Endothelin ET(B) receptor subtype mediates nitric oxide/cGMP formation in rat adrenal medulla

We investigated the effect of endothelins (ETs) on receptor-mediated cGMP formation in whole rat adrenal medulla. ET-3 increased cGMP formation in a concentration-dependent manner; in addition, all three isoforms of ETs, at equimolar doses, increased cGMP levels in similar degree. IRL-1620, a selective ET(B) receptor agonist, also increased cGMP formation, mimicking the effects of ETs, but the increase was higher than those produced by ETs. L-arginine analogue, N-nitro-L-arginine (L-NAME), and methylene blue and OQD, two inhibitors of soluble guanylyl cyclase, significantly inhibited the increase in cGMP production induced by ETs or IRL-1620. Likewise, the selective ET(B) receptor antagonist, BQ-788, significantly inhibited ET-1- or ET-3-induced cGMP generation. Our results demonstrate that in whole rat adrenal medulla, endothelins stimulate NO-induced cGMP generation through ET(B) receptors, and they support the concept that endothelins could play a role in the regulation of adrenal medulla function.

Endothelin ETA receptors subtype mediates phosphoinositide hydrolysis in adrenal medulla

We investigated the effect of endothelins (ETs) on receptor-mediated phosphoinositide turnover in whole adrenal medulla. Endothelin -1, -2, -3 increased phosphoinositide (PI) turnover by 30% in whole adrenal medulla prelabeled with (3H)myoinositol. ET-stimulation of PI hydrolysis was almost completely dependent on the presence of the extracellular calcium since its chelation resulted in a blockade of ETs induced InsP1 accumulation. Addition of cadmium increased basal and ETs-stimulated InsP1 accumulation. ETs induced InsP1 accumulation was inhibited by BQ 123, a selective antagonist of the ETA receptor, while BQ 788, a selective antagonist of the ETB receptor, was ineffective. The selective agonist at the endothelin ETB receptor, IRL 1620, was ineffective to induce changes in inositide metabolism. Our data indicate that stimulation of PI turnover constitutes one of the signalling pathways of ETs in rat adrenal medulla and that this action is mediated through ETA receptor activation. These results suggest that endothelin could play a role in the regulation of adrenal medulla function.

Characterization of a mutant cell line that does not activate NF-kappaB in response to multiple stimuli

Numerous genes required during the immune or inflammation response as well as the adhesion process are regulated by nuclear factor kappaB (NF-kappaB). Associated with its inhibitor, I kappaB, NF-kappaB resides as an inactive form in the cytoplasm. Upon stimulation by various agents, I kappaB is proteolyzed and NF-kappaB translocates to the nucleus, where it activates its target genes. The transduction pathways that lead to I kappaB inactivation remain poorly understood. In this study, we have characterized a cellular mutant, the 70/Z3-derived 1.3E2 murine pre-B cell line, that does not activate NF-kappaB in response to several stimuli. We demonstrate that upon stimulation by lipopolysaccharide, Taxol, phorbol myristate acetate, interleukin-1, or double-stranded RNA, I kappaB alpha is not degraded, as a result of an absence of induced phosphorylation on serines 32 and 36. Neither a mutation in I kappaB alpha nor a mutation in p50 or relA, the two major subunits of NF-kappaB in this cell line, accounts for this phosphorylation defect. As well as culminating in the inducible phosphorylation of I kappaB alpha on serines 32 and 36, all the stimuli that are inactive on 1.3E2 cells exhibit a sensitivity to the antioxidant pyrrolidine dithiocarbamate (PDTC). In contrast, stimuli such as hyperosmotic shock or phosphatase inhibitors, which use PDTC-insensitive pathways, induce I kappaB alpha degradation in 1.3E2. Analysis of the redox status of 1.3E2 does not reveal any difference from wild-type 70Z/3. We also report that the human T-cell leukemia virus type 1 (HTLV-1)-derived Tax trans-activator induces NF-kappaB activity in 1.3E2, suggesting that this viral protein does not operate via the defective pathway. Finally, we show that two other I kappaB molecules, I kappaB beta and the recently identified I kappaB epsilon, are not degraded in the 1.3E2 cell line following stimulation. Our results demonstrate that 1.3E2 is a cellular transduction mutant exhibiting a defect in a step that is required by several different stimuli to activate NF-kappaB. In addition, this analysis suggests a common step in the signaling pathways that trigger I kappaB alpha, I kappaB beta, and I kappaB epsilon degradation.

