 525A, inhibitors of the MO pathway, dose-dependently reduced vasopressin-induced phosphorylase activation, while the pretreatment with indomethacin, an inhibitor of the CO pathway, had no effect. The increment of cytosolic calcium concentration in vasopressin-stimulated hepatocytes was also dose-dependently decreased by ETYA, ketoconazole, and SKF 525A. In vitro addition of epoxyeicosatrienoic acid (EET) dose-dependently increased both phosphorylase a activity and cytosolic calcium concentration. 14,15-EET was the most potent among four regioisomeric EETs. These results suggest that MO metabolites of AA, most likely EETs, may be involved in vasopressin-induced glycogenolysis probably via the activation of phosphorylase by increasing the cytosolic calcium concentration.
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PMID:Possible involvement of arachidonic acid metabolites of cytochrome P450 monooxygenase pathway in vasopressin-stimulated glycogenolysis in isolated rat hepatocytes. 236 26

AA is metabolized by a cytochrome P450, NADPH-dependent epoxygenase to four regioisomeric epoxyeicosatrienoic acids (EETs). The EETs are further hydrated enzymatically to their respective diols, vic-dihydroxyeicosatrienoic acids (DHETs). We studied the effect of pretreatment with DHETs on 10 microU/cm2 arginine vasopressin (AVP)-stimulated hydraulic conductivity (Lp) (Lp x 10(-7) cm/atm/s, mean +/- SE) in rabbit cortical collecting ducts (CCDs) perfused in vitro at 37 degrees C. At 10(-6) M all four DHETs were potent inhibitors of the hydroosmotic effect of AVP. 14,15-DHET was the most potent isomer; it reduced AVP-induced Lp from a control value of 234.75 +/- 11.7, n = 17, to a value of 95.2 +/- 8.39, n = 5, P less than 0.0001, a reduction of AVP-mediated water flow of 60%. The inhibitory effect of 14,15-DHET was dose dependent and significant to nanomolar concentrations. 14,15-DHET at 10(-7) M was as potent an inhibitor of AVP's activity as was 10(-7) M PGE2. AVP's hydroosmotic effect is mediated through its intracellular second messenger, cAMP. 8-p-Chlorophenylthio-cAMP (CcAMP) at 10(-4) M induced a peak Lp of 189.6 +/- 11.0, n = 8; pretreatment with 10(-6) M 14,15-DHET reduced CcAMP-peak Lp to 132.0 +/- 13.4, n = 5, P less than 0.01, demonstrating a post-cAMP effect. Gas chromatography/mass spectroscopy suggests that EETs are present in extracts purified from CCDs. We conclude that cytochrome P450 epoxygenase eicosanoids are potent inhibitors of the hydroosmotic effect of vasopressin and are endogenous constituents of normal CCDs, the major target tissue for AVP.
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PMID:Cytochrome P450 metabolites of arachidonic acid are potent inhibitors of vasopressin action on rabbit cortical collecting duct. 255 46

In addition to cyclooxygenase and lipoxygenase pathways, the kidney can also metabolize arachidonic acid by a NADPH-dependent cytochrome P-450 enzyme to epoxyeicosatrienoic acids (EETs); furthermore, 5,6-EET has been shown to alter electrolyte transport across isolated renal tubules. We examined the effects of three EETs (5,6-, 11, 12-, and 14,15-EET) on osmotic water flow across toad urinary bladder. All three EETs reversibly inhibited vasopressin-stimulated osmotic water flow with 5,6- and 11,12-EET being the most potent. The effects appeared to be independent of prostaglandins. EETs inhibited the water flow response to forskolin but not (with the exception of 11,12-EET) the response to adenosine 3',5'-cyclic monophosphate (cAMP) or 8-BrcAMP, consistent with an effect on cAMP generation. For 11,12-EET the question of an additional inhibition at a site beyond or independent of cAMP has to be considered. To determine whether these effects were due to the EETs or to products of their metabolism, we examined the effects of their vicinal diol hydrolysis products, the dihydroxyeicosatrienoic acids. Nonenzymatic conversion of labeled 5,6-EET to its vicinal diol occurred rapidly in the buffer, whereas 11,12-EET was hydrolyzed in a saturable manner only when incubated in the presence of bladder tissue. The dihydroxyeicosatrienoic acids formed inhibited water flow in a manner paralleling that of the EETs. Both 5,6-EET and 11,12-EET (10(-5) M) prevented the increase in intracellular cAMP content observed in control tissues after vasopressin stimulation. Finally, 11,12- and 14,15-dihydroxyeicosatrienoic acid inhibited vasopressin- and forskolin-stimulated adenylate cyclase in the same rank order as their inhibition of water flow.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Epoxygenase metabolites of arachidonic acid inhibit vasopressin response in toad bladder. 282 Feb 43

