I8-arachnotocin-an arthropod-derived G protein-biased ligand of the human vasopressin V2 receptor.

The neuropeptides oxytocin (OT) and vasopressin (VP) and their G protein-coupled receptors OTR, V1aR, V1bR, and V2R form an important and widely-distributed neuroendocrine signaling system. In mammals, this signaling system regulates water homeostasis, blood pressure, reproduction, as well as social behaviors such as pair bonding, trust and aggression. There exists high demand for ligands with differing pharmacological profiles to study the physiological and pathological functions of the individual receptor subtypes. Here, we present the pharmacological characterization of an arthropod (Metaseiulus occidentalis) OT/VP-like nonapeptide across the human OT/VP receptors. I8-arachnotocin is a full agonist with respect to second messenger signaling at human V2R (EC50 34 nM) and V1bR (EC50 1.2 µM), a partial agonist at OTR (EC50 790 nM), and a competitive antagonist at V1aR [pA2 6.25 (558 nM)]. Intriguingly, I8-arachnotocin activated the Gαs pathway of V2R without recruiting either ß-arrestin-1 or ß-arrestin-2. I8-arachnotocin might thus be a novel pharmacological tool to study the (patho)physiological relevance of ß-arrestin-1 or -2 recruitment to the V2R. These findings furthermore highlight arthropods as a novel, vast and untapped source for the discovery of novel pharmacological probes and potential drug leads targeting neurohormone receptors.

[The pathway of vasopressin as a pharmacological target in nephrology: a narrative review].

ADH is a hormone secreted by neurohypophysis that plays different roles based on the target organ. At the renal level, this peptide is capable of causing electrolyte-free water absorption, thus playing a key role in the hydro-electrolytic balance. There are pathologies and disorders that jeopardize this balance and, in this field, ADH receptor inhibitors such as Vaptans could play a key role. By inhibiting the activation pathway of vasopressin, they are potentially useful in euvolemic and hypervolemic hypotonic hyponatremia. However, clinical trials in heart failure have not given favourable results on clinical outcomes. Even in SIADH, despite their wide use, there is no agreement by experts on their use. Since vaptans inhibit the cAMP pathway in tubular cells, their use has been proposed to inhibit cystogenesis. A clinical trial has shown favourable effects on ADPKD progression. Because vaptans have been shown to be effective in models of renal cysts disorders other than ADPKD, their use has been proposed in diseases such as nephronophthisis and recessive autosomal polycystic disease. Other possible uses of vaptans could be in kidney transplantation and cardiorenal syndrome. Due to the activity of ADH in coagulation and haemostasis, ADH's activation pathway by Desmopressin Acetate could be a useful strategy to reduce the risk of bleeding in biopsies in patients with haemorrhagic risk.

Neuroprotective Effects of Drug-Induced Therapeutic Hypothermia in Central Nervous System Diseases.

OBJECTIVE: This review article focuses on the neuroprotective effect of drug-induced hypothermia in cerebrovascular diseases and discusses its related side effects. METHOD: A systematic literature search was performed using Pubmed and Embase electronic databases for a retrospective analysis. RESULTS: Experimental studies have shown that drug-induced hypothermia alleviates brain damage and plays a neuroprotective role, thereby reducing mortality and ameliorating neurological deficits. Therefore, drug-induced hypothermia has an important research value and is worth further consideration in the clinical setting. However, drug-induced hypothermia is also associated with side effects, such as ventricular tachycardia, ventricular fibrillation, suppressed immune function, infection, electrolyte imbalance, glucose metabolism disorders, and skeletal muscle tremor. Existing drugs with cooling effects belong to the following categories: (1) dopamine receptor agonists; (2) cannabis; (3) opioid receptors; (4) vanilloid receptors; (5) vasopressins (potent neurotensin receptor agonists); (6) thyroid drugs; (7) adenosine drugs; and (8) purine drugs.

Reactive oxygen species are physiological mediators of the noradrenergic signaling pathway in the mouse supraoptic nucleus.