Neural network based on adaptive resonance theory as compared to experts in suggesting treatment for schizophrenic and unipolar depressed in-patients

A modified neural network based on adaptive resonance theory (ART) was trained with the records of 211 psychiatric inpatients (74 schizophrenic, 50 unipolar depressed, 34 bipolar depressed, 20 bipolar manic, 33 other) who improved by at least 40 points on the GAFS during 8 weeks of treatment. Thereafter, a comparison was made between the clinical response of another 26 schizophrenic patients and 28 unipolar depressed inpatients, to treatment suggested by the trained ART (N = 21) and by the consensus of two senior psychiatrists (N = 33). The patients were allocated blindly and randomly to the two treatment groups. The BPRS (for the schizophrenic patients) or the HDRS (for the unipolar depressed patients) was completed weekly for 5 weeks. Results showed no difference between decisions regarding treatment by the ART network and by the experts. Length of hospital stay was also similar. All ART suggestions included supportive psychotherapy. High potency antipsychotics were suggested for 7 schizophrenic inpatients, clozapine for one and the addition of community therapy for another. Depressed patients got a variety of treatment suggestions. No contraindicated treatment was suggested by ART; however, two incomplete treatment suggestions were dropped from the study. In conclusion, in a prospective study ART was successful in learning treatment strategies and performed under supervision similar to experts.

Differential nuclear localization of p50, p52, and RelB proteins in human accessory cells of the immune response in situ

The Rel/NF-kappa B proteins, p50, p52, p65, c-Rel, and RelB, constitute a family of transcription factors involved in the positive regulation of a variety of genes during the immune response. Recently, it has been shown that RelB knockout mice have no dendritic cells (DC). An overexpression of p50 has been described in follicular dendritic cells (FDC). A constitutive NF-kappa B activity has been reported in mature macrophages. This led to the hypothesis that some of the Rel/NF-kappa B proteins were key nuclear factors in functions of accessory cells of the immune response. Therefore, we investigated in situ the nuclear localization of Rel/NF-kappa B proteins in accessory cells of the immune system by immunohistochemistry and double labeling by immunofluorescence from five normal human tonsils and five lymph nodes with follicular hyperplasia. Nuclear p65 and c-Rel proteins were found in all cell types including lymphocytes. In germinal centers GC, p50, p52, and RelB were found in the nuclei of FDC only and were not detected in the nuclei of CD68+ cells. In T cell areas, p50, p52, and RelB were found in the nuclei of HLA-DR+ cells with an antigen-presenting cell (APC) morphology. p52 and RelB were detected in the nuclei in both CD1a+ and CD68+ cells from the T cell area, whereas p50 was found only in CD68- and CD1a- cells. Cells with nuclear p50 were negative for the CD38, CD20 and CD2 markers. These results show that, physiologically, high levels of nuclear of p50, p52 and RelB are restricted to accessory cells of the immune system, which include FDC in GC, and DC and macrophages in the T cell zone, that specialized scavenger macrophages from GC do not have detectable levels of p52 and RelB, whereas macrophages from the T cell area, known to present the antigen to T cells, do have both nuclear p52 and RelB, and that in the T cell zone, p52 and RelB are located in nuclei of both CD1a+, CD68+ or both, cells APC, whereas p50 is restricted to CD1a- and CD68- APC. The different patterns of p50, p52 and RelB protein nuclear localization may provide insight into their different roles during the immune response in vivo.

Alpha-fluoromethylhistidine, an inhibitor of histamine biosynthesis, causes arterial hypertension

In this study we assessed the cardiovascular response to 13 days of irreversible inhibition of the enzyme histidine-decarboxylase (HD) with alpha-fluoro-methylhistidine (AFMH). Age-matched untreated rats were used as controls, Tail-cuff mean arterial pressure (MAP) and heart rate (HR) rose progressively in AFMH-treated rats, reaching maximal values during the study period by the 13th day of treatment. There was a reduction in urinary histamine at the day 7 and 13, and of sodium excretion at the day 7 of treatment, while the renal catecholamine excretion was increased at both days of treatment, suggesting an increase of sympathetic activity. At the 13th day of treatment, there was an activation of the renin-angiotensin-aldosterone system. In addition, the cardiovascular responses to footshock stress were determined in rats treated intraperitoneally (i.p.) or intracerebroventricularly (i.v.t.) with a single dose of AFMH. Peripheral sympathetic facilitation was found, as the hemodynamic response to footshock stress was significantly enhanced after i.p. administration, but not after i.v.t. administration of AFMH. Our results suggest that conditions of peripheral histamine deficiency may result in sympathetic facilitation, arterial hypertension and tachycardia in the rat.