Biochemical, cytochemical and immunological methods were used to compare the metabolic and neuroendocrine properties of the subfornical organ (SFO) with the hypothalamo-neurohypophysial system (HNS) in the rat. The SFO resembles the HNS in that both have (a) increased label incorporation into RNA during dehydration; (b) an intense reaction for glucose-6-phosphate dehydrogenase; (c) NADPH-diaphorase and the Type I pathway for hydrogen utilization from NADPH, presumably as part of the mixed-function oxidase system for the metabolism of endogenous substrates and xenobiotics; (d) immunoreactive vasopressin and oxytocin. Gel filtration of extracts of the SFO area using Sephadex G-25 chromatography resulted in immunoreactive peaks for both AVP and OT which were similar to synthetic hormones. One other fraction in the SFO extract, containing a substance(s) of higher molecular weight than AVP, was detected using the antiserum for AVP. The concentration of immunoreactive AVP in the SFO area was increased after colchicine, decreased by hypophysectomy, and unaltered by: (a) infusion (4.6 pg/min for 3 hr) or injection (1 or 6 ng) of AVP into the lateral cerebroventricle; (b) dehydration; (c) renin administered intracerebroventricularly; (d) pinealectomy; or (e) hypertension in the spontaneously hypertensive rat. In conclusion, cells in the SFO have specialized metabolic and neuroendocrine properties similar to the HNS. It can be inferred from these biochemical specializations that the SFO has metabolic and secretory activities.
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PMID:The subfornical organ: biochemical and neuroendocrine comparisons with the hypothalamo-neurohypophysial system. 402 8

The relative anatomical distributions of vasopressin and the nitric oxide synthase, nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) were examined in the hypothalamo-neurohypophysial system using immunocytochemical and histochemical techniques. Double-labeled neurons were localized predominately to rostral aspects of the hypothalamo-neurohypophysial system. Only scattered double-labeled cells were found throughout the subdivisions of the supraoptic and paraventricular nuclei. Because previous investigations suggest that nitric oxide may play a critical role in neurotransmission and reductions in NADPH-d have been reported in the neural lobe of salt-loaded animals, the present report of its coexistence with the antidiuretic hormone vasopressin in the hypothalamo-neurohypophysial system further supports a role for these neuroactive substances in mechanisms modulating fluid homeostasis.
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PMID:Relationship of vasopressin with NADPH-diaphorase in the hypothalamo-neurohypophysial system. 837 98

Using the immunohistochemical localization of the protein product of the immediate early gene, c-fos, to localize activated neurons in the paraventricular nucleus of the hypothalamus (PVN), we studied the chemical phenotypes of neurons activated by circulating angiotensin II (AII). We determined the proportions of activated PVN neurons that expressed AII type I receptor-like immunoreactivity (AT1-L) or the neurohormones vasopressin (VP) and oxytocin (OXY). In addition, we identified activated PVN neurons that putatively produce nitric oxide (NO) on the basis of histochemical staining for nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d). Conscious rats received intravenous AII infusions at a rate sufficient to elevate mean arterial pressure by 40-60 mmHg for 90 min; control rats received infusions of vehicle. Brains were prepared for double immunohistochemistry [Fos-like immunoreactivity (FLI)/AT1-L, FLI/VP or FLI/OXY] or FLI/ NADPH-d histochemistry. Systemic AII infusions led to activation of 149+/-14 PVN neurons per section. In contrast, control animals showed activation of 21+/-6 PVN neurons per section. AII infusions elicited the activation of the following numbers of chemically identified PVN neurons per section: AT1-L, 24+/-5; VP, 26+/-5; OXY, 11+/-2; NADPH-d, 22+/-4. Control animals had few activated PVN neurons per section. For each of the chemically identified populations of PVN neurons, the following proportions were activated: AT1-L, 12.5%; VP, 15.2%; OXY, 7.2%; NADPH-d, 17.3%. The results suggest that PVN neurons producing the AT1 receptor, VP, OXY, and NO, participate in the mediation of the central responses to circulating AII.
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PMID:Activation by systemic angiotensin II of neurochemically identified neurons in rat hypothalamic paraventricular nucleus. 968 48

