Impaired responsiveness of renal mechanosensory nerves in heart failure: role of endogenous angiotensin

Increasing renal pelvic pressure results in PGE(2)-mediated release of substance P. Substance P increases afferent renal nerve activity (ARNA), which leads to a reflex increase in urinary sodium excretion (U(Na)V). Endogenous ANG II modulates the responsiveness of renal mechanosensory nerves. The ARNA and U(Na)V responses are suppressed by low- and enhanced by high-sodium diet. We examined whether the ARNA responses are altered in rats with congestive heart failure (CHF), a condition characterized by increased ANG II and sodium retention. The ARNA responses to increasing renal pelvic pressure 相似文献   

Dibasic phosphorylation sites in the R domain of CFTR have stimulatory and inhibitory effects on channel activation

To better understand the mechanisms by which PKA-dependent phosphorylation regulates CFTR channel activity, we have assayed open probabilities (P_o), mean open time, and mean closed time for a series of CFTR constructs with mutations at PKA phosphorylation sites in the regulatory (R) domain. Forskolin-stimulated channel activity was recorded in cell-attached and inside-out excised patches from transiently transfected Chinese hamster ovary cells. Wild-type CFTR and constructs with a single Ser-to-Ala mutation as well as octa (Ser-to-Ala mutations at 8 sites) and constructs with one or two Ala-to-Ser mutations were studied. In cell-attached patches, Ser-to-Ala mutations at amino acids 700, 795, and 813 decreased P_o, whereas Ser-to-Ala mutations at 737 and 768 increased P_o. In general, differences in P_o were due to differences in mean closed time. For selected constructs with either high or low values of P_o, channel activity was measured in excised patches. With 1 mM ATP, P_o was similar to that observed in cell-attached patches, but with 10 mM ATP, all constructs tested showed elevated P_o values. ATP-dependent increases in P_o were due to reductions in mean closed time. These results indicate that R-domain phosphorylation affects ATP binding and not the subsequent steps of hydrolysis and channel opening. A model was developed whereby R-domain phosphorylation, in a site-dependent manner, alters equilibrium between forms of CFTR with low and high affinities for ATP. site-directed mutagenesis; kinase-dependent activation; cell-attached patch clamp; open probability; mean open time     

Novel 8 alpha-ergolines with inhibitory and stimulatory effects on prolactin secretion in rats

Four derivatives of the ergot dopamine (DA) agonist lisuride (LIS), namely 6-n-propyl-lisuride (6-n-propyl-LIS), transdihydrolisuride (TDHL), 6-n-propyl-transdi-hydrolisuride (6-n-propyl-TDHL) and 2-bromolisuride (2-Br-LIS) were investigated in female rats with regard to their influence on hyperprolactinaemia induced by pretreatment with reserpine (2 mg/kg i.p., 24 h) at various intervals following their subcutaneous or oral administration (0.05 mg/kg). Two hours after administration, LIS, 6-n-propyl-LIS, and 6-n-propyl-TDHL caused a statistically significant inhibition of reserpine-induced hyperprolactinaemia of about the same extent. Eight hours after administration 6-n-propyl-LIS and 6-n-propyl-TDHL were as active as after 2 h in inhibiting prolactin (PRL) secretion whereas LIS was almost ineffective in this respect. TDHL caused a statistically significant inhibition of PRL secretion at 2 and 8 h after oral administration; this effect was less pronounced after s.c. administration. In contrast to the aforementioned derivatives 2-Br-LIS further increased the reserpine-induced hyperprolactinaemia. In normal male rats pretreatment with 2-Br-LIS (0.025-6.25 mg/kg s.c., 2 h) dose-dependently stimulated PRL secretion. The present data support the assumption of the longlasting DA agonistic action of 6-n-propyl-LIS and 6-n-propyl-TDHL and of the antidopaminergic properties of 2-Br-LIS recently derived from behavioural studies.     

Cytochalisin D exerts stimulatory and inhibitory effects on insulin-induced glucokinase mRNA expression in hepatocytes

Developing rat brain undergoes a series of functional and anatomic changes which affect its rate of cerebral glucose utilization (CGU). These changes include increases in the levels of the glucose transporter proteins, GLUT1 and GLUT3, in the blood-brain barrier as well as in the neurons and glia. 55 kDa GLUT1 is concentrated in endothelial cells of the blood-brain barrier, whereas GLUT3 is the predominant neuronal transporter. 45 kDa GLUT1 is in non-vascular brain, probably glia. Studies of glucose utilization with the 2-¹⁴C-deoxyglucose method of Sokoloffet al., (1977), rely on glucose transport rate constants, k₁ and k₂, which have been determined in the adult rat brain. The determination of these constants directly in immature brain, in association with the measurement of GLUT1, GLUT3 and cerebral glucose utilization suggests that the observed increases in the rate constants for the transport of glucose into (k₁) and out of (k₂) brain correspond to the increases in 55 kDa GLUT1 in the blood-brain barrier. The maturational increases in cerebral glucose utilization, however, more closely relate to the pattern of expression of non-vascular GLUT1 (45 kDa), and more specifically GLUT3, suggesting that the cellular expression of the glucose transporter proteins is rate limiting for cerebral glucose utilization during early postnatal development in the rat.     