NF-kappaB activity in transgenic mice: developmental regulation and tissue specificity

The transcription factor family NF-kappaB/Rel is responsible for the regulation of a large number of cellular genes and some viruses. Since there is a strong similarity between the NF-kappaB/Rel family members and the Drosophila melanogaster protein DORSAL, which is activated early during embryogenesis, we were interested in determining the pattern of NF-kappaB activity during mouse development. Two lacZ reporter constructs, each driven by promoter elements that are dependent on the presence of nuclear NF-kappaB/Rel activity, were used to produce transgenic mice. The analysis of these mice did not identify nuclear NF-kappaB/Rel activity in early development prior to implantation or during the gastrulation processes. Earliest expression of the lacZ transgene was detected on day E12.5. Before birth lacZ expression was seen in discrete regions of the rhombencephalon of the developing brain, in the spinal medulla, in some of the blood vessels and in the thymus. After birth, the NF-kappaB/Rel activity in the thymus remained but nuclear activity was also found in the bone marrow, in the spleen and in the capsule of the lymph nodes. In the central nervous system, drastic changes in NF-kappaB/Rel activity could be observed in the first 3 weeks after birth, when the cortex and the cerebellum reach functional and morphological maturity. Considering the results of the p50, p65, relB and c-rel knock-out mice and our present findings, we believe that the NF-kappaB/Rel proteins known so far are probably not implicated in processes of early development and differentiation of the different tissues, but rather in maintaining their function once matured.

P53-independent apoptosis: a mechanism of radiation-induced cell death of glioblastoma cells

PURPOSE

Radiation therapy, though routinely used in the treatment of patients with glioblastoma multiforme, is of limited efficacy in extending patients' lives. In this study we investigated the mechanism by which ionizing radiation causes death of glioblastoma cells in the hope of ultimately altering the intrinsic radioresistance of glioblastoma tumors.

METHODS

Radiation survival in vitro was quantitated using linear quadratic and repair-saturation mathematical models. Radiation-induced apoptosis was assayed by fluorescence-activated cell sorter analysis, terminal deoxynucleotide transferase labeling technique, and chromatin morphology. Cellular distribution within the cell cycle was quantitated by dual labeling with propidium iodide and bromodeoxyuridine.

RESULTS

We examined whether in vitro clonogenic radioresistance of glioblastoma would reflect their susceptibility to radiation-induced apoptosis and their ability to undergo a G1 arrest--two cellular functions associated with wild-type p53 expression. We demonstrated that apoptosis contributed to the cytocidal effect of ionizing radiation on glioblastoma cells. The apoptosis observed in glioblastoma cell lines occurred in the absence of wild-type p53 expression. We identified a glioblastoma cell line expressing wild-type p53 and found that it did not exhibit radiation-induced apoptosis but rather underwent a prolonged G1 arrest not observed in any glioblastoma cell line lacking wild-type p53 expression.

CONCLUSION

Apoptosis is an important component of the lethal effect of ionizing radiation on glioblastoma cells and does not require wild-type p53 expression. Glioblastoma expressing wild-type p53 exhibited no apoptosis, even after high radiation doses, but rather underwent a prolonged G1 arrest. The observation of p53-independent apoptosis and p53-dependent Gi arrest in glioblastoma cells have important radiobiologic and clinical implications.

Evidence for a dopaminergic involvement in the natriuretic action of centrally administered renin

Intracerebroventricular (IVT) administration of renin (R) to conscious male hydrated rats induces an increase in sodium excretion. The involvement of brain dopaminergic neurons in the renal action of IVT-R was investigated. Renin-induced natriuretic action was prevented by domperidone and by inhibition of tyrosine hydroxylase activity with alpha-methyl-p-tyrosine treatment. In addition, this effect was absent following selective central dopaminergic denervation with 6-hydroxydopamine (IVT) in combination with desmethylimipramine (IP). Our results suggest that renin acts centrally, at least in part, via an interaction with endogenous dopamine systems.

Signalling downstream of activated mammalian Notch

Notch belongs to a family of transmembrane proteins that are widely conserved from flies to vertebrates and are thought to be involved in cell-fate decisions. In Drosophila, the Suppressor of hairless (Su(H)) gene and genes of the Enhancer of split (E(Spl)) complex, which encode proteins of the basic helix-loop-helix type have been implicated in the Notch signalling pathway. Mammalian homologues of E(Spl), such as the mouse Hairy enhancer of split (HES-1), have been isolated. Both HES-1 and the intracellular domain of murine Notch (mNotch) are able to block MyoD-induced myogenesis. Here we show that activated forms of mNotch associate with the human analogue of Su(H), KBF2/RBP-J kappa (refs 8,9) and act as transcriptional activators through the KBF2-binding sites of the HES-1 promoter.

Synthesis of (+/-)-1-amino-6,7,8,8a-tetrahydro acenaphthene with possible central dopaminergic activity

We describe the non stereoselective synthesis of (+/-)-1-amino-6,7,8,8a-tetrahydroacenaphthene (14), a novel compound that belongs to the acetanaphtene group, that is presented as a rigid non hydroxylated 2-aminoindan which has a structural disposition of a dopaminergic pharmacophore that possess a phenylethylamine fragment. Intracerebroventricular administration of this compound induces an increase in urinary volume and sodium excretion in conscious rats. The renal actions of 14 were blocked by haloperidol pretreatment, suggesting that 14 acts centrally through a dopaminergic mechanism.

Regulation of I kappa B alpha and p105 in monocytes and macrophages persistently infected with human immunodeficiency virus

The mechanisms regulating human immunodeficiency virus (HIV) persistence in human monocytes/macrophages are partially understood. Persistent HIV infection of U937 monocytic cells results in NF-kappa B activation. Whether virus-induced NF-kappa B activation is a mechanism that favors continuous viral replication in macrophages remains unknown. To further delineate the molecular mechanisms involved in the activation of NF-kappa B in HIV-infected monocytes and macrophages, we have focused on the regulation of the I kappa B molecules. First, we show that persistent HIV infection results in the activation of NF-kappa B not only in monocytic cells but also in macrophages. In HIV-infected cells, I kappa B alpha protein levels are decreased secondary to enhanced protein degradation. This parallels the increased I kappa B alpha synthesis secondary to increased I kappa B alpha gene transcription, i.e., increased RNA and transcriptional activity of its promoter-enhancer. Another protein with I kappa B function, p105, is also modified in HIV-infected cells: p105 and p50 steady-state protein levels are increased as a result of increased synthesis and proteolytic processing of p105. Transcriptional activity of p105 is also increased in infected cells and is also mediated by NF-kappa B through a specific kappa B motif. These results demonstrate the existence of a triple autoregulatory loop in monocytes and macrophages involving HIV, p105 and p50, and MAD3, with the end result of persistent NF-kappa B activation and viral persistence. Furthermore, persistent HIV infection of monocytes and macrophages provides a useful model with which to study concomitant modifications of different I kappa B molecules.

Angiotensin II receptor subtypes and phosphoinositide hydrolysis in rat adrenal medulla

Angiotensin II (ANG) receptor subtypes were characterized by quantitative autoradiography after incubation with the ANG agonist [124I]Sar1-ANG in rat adrenal medulla. ANG receptors are highly localized in adrenal medulla. Specific binding was displaced by 4% and by 95% with the AT, receptor blocker losartan and the AT2 receptor competitor CGP 42112A, respectively. Analysis of competition curves indicated relative binding potencies for the AT2 population of CGP 42112A>PD 123319> PD 123177. ANG stimulated +-nositol phosphate formation in a dose-dependent manner in rat adrenal medulla. Losartan at concentrations of 10(-9) to 10(-5) M antagonized the effect of ANG, whereas PD 123177 or PD 123319 had no antagonistic action. However, at a higher concentration (10(-5) M) PD 123177 or PD 123319 potentiated the effect of ANG on InsP1-accumulation. In the presence of PD 123319 (10(-5) M) ANG dose-response curve was shifted to the left with no change in the maximal effect. This affect was blocked by the addition of losartan (10(-5) M). On the contrary, the addition of CGP 42112A (10(-6) M) inhibited ANG-induced increase in InsP1-accumulation. On the other hand, ANG and CGP 42112A reduced basal cyclic GMP formation, this effect was partially reverted by sodium orthovanadate, a phosphotyrosine phosphatase inhibitor. Our results further demonstrate the presence of two ANG receptor subtypes in adrenal medulla: ANG binding to AT, receptor stimulates inositol phospholipid metabolism, whereas ANG binding to AT2 receptors decreases both inositol phosphate production and cGMP formation.