Nitric oxide (NO) is known to be involved in the modulation of neuroendocrine function. To clarify the role of different isoforms of NO synthase (NOS) in the neuroendocrine response to immune challenge, the expressions of neuronal NOS (nNOS) and inducible NOS (iNOS) genes in the hypothalamus following lipopolysaccharide (LPS) injection were examined using in situ hybridization. NOS activity was also determined by NADPH-diaphorase (NADPH-d) histochemistry. LPS (25 mg/kg) or sterile saline was injected intraperitoneally to male Wistar rats and the rats sacrificed 30 min, or 1, 2, 3, 5, 12 or 24 h after injection. nNOS mRNA expression in the paraventricular nucleus (PVN) was significantly increased 2 h after LPS injection. iNOS mRNA, which was not detected until 2 h after LPS injection, was significantly increased in the PVN 3 h after LPS injection. Both RNA expressions had returned to basal levels by 12 h after LPS injection. The number of NADPH-d positive cells was significantly increased 5 h after LPS injection. iNOS expression was more robust in parvocellular PVN, while nNOS was distributed mainly in the magnocellular PVN. Double in situ hybridization histochemistry revealed that some of the iNOS- (48.4%) or nNOS-positive cells (34. 3%) in the parvocellular PVN expressed CRF mRNA. The results demonstrate that LPS-induced sepsis causes significant increases in nNOS and iNOS gene expression with different time-courses and distributions, and that iNOS mRNA was more frequently co-localized with CRF-producing parvocellular neurons in the PVN. Thus, NO produced by iNOS and nNOS may play an important role in the neuroendocrine response to an immune challenge. Distinct differences in the distribution and time-course changes of iNOS and nNOS suggest different roles for the hypothalamic-pituitary-adrenal axis and/or neurohypophyseal system.
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PMID:Distinct distribution and time-course changes in neuronal nitric oxide synthase and inducible NOS in the paraventricular nucleus following lipopolysaccharide injection. 1006 18

The investigation was performed on the medial (MMS) and lateral (LMS) magnocellular subdivisions of the hypothalamic paraventricular nuclei (HPN). The histochemical activity NO synthesizing enzyme nitric oxide synthase or NOS whose histochemical marker is NADPH-diaphorase (NADPH-D), immunocytochemical content of oxytocin (OXY), vasopressin (VP) and nucleoli sizes (squares) were studied in the mature male rats under experimental reconstruction of the both micro- and macrogravity, which are factors of the gravity field changes acting to the body during the space flight. Two experimental effects were used: B--tail suspending (imitation of the microgravity effects), C--centrifugation at 2 G (imitation of the macrogravity effects). The effect durations were designed as a time period when body is mostly affected by (1 day) and adapted (15 days) to the stress. There were 6 animal groups. 1--B(15 days), 2--B(15 days) succeeded by C(1 day), 3--B(15 days) succeeded by C(15 days), 4--C(1 day), 5--C(15 days), 6--intact animals. The histochemically and immuno-cytochemically stained neurons developing the high, moderate and small reaction intensity were counted in serial HPN sections under the light microscope and the results obtained were transformed to percent neuron contents. The nucleoli squares were examined by using the TV analyser. The histochemical staining intensity of NADPH-D in MMS is enhanced in the animals of the groups 1-4; the number of NADPH-D staining neurons with high enzyme activity was increased in 8-14 times. In the animals of group 5 the NADPH-D activity did not differ from the intact animals. The number of MMS neurons with high OXY immunoreactivities was increased up to 1.5-1.7 times in groups 1-5 if compared to those of intact controls. VP-positive neurons of LMS developed the similar increase in number of the high staining neurons in experimental animals as well as OXY-positive neurons of MMS. The nucleoli enlargement was observed in MMS (in 1.3-1.5 times) of groups 1-5 (insignificantly in group 5) and in the most magnocellular neurons LMS (in 1.5-1.7 times) of group 2-5 except group 1 where nucleoli were insignificantly decreased. The nucleoli sizes of group 4 were more than group 5. So the hypothalamo-neurohypophyseal system was activated in the animals subjected of the earthly correlates of micro- and macrogravity. The data obtained suggest involvement both the nonconventional neurotransmitter NO and stress-related peptides OXY and VP in the mechanisms subserving adaptation to the extreme factors by what a human has to be faced with during the space flight.
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PMID:[The participation of the nontraditional neuromediator nitric oxide in the mechanisms of adaptation to extreme conditions]. 1042 Apr 74