Early activation of cardiac and renal endothelin systems in experimental heart failure

We investigated the time course of the expression of cardiac and renal endothelin systems in tachycardia-induced heart failure in dogs. Eleven beagles underwent rapid pacing at a progressively increased rate over a period of 5 wk, with a weekly clinical examination, echocardiography, measurement of circulating and urinary endothelin-1 (ET-1), and myocardial and renal tissue biopsies. Real-time quantitative PCR was used for determinations of tissue prepro-ET-1 (ppET-1), ET-1-converting enzyme (ECE-1), and ETA and ETB receptor mRNA. Cardiac and renal tissue ET-1 contents were evaluated by immunostaining and measured by radioimmunoassay at autopsy. Rapid pacing caused a progressive increase in end-systolic and end-diastolic ventricular volumes (P < 0.05) from week 2 together with a decrease in ejection fraction and in mean velocity of circumferential shortening (P < 0.05) from week 1. These changes were tightly correlated to myocardial ppET-1 and renal ETA receptor mRNA and less so to myocardial ECE-1 mRNA, and they occurred before any increase in plasma and urinary ET-1 (P < 0.05 from week 4) and clinical signs of heart failure. Renal ppET-1 did not change. Both cardiac and renal ET-1 peptide contents were increased at autopsy. We conclude that tachycardia-induced heart failure in dogs is characterized by an early activation of the cardiac and renal tissue endothelin systems, which occurs before any changes in circulating and urinary ET-1 and is closely related to altered ventricular function.     

Differential effects of oestrogen on developing and mature uterine sympathetic nerves

Oestrogen is a key factor in the remodelling of uterine sympathetic nerves during puberty and the oestrous cycle; these nerves are influenced by changes in their target uterine tissue. The magnitude of oestrogen-induced responses might however be influenced by the maturation stage of sympathetic nerve fibres, the age of the neurons and/or the developmental state of the uterus. We have therefore compared the sympathetic innervation of the uterus following chronic oestrogen treatment of infantile/prepubertal and young adult intact and ovariectomised rats. Treatment of infantile/prepubertal rats resulted in the complete loss of intrauterine noradrenaline (NA)-labelled sympathetic nerves and a marked reduction in the total NA content in the uterine horn. Chronic treatment of young adult rats had little effect. To examine whether the age of the neurons or the degree of development of the uterus determined responsiveness of nerves to oestrogen, we assessed the effects of oestrogen on the sympathetic reinnervation of intraocular transplants of young adult uterine myometrium into ovariectomised adult host rats. Early treatment (10 days post-transplantation) resulted in less sympathetic innervation than late treatment (30 days post-transplantation). Measurements of nerve growth factor (NGF) levels in the uterine horn of control rats before and after puberty and following infantile/prepubertal chronic oestrogen treatment and acute oestrogen treatment of young adult rats revealed a coordinated increase between the growth of the uterus and NGF protein levels. Thus, developing and recently regrown sympathetic nerves are more susceptible to oestrogen-induced changes in the uterus than mature nerves, differential susceptibility is not related to the age of the neurons or the developmental state of the uterus and changes in NGF protein do not account for the differential susceptibility of developing and mature uterine sympathetic nerve fibres to oestrogen. Growing sympathetic fibres are more vulnerable to oestrogen than mature fibres and nerve fibres that have been in contact for longer periods with their target become less susceptible to oestrogen.     