Free radicals are essential for the vasopressin (AVP) response to plasmatic hyperosmolarity. Noradrenergic afferents are the major projections on the supraoptic nucleus (SON) of the hypothalamus and stimulate the expression of AVP via a nitric oxide (NO) pathway. In this study, we investigated the mechanisms linking free radicals and noradrenaline (NA)-induced regulation of AVP. Analysis of Tg8 transgenic mice, invalidated for the monoamine oxidase-A gene and with consequently high levels of brain monoamines and AVP in the SON, showed that free radicals are more abundant in their SON than in that of wild-type mice (WT). Antioxidant superoxide dismutase 1 and 2 and catalase enzyme activities were also higher in these mice than in WT. This may explain the observed absence of cytotoxicity that would otherwise be associated with such high level of free radicals. Treatment of Tg8 mice with α-MPT, a blocking agent for NA synthesis, decreased both the production of free radicals and the AVP levels in the SON. Furthermore, incubation of ex vivo slices including the SON with NA increased the production of free radicals and AVP levels in wild-type mice. When NA was associated with α-lipoic acid, an antioxidant blocking the production of free radicals, AVP remained at its control level, indicating that free radicals are required for the effect of NA on the expression of AVP. In slices incubated with SNP, a producer of NO, free radicals and AVP levels increased. When NA was associated with L-NAME (a NO synthase blocker), the levels of free radicals and AVP were the same as in controls. Thus, the noradrenaline-NO pathway, which stimulates the expression of vasopressin, involves free radicals. This study provides further evidence of the physiological importance of free radicals, which should no longer be considered solely as cytotoxic factors.

Vasopressin in health and disease with a focus on affective disorders.

The therapies of mood and anxiety disorders are not solved, because current antidepressants have delayed onset of therapeutic action and a significant number of patients are non-responsive. Research on the field was leaning towards neuropeptides as therapeutic targets. Vasopressin (VP) is a hot candidate, as beyond its peripheral actions VP is implicated in interneuronal communication and modulates the hypothalamo-pituitary-adrenal (HPA), the key stress axis, as well as behavioural functions. Affective disorders are stress related disorders and the most frequently occurring abnormality in depressed subjects is hyperactivity of the HPA. VP with nucleus paraventricularis hypothalami origin is a direct adrenocorticotrophin secretagogue through its V1b receptor. VP seems to have special importance under prolonged stress conditions, which are known to be strong predictive factor of depressive disorder and can induce depressive-like symptoms. Preclinical and clinical data summarized in this review underline the importance of VP in the development of anxiety- and depressive-like symptoms. Orally active nonpeptiderg V1b antagonists were developed and seemed to have effective anxiolytic and antidepressant profile in preclinical studies, which was not fully confirmed by clinical observations. It seems that V1a receptors on special brain areas could have same importance. Taken together current knowledge strongly implies an importance of vasopressinergic regulation in affective disorders and consider VP as endogenous anxiogenic/depressogenic substance. However, wide range of side effects could develop as a result of an intervention on the VP system; therefore there is a need for area-specific targeting of VP receptors (e.g. with modified nanoparticles).

Medical management of nocturnal enuresis.

Nocturnal enuresis, or bedwetting, is the most common cause of urinary incontinence in children. It is known to have a significant psychosocial impact on the child as well as the family. Nocturnal enuresis typically presents as failure to become dry at night after successful daytime toilet training. It can be primary or secondary (developing after being successfully dry at night for at least 6 months). Children with nocturnal enuresis may have excessive nocturnal urine production, poor sleep arousal and/or reduced bladder capacity. Alarm therapy is the recommended first-line therapy, with treatment choices being influenced by the presence or absence of the abnormalities mentioned above. Children with nocturnal enuresis may also have daytime urinary urgency, frequency or incontinence of urine. This group (non-monosymptomatic nocturnal enuresis) requires a different clinical approach, with a focus on treating daytime bladder symptoms, which commonly involves pharmacotherapy with anticholinergic medications and urotherapy (including addressing bowel problems). This review discusses the current management of nocturnal enuresis using the terminologies recommended by the International Children's Continence Society.

Protective effect of the vasopressin agonist terlipressin in a rat model of contrast-induced nephropathy.