The human J kappa recombination signal sequence binding protein (RBP-J kappa) targets the Epstein-Barr virus EBNA2 protein to its DNA responsive elements

The Epstein-Barr virus (EBV) protein EBNA2, which is essential for the immortalization of human primary B cells by EBV, acts as a transcriptional activator of cellular and viral genes. Specific responsive elements have been characterized in several of the promoters activated by EBNA2. They all share the core sequence GTGGGAA. EBNA2 does not, however, bind to these sequences directly, but appears to be targeted to them by a cellular protein. A similar core sequence has recently been identified as a high-affinity binding site for the human recombination signal sequence binding protein RBP-J kappa. Here we provide evidence that RBP-J kappa binds to specific sequences in EBNA2-responsive elements. Our results also demonstrate that RBP-J kappa makes direct physical contact with EBNA2 in solution and recruits EBNA2 to its cognate DNA sequences, suggesting that RBP-J kappa may mediate EBNA2 transactivation of both cellular and viral genes.

Evidence for a dopaminergic involvement in the renal action of centrally administered JA116a, a novel compound with possible dopaminergic activity, in rats

Intracerebroventricular (i.c.v.) administration of JA116a, induces an increase in urinary volume and sodium excretion in conscious male hydrated rats. The involvement of brain dopaminergic neurons in the JA116a renal action was investigated. Diuretic and natriuretic action of JA116a was blocked by haloperidol pretreatment. The renal effect was prevented by selective dopaminergic neuron, denervation by i.c.v. administration of 6-hydroxydopamine in combination with desmethylimipramine. Our results suggest that JA116a acts centrally, at least in part, via an interaction with endogenous dopamine neurons.

Role of angiotensin AT1 receptor in the cardiovascular response to footshock

This study assessed the effect of non-peptide angiotensin II receptor subtype antagonists on the cardiovascular response to footshock. Effects of electric stimulation (1, 2 or 5 Hz) on mean arterial pressure (MAP) and heart rate (HR) were determined. Peripheral or central administration of losartan, an angiotensin AT1 receptor antagonist (1 or 10 mg/kg s.c., or at 10, 30 or 100 micrograms/5 microliters i.c.v.), inhibited the mean arterial pressure response but not the heart rate response to footshock. In contrast, the MAP response to exogenous administration of norepinephrine was not inhibited by subcutaneous administration of losartan (10 mg/kg). Given at 100 micrograms/5 microliters i.c.v., the angiotensin AT2-selective receptor antagonist, PD 123319, did not reduce hemodynamic responses to electric stimulation. These results suggest that, in acute stress, endogenous angiotensin II facilitation of noradrenergic transmission is mediated through the angiotensin AT1 receptor.

Endothelin-3 stimulates phosphoinositide hydrolysis in the subfornical organ and median eminence of the rat brain

The effect of Endothelin-3 on phosphoinositide turnover was studied in two brain structures, the subfornical organ and median eminence. ET-3 increased inositol monophosphate accumulation in the range 1 nM to 2 microM. Basal and stimulated InsP1 accumulation increased linearly during 1 h. The PI response elicited by ET-3 was dependent on the presence of extracellular Ca++. Removal of extracellular Ca++ or addition of Cd++ resulted in a marked decrease in ET-3-stimulated InsP1 accumulation. On the contrary, phosphoinositide hydrolysis was not changed by the calcium channel blockers nifedipine or amlodipine; however, it was decreased by amiloride, a Na+/H+ antiporter or Na+/Ca++ exchange blocker. ET-3 induced PI breakdown was inhibited in, a dose-dependent manner, by neomycin, an inhibitor of phospholipase C. These findings further support the hypothesis that stimulation of PI turnover constitutes one of the signalling pathways of ET-3 in the central nervous system, possibly through the stimulation of a specific receptor coupled to phospholipase C.