Guanine nucleotides mediate stimulatory and inhibitory effects on cerebral-cortical membrane phospholipase C activity.

alpha 2-Adrenergic receptors on NG 108 15 cell membranes were identified by [3H]rauwolscine binding: Bmax. = 661 +/- 81 fmol/mg of protein, Kd = 6.9 +/- 2.5 nM (mean +/- S.E.M., n = 6). On intact cells, stimulation of these receptors by (-)-adrenaline inhibited the prostaglandin-E1-stimulated adenylate cyclase activity by about 60%. The effect of (-)-adrenaline was pertussis-toxin-sensitive, indicating the involvement of an inhibitory G protein. (-)-Adrenaline/[3H]rauwolscine competition-binding experiments revealed that only 50% of the alpha 2 receptors were coupled to G proteins (i.e. displayed high agonist affinity). Pre-treatment of the cells with 20 microM-(-)-adrenaline provoked homologous desensitization of the alpha 2 receptors. The alpha 2-adrenergic response decreased after a time lag of about 2 h, to reach a minimum after 12 h. The bradykinin and muscarinic responses were not affected. The alpha 2-receptor concentration decreased without time lag. The high-agonist-affinity sites disappeared more rapidly (t1/2 = 42 min) than did the low-affinity uncoupled sites (t1/2 approx. 20 h). In contrast, pertussis-toxin-mediated [32P]ADP-ribosylation of inhibitory G proteins was unaffected by the pre-treatment. Pretreatment of intact NG 108 15 cells with 1 microM-phorbol 12-myristate 13-acetate (PMA) provoked a rapid decrease of the alpha 2-adrenergic response. The effect was nearly complete after 40 min. PMA also decreased the bradykinin response, suggesting a heterologous desensitization process. The alpha 2-receptor concentration, the (-)-adrenaline competition-binding curves and the pertussis- and cholera-toxin-mediated [32P]ADP-ribosylation of their respective G proteins were not affected.     

Genetic dissection of the effects of stimulatory and inhibitory IgG Fc receptors on murine lupus

Immune complex (IC)-mediated tissue inflammation is controlled by stimulatory and inhibitory IgG Fc receptors (FcgammaRs). Systemic lupus erythematosus is a prototype of IC-mediated autoimmune disease; thus, imbalance of these two types of FcgammaRs is probably involved in pathogenesis. However, how and to what extent each FcgammaR contributes to the disease remains unclear. In lupus-prone BXSB mice, while stimulatory FcgammaRs are intact, inhibitory FcgammaRIIB expression is impaired because of promoter region polymorphism. To dissect roles of stimulatory and inhibitory FcgammaRs, we established two gene-manipulated BXSB strains: one deficient in stimulatory FcgammaRs (BXSB.gamma(-/-)) and the other carrying wild-type Fcgr2b (BXSB.IIB(B6/B6)). The disease features were markedly suppressed in both mutant strains. Despite intact renal function, however, BXSB.gamma(-/-) had IC deposition in glomeruli associated with high-serum IgG anti-DNA Ab levels, in contrast to BXSB.IIB(B6/B6), which showed intact renal pathology and anti-DNA levels. Lymphocytes in BXSB.gamma(-/-) were activated, as in wild-type BXSB, but not in BXSB.IIB(B6/B6). Our results strongly suggest that both types of FcgammaRs in BXSB mice are differently involved in the process of disease progression, in which, while stimulatory FcgammaRs play roles in effecter phase of IC-mediated tissue inflammation, the BXSB-type impaired FcgammaRIIB promotes spontaneous activation of self-reactive lymphocytes and associated production of large amounts of autoantibodies and ICs.     

Differential effects of natural and environmental estrogens on endothelin synthesis in bovine oviduct cells

Endothelin-1 (ET-1), a vasoconstrictor and mitogenic peptide that plays an important role within the endocrine/reproductive system, is synthesized by oviduct cells and regulates tubal contractility. Because 17beta-estradiol (estradiol) regulates oviduct function by influencing the synthesis of autocrine/paracrine factors, estradiol may also regulate ET-1 synthesis. Furthermore, environmental estrogens (EEs; phytoestrogens and xenoestrogens), which structurally resemble estradiol and possess estrogenic activity, may mimic the effects of estradiol on ET-1 synthesis and may influence the reproductive system. Using cultures of bovine oviduct cells (epithelial cells:fibroblasts, 1:1), we investigated and compared the modulatory effects of estradiol, phytoestrogens, and xenoestrogens on ET-1 synthesis and determined whether these effects were estrogen receptor (ER) mediated. A quantitative ELISA for ET-1 in the culture medium revealed that 17beta-estradiol inhibits ET-1 synthesis in a concentration-dependent manner (4-400 nmol/L). In contrast to estradiol, ET-1 synthesis was induced in cell cultures treated with xenoestrogens in the following order of potency (0.1 micromol/L): 4-hydroxy-trichlorobiphenyl > 4-hydroxy-dichlorobiphenyl > trichlorobiphenyl. The stimulatory effects of xenoestrogens on ET-1 production were mimicked by the phytoestrogens biochanin-A and genistein but not by formononetin, equol, and daidzein. The oviduct cells expressed both ERs (alpha and beta), but the modulatory effects of estradiol, but not EEs, on ET-1 synthesis were blocked by ICI-182 780 (1 microM), a pure ER antagonist. Our results provide evidence that estradiol inhibits ET-1 synthesis in oviduct cells via an ER-dependent mechanism, whereas, EEs induce ET-1 synthesis via an ER-independent mechanism. The contrasting effects of EEs on ET-1 synthesis suggests that EEs may act as endocrine modulators/disruptors and may have deleterious effects on the reproductive system by adversely influencing the biology and physiology of the oviduct.     