BACKGROUND/AIMS: Contrast-induced nephropathy (CIN) remains a leading cause of iatrogenic acute renal failure. Terlipressin, a long-acting analog of vasopressin, may improve renal function. This study aimed to investigate the possible protective effect of terlipressin against the development of experimental CIN in rats. METHODS: Wistar albino rats (n = 32) were allocated randomly into four equal groups of 8 each, i.e. control, terlipressin, contrast media (CM), and terlipressin plus contrast media (TCM). CIN was induced by intravenous administration of indomethacin (10 mg/kg), N-nitro L-arginine methyl ester (L-NAME, 10 mg/kg, twice at 15 and 30 min), and high-osmolar contrast media meglumine amidotrizoate 60%. Renal function parameters, kidney histology, and tubular expression of vascular endothelial growth factor (VEGF) were determined. RESULTS: Mean serum creatinine levels were decreased (p < 0.05) and creatinine clearance (p < 0.05) increased in the TCM group compared with the CM group. Notably, rats in the TCM group displayed less tubular necrosis (p < 0.05), medullary congestion (p < 0.05), and a reduced tubular expression of VEGF (p < 0.05) compared with the CM group. CONCLUSION: These results demonstrate that terlipressin can inhibit the development of CIN.

Effects of the vasopressin agonist terlipressin on plasma cAMP and ENaC excretion in the urine in patients with cirrhosis and water retention.

BACKGROUND: Terlipressin is a vasopressin analogue used for its potent V1a effects in cirrhotic patients. Recent data suggest that terlipressin has affinity to renal V2 receptors and modulates Aquaporin 2 (AQP2) expression and free water clearance. Stimulation of renal V2 receptors may also affect sodium transport via the Epithelial Sodium Channel (ENaC). Furthermore, endothelial V2 receptors may indirectly affect proximal sodium handling by increasing plasma cAMP. METHODS: We investigated 18 patients with cirrhosis and ascites before and after infusion of 2 mg of terlipressin. Plasma cAMP and urine AQP2 were measured and a newly developed radioimmunoassay was used to quantify ENaC in the urine. RESULTS: Mean arterial blood pressure increased from 87 ± 15 to 105 ± 19 mmHg, p < 0.001 after terlipressin infusion and GFR increased from 52 ± 6 to 69 ± 9 mL/min, p < 0.01. Urine-ENaC in ng/mmol creatinine increased from 42 ± 6 to 50 ± 7 ng/mmol creatinine, p = 0.05. Urine sodium increased from 43 ± 8 to 62 ± 9 mmol/L, p < 0.01. Plasma cAMP was not affected by terlipressin, 106 (63-673) vs. 103.5 (69-774) pmol/mL, NS. The rise in ENaC excretion correlated with the rise in AQP2 excretion, r = 0.63, p < 0.01. There was a weak correlation between the change in MAP and the rise in AQP2 excretion (p < 0.05). CONCLUSIONS: Increased ENaC excretion suggests increased abundance of ENaC and resultant increased distal sodium reabsorption. The V2 effects of terlipressin are insufficient to stimulate the endothelial V2 receptors since plasma cAMP is unaltered. Despite pronounced V1a and some V2 effects of terlipressin, additional effects on proximal sodium handling are therefore not likely.

Normal-phase automated mass-directed HPLC purification of a pyrrolobenzodiazepine library with vasopressin agonist activity.

A 23-member library of pyrrolobenzodiazepine derivatives with vasopressin agonist activity was purified on a 100-mg per injection scale using normal-phase (NP) automated mass-directed HPLC. Analytical NP APCI-LC/MS on an experimental monolith silica CN column utilizing gradients of methanol in ethoxynonafluorobutane (hexane-like solvent) was used to provide data on chromatographic purity and ionization of the solutes. The analytical data collected were used to program a preparative LC/MS instrument for "smart" fraction collection based on the protonated molecular ion of the component of interest. Preparative HPLC was carried out on a preparative cyano column with gradients of polar organic solvents in heptane containing n-propylamine as a basic additive. Flow rates twice as high as conventional ones were used for purification of library compounds. Small aliquots of the preparative flow were mixed with makeup solvent and introduced into an APCI source of a quadrupole mass spectrometer, which triggered collection of solutes. Two methods with fixed instrument parameters were used for purification. The system utilized commercially available instrumentation and software, which provided excellent recovery and purity of the library components and appeared to be useful as a fast and efficient alternative to traditional purification technologies based on reversed-phase LC/MS.

Central pontine and extrapontine myelinolysis in an infant associated with the treatment of craniopharyngioma: case report.