Adrenalectomy reduces atrial natriuretic peptide stimulated guanylate cyclase activity in rat paraventricular nucleus

Atrial natriuretic peptide (ANP) or an Atriopeptin III analog (PL 058) stimulated cGMP formation in the membrane fraction of rat olfactory bulb, median eminence and paraventricular nucleus, in a dose-dependent manner. The effect of the Atriopeptin III analog was 20-40% greater than that of ANP. Bilateral adrenalectomy, with or without mineralo- or glucocorticoid-replacement, on ANP-stimulated cGMP formation was investigated in rat paraventricular nucleus. 11 days after bilateral adrenalectomy a reduced responsiveness to ANP- or PL 058-induced cGMP production was observed. This effect was prevented by deoxycorticosterone, but not by dexamethasone administration. Our results further support the presence of guanylate cyclase-coupled ANP receptors in brain localized target sites; and they provide evidence suggesting that guanylate cyclase-linked ANP binding sites in the PVN are susceptible to regulatory changes after adrenalectomy-induced activation of the hypothalamus-hypophyso-adrenocortical system.

Effect of Losartan, a nonpeptide angiotensin II receptor antagonist, on drinking behavior and renal actions of centrally administered renin

Losartan, a nonpeptide angiotensin II receptor antagonist, was used to establish the role of brain AT1 angiotensin II receptor subtype on the natriuretic, antidiuretic, and dipsogenic actions of centrally administered renin. Intracerebroventricular administration of renin reduces urine volume and increases sodium excretion and water intake in conscious, male, hydrated rats. Losartan (3 or 10 mg/kg, sc) reduced the increased sodium excretion and totally inhibited the antidiuretic action induced by intracerebroventricular renin. When both renin and Losartan were given intracerebroventricularly, at the highest dose, there was a potent inhibition of the antidiuretic and natriuretic actions. Peripheral and central administration of the AT1 receptor blocker significantly lengthened the onset of drinking behavior and reduced the cumulative water intake observed after intracerebroventricular injection of renin. Our results strongly suggest that the brain AT1 receptor subtype mediates the physiologic actions of angiotensin II, such as drinking behavior, the increase in sodium excretion, and vasopressin release.

Altered binding of regulatory factors to HLA class I enhancer sequence in human tumor cell lines lacking class I antigen expression

Class I antigens encoded in the major histocompatibility complex (MHC) (HLA in man, H-2 in the mouse) play a key role in the recognition of target cells by cytolytic T lymphocytes. Tumor cells frequently do not express class I MHC molecules, which strongly suggests that down-regulation of the latter facilitates escape of tumor cells from immune surveillance. The expression of class I MHC genes is tightly regulated. An enhancer element, conserved in the promoters of mouse and human MHC genes, has been shown to be important for mouse class I MHC gene expression. At least two related regulatory factors (KBF1 and NF-kappa B) bind to this regulatory element. We have analyzed the binding of these factors in cellular extracts of 23 human tumor cell lines displaying various levels of class I mRNA and surface expression. In this panel, combined deficiency of KBF1- and NF-kappa B-like DNA-binding activities was frequent among the class I-negative cell lines and correlated with the absence of class I mRNA. A few cell lines that lack KBF1 binding activity still display NF-kappa B-like activity and express normal levels of MHC class I mRNA. These results suggest (i) that, in the absence of KBF1, NF-kappa B or a related factor promotes MHC class I gene transcription; and (ii) that a combined defect in KBF1/NF-kappa B DNA-binding activity can cause a pleiotropic defect in class I gene expression, which may facilitate tumor progression.

Further evidence for a dopaminergic involvement in the renal action of centrally administered atrial natriuretic peptide in rats

Intracerebroventricular (ICV) administration of atrial natriuretic peptide (ANP) induces an increase of urinary volume and sodium excretion in conscious male hydrated rats. The involvement of brain dopaminergic neurones in the ICV-ANP renal action was investigated. Diuretic and natriuretic action of ANP was prevented by inhibition of tyrosine hydroxylase activity with alpha-methyl-p-tyrosine treatment and was absent following selective central dopaminergic denervation with ICV administration of 6-hydroxydopamine in combination with desmethylimipramine (IP). Our results suggest that ANP acts centrally, at least in part, via an interaction with endogenous dopamine neurones.