Muscarinic receptor subtypes mediate stimulatory and paradoxical inhibitory effects on an insulin-secreting beta cell line

Acetylcholine (ACh), a major neurotransmitter from the autonomic nervous system, regulates the cholinergic stimulation of insulin secretion, through interactions with muscarinic receptors. The present study has characterised the individual involvement of muscarinic receptor subtypes in ACh-induced insulin secretion, using clonal beta cells and selective muscarinic receptor antagonists. BRIN BD11 cells clearly expressed mRNA encoding m1--m4 whereas m5 was not detected by RT-PCR. Insulin release was measured from BRIN BD11 cells treated with ACh in the presence of muscarinic receptor antagonists at concentrations ranging from 3 nM to 1 microM. 300 nM of muscarinic toxin-3 (M4 antagonist) and 1 microM of methoctramine (M2 antagonist) increased ACh (100 microM) stimulated insulin secretion by 168% and 50% respectively (ANOVA, P<0.05). The antagonists alone had no effect on insulin secretion. In contrast, 300 nM of pirenzepine (M1 antagonist) and 30 nM of hexahydro-sila-difenidol p-fluorohydrochloride (M3 antagonist) inhibited ACh stimulation by 91% and 84% respectively (ANOVA, P<0.01). It is concluded that ACh acts on different receptor subtypes producing both a stimulatory and an inhibitory action on insulin release.     

Conjugated linoleic acid exhibits stimulatory and inhibitory effects on prostanoid production in human endothelial cells and platelets

In addition to their reported antitumorigenic properties, various conjugated linoleic acid (CLA) isomers have also been shown to decrease prostanoid synthesis as a result of inhibiting the cyclooxygenase (COX) enzyme. We have previously reported that several CLA isomers inhibited both platelet aggregation and formation of thromboxane A(2) (TXA(2)), a proaggregatory and vasoconstrictive agent. Since the interaction between platelets and vascular endothelial cells is essential to maintaining vascular homeostasis, we decided to investigate the effects of various CLA isomers on the production of endothelial prostacyclin (PGI(2)), a potent vasodilator and inhibitor of platelet function. Using interleukin 1-beta (IL1-beta)-stimulated human umbilical vein endothelial cells (HUVECs), we initially established that HUVECs of passage #2 should be used since these cells were most responsive to thrombin-induced conversion of endogenous arachidonic acid to PGI(2), as monitored by the formation of its stable, inactive metabolite, 6-ketoPGF(1alpha). In the first part of the study, the effects of CLA isomers in the free fatty acid form were tested. The 10(E), 12(Z)- and 9(Z), 11(E)-CLA isomers inhibited thrombin-induced 6-ketoPGF(1alpha) formation with I(50)'s of 2.6 and 5.5 microM, whereas the 9(Z), 11(Z)- and 9(E), 11(E)-CLA were ineffective at concentrations up to 60 microM. The inhibitory effect of the 10(E), 12(Z)-CLA was irreversible. Next, the effects of CLA incorporation into HUVECs on PGI(2) generation was determined. An average 8-fold stimulation of 6-ketoPGF(1alpha) formation was obtained with quiescent IL1-beta-exposed HUVECs pretreated for 18 h with 25 microM 9(Z), 11(Z)-CLA, whereas cells preincubated with the 10(E), 12(Z) isomer enhanced this eicosanoid 3-fold. Such IL1-beta-treated HUVECs prelabeled with 25 microM 9(Z), 11(Z)-CLA became refractory to thrombin stimulation, as measured by 6-ketoPGF(1alpha) production, whereas a small, statistically insignificant, inhibition was observed upon thrombin treatment of HUVECs prelabeled with the 10(E), 12(Z) isomer. Qualitative similar results were obtained with resting or thrombin-stimulated platelets containing these esterified CLA isomers indicating that these effects occur with cells that contain either the COX-1 or COX-2 isozymes. The results of this in vitro study indicate that the effects of CLA on cellular prostanoid formation in endothelial cells and platelets can be either inhibitory or stimulatory, and this seems to depend not only on the specific CLA isomer and whether or not the CLA is in the free fatty acid form or esterified into cellular lipids, but also whether cells are in the resting or stimulated state. These findings suggest that in vivo, CLA might have multiple, complex effects on vascular homeostasis.     

Differential inhibitory effects of lovastatin on protein isoprenylation and sterol synthesis

It has been reported that when 3-hydroxy-3-methylglutaryl-CoA reductase inhibitors are utilized for treatment of hypercholesterolemia, as much as 50% inhibition of whole body cholesterol biosynthesis is observed. As general inhibitors of isoprenoid biosynthesis, these compounds can also inhibit the synthesis of the substituents of isoprenylated proteins. For two mammalian proteins (p21ras and lamin A), it has been demonstrated that such inhibition of biosynthesis of the isoprenoid substituent blocks proteolytic maturation of these proteins. It has been argued that advantage may be taken of this phenomenon to block the synthesis of p21ras in malignancies. It is also possible that treatment of hypercholesterolemia with lovastatin might produce problematic inhibition of protein processing dependent upon isoprenylation. In this report, we compare the concentration dependence of inhibition of isoprenylation dependent protein processing and sterol biosynthesis. Effects of partial inhibition of isoprenylated protein processing on whole cells can be sensitively assessed by visualization of lamina structure through indirect immunofluorescence. Our results indicate that the degree of inhibition of p21ras and prelamin A maturation by lovastatin is identical. Thus, 3-hydroxy-3-methylglutaryl-CoA reductase inhibitors are unlikely to be useful as anti-malignancy drugs. However, the conditions of lovastatin treatment which produce 50% inhibition of sterol biosynthesis analogous to pharmacological conditions, produce no observable effects on isoprenylated protein maturation.     

Differential modulation of stimulatory and inhibitory Fc gamma receptors on human monocytes by Th1 and Th2 cytokines

Immune complex-mediated inflammatory responses are initiated by Fc gamma R on phagocytes. We report in this study that an inhibitory receptor, Fc gamma RIIb2, is expressed on circulating human monocytes, and when co-cross-linked with stimulatory Fc gamma R it down-regulates effector function. Fc gamma RIIb2 expression is increased by IL-4 and decreased by IFN-gamma, in contrast to the activating receptor, Fc gamma RIIa, which is increased by IFN-gamma and decreased by IL-4. Thus, Th1 and Th2 cytokines differentially regulate the opposing Fc gamma R systems, altering the balance of activating and inhibiting Fc gamma R. The detection and cytokine modulation of Fc gamma RIIb2 in human myeloid cells provide evidence of a negative regulator of immune complex-mediated responses in human phagocytes and offer a new approach to limit Ab-triggered inflammation in autoimmune disease.     

Biphasic inhibitory and stimulatory effects of thyrotropin on the mitotic activity of thyroid explants cultured in vitro.

An influence of thyrotropin (TSH), dibutyryl cyclic AMP (dbcAMP), triiodothyronine (T3) and thyroxine (T4) on the mitotic incidence in the organ-cultured rat thyroid was studied. The study has revealed biphasic inhibitory and stimulatory effects of TSH on the thyroid mitotic activity. The inhibitory effect occurred 14 h after an exposure of the thyroid explants to TSH and was enhanced by T3. A similar inhibitory effect was observed after an exposure of the explants to dbcAMP. 24 h after the exposure of the thyroid explants to TSH a stimulatory effect on the mitotic incidence was observed. The latter effect was not reproduced by dbcAMP.     

Divergent stimulatory and inhibitory actions of carbamoylcholine on gastric D-cells

Carbamoylcholine (carbachol) has been shown to inhibit somatostatin release from gastric D-cells. We observed that this dose-dependent inhibitory effect was accompanied by decreases in cellular cyclic adenosine 3':5'-monophosphate (cAMP) production and increases in parameters of membrane inositol phospholipid turnover. However, after pretreatment of D-cells with pertussis toxin (200 ng/ml), carbachol paradoxically stimulated basal somatostatin release and potentiated the secretagogue action of forskolin. Pertussis toxin pretreatment blocked the ability of carbachol to decrease cAMP production but changes in inositol phospholipid turnover were unaffected. Atropine reversed all of the observed changes induced by carbachol. These data suggest that muscarinic cholinergic receptors mediate both stimulatory and inhibitory regulation of D-cells. The inhibitory effect may involve pertussis toxin-sensitive inhibitory guanine nucleotide binding proteins while the stimulatory effect may result from the consequences of membrane phosphoinositide turnover.