A 3-year-old girl presented with osmotic demyelination syndrome after undergoing uneventful neuroendoscopic cystostomy for a growing cystic suprasellar craniopharyngioma following microscopic subtotal resection 1 year previously. Endocrinopathy had well been controlled by hormone replacement therapy and administration of 1-amino-8-d-arginine-vasopressin with serum sodium concentration within the normal range. She presented generalized seizure and fever on postoperative day 7, with hyponatremia beginning on postoperative day 4 and deteriorating despite frequent correction. The serum sodium concentration began to fluctuate on the same day, in the range 111-164 mEq/l, which lasted for 2 weeks, refractory for intense management. Her body temperature also fluctuated between hypo- and hyperthermia not correlated with serum inflammatory markers. Her conscious disturbance progressively deteriorated with spastic paraparesis. T(2)-weighted magnetic resonance (MR) imaging taken on postoperative day 19 revealed hyperintense areas in the pons, external capsule, bilateral thalami, and basal nuclei, which had not been recognized before, suggesting osmotic demyelination syndrome causing central pontine and extrapontine myelinolysis. MR imaging taken on postoperative days 230 and 360 showed some diminished lesions but others persisted and resulted in a cavity. The patient's depressed conscious level did not improve. Suprasellar craniopharyngioma with long-standing hypothalamic dysfunction may be associated with severe osmotic demyelination syndrome even after less invasive surgery, so serum sodium derangement after surgery should be promptly corrected even if only subtle signs are present.

Impact of the Merrifield solid phase method on the design and synthesis of selective agonists and antagonists of oxytocin and vasopressin: a historical perspective.

This tribute to Bruce Merrifield traces the author's fortuitous path in 1964 from Vincent du Vigneaud's laboratory to the laboratory of D. W. Woolley to learn the solid phase method and then to his first faculty position in the Department of Biochemistry, McGill University, Montreal in 1965. It recalls the key roles played from early 1966 to July 1967 by Bruce Merrifield, John Stewart, Arnold Marglin, Herb Takashima, and Vincent du Vigneaud in providing key advice to the author's efforts to use the solid phase method to synthesize oxytocin; while simultaneously the du Vigneaud and Merrifield laboratories were collaborating on the solid phase synthesis of deamino-oxytocin. Both syntheses were published in the same issue of the Journal of American Chemical Society in 1968. Also described is how this breakthrough impacted the author's scientific career: by leading to highly productive collaborative studies, initially with Wilbur H. Sawyer and subsequently with others, on the design and synthesis of selective agonists, antagonists, and radioiodinated ligands for oxytocin and vasopressin receptors. These syntheses were greatly facilitated by the contributions of highly talented graduate students, research technicians, and visiting peptide chemists from Hungary, England, Poland, Bulgaria, and China. Many of these peptides have become very valuable pharmacological tools in studies on the peripheral and central effects of oxytocin and vasopressin: further attesting to the profound impact of the solid phase method as the cornerstone for all the discoveries, which he and his collaborators and coworkers have made over the past 40 years.

Disturbed homeostasis in sodium-restricted mice heterozygous and homozygous for aldosterone synthase gene disruption.

We have determined that differences in expression of aldosterone synthase (AS) affect responses to a low-salt diet. In AS-null mice (AS(-/-)), but not in wild-type, low salt significantly decreased plasma sodium and increased potassium. The increased urine volume (1.5xwild-type) and decreased urine osmolality (0.7xwild-type), present in AS(-/-) mice on normal salt, became more severe (2.3xwild-type and 0.5xwild-type) on low salt, but neither changed in wild-type. In both genotypes, plasma vasopressin was similar on normal and low salt, and desmopressin injection significantly increased urine osmolality. Renal mRNA levels for aquaporin 1 and 3 were unchanged by genotype or diet and epithelial sodium channel and Na(+)-K(+)-2Cl(-)-cotransporter by genotype. In AS(-/-) mice, aquaporin 2 mRNA increased on normal salt, whereas Na(+)Cl(-)-cotransporter and cortex K(+) channel mRNAs decreased on both diets. The low blood pressure of AS(-/-) mice was decreased further by low salt, despite additional increases in renin, intrarenal arterial wall thickness, and macula densa cyclogenase-2 mRNA. In AS(+/-) mice on normal salt, adrenal AS mRNA was