As first observed in rat adrenal glomerulosa cells, cytoplasmic Ca(2+) signal, induced by K(+), angiotensin II or vasopressin, evokes an increase in the level of reduced mitochondrial pyridine nucleotides, NADH and NADPH. Prostaglandin F(2)alpha and extracellular ATP exert similar effects in rat ovarian luteal cells. This coupling of cytoplasmic Ca(2+) concentration and mitochondrial metabolism occurs also when the stimuli are applied at physiological concentration and under conditions when no formation of high-Ca(2+) perimitochondrial microdomains may be presumed. We present evidence that low submicromolar Ca(2+) signals in the cytoplasm can increase mitochondrial Ca(2+) concentration and activate mitochondrial dehydrogenation processes. Several observations support the assumption that intramitochondrial Ca(2+) signals play a significant role in the stimulation of steroid hormone production.
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PMID:The effect of cytoplasmic Ca2+ signal on the redox state of mitochondrial pyridine nucleotides. 1502 83

Endothelin-1 (ET-1) inhibition of vasopressin (AVP)-stimulated cAMP accumulation in the collecting duct has been hypothesized to be mediated, at least in part, by nitric oxide (NO). To examine this, the effect of ET-1 on NO production by acutely isolated rat inner medullary collecting duct (IMCD) cell suspensions and the role of NO in mediating ET-1 effects on AVP-stimulated cAMP accumulation were studied. ET-1 dose dependently (first evident at 100 pM ET-1) increased IMCD NO production as determined by DAF-FM fluorescence. ET(B) receptor (BQ-788), but not ET(A) receptor (BQ-123), antagonism blocked this effect. Nonspecific NO synthase (NOS) inhibitors [N(G)-nitro-L-arginine methyl ester (L-NAME) or N(G)-monomethyl-L-arginine] or NOS-1 inhibitors (SMTC or VNIO) inhibited the ET-1 response, whereas NOS-2 or NOS-3 inhibitors (L-NAA or 1400W) were ineffective. ET-1 also increased cGMP accumulation. ET-1 caused a 35% reduction in AVP-stimulated cAMP levels; however, this response was not affected by L-NAME or SMTC. The addition of L-arginine, NADPH, tetrahydrobiopterin, or tempol (to reduce superoxide-dependent conversion of NO to peroxynitrate) did not affect the response. NO donors (SNAP or spermine NONOate), at concentrations that stimulated DAF-FM fluorescence and increased cGMP levels, did not alter AVP-stimulated cAMP accumulation in the IMCD cell suspensions. In conclusion, ET-1 stimulates IMCD NO production through activation of the ET(B) receptor and NOS-1. However, neither ET-1-mediated NO production nor NO donors inhibit AVP-stimulated cAMP accumulation, indicating that NO does not mediate ET-1 inhibition of cAMP production by the IMCD.
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PMID:Endothelin-1 stimulates NO production and inhibits cAMP accumulation in rat inner medullary collecting duct through independent pathways. 1638 Apr 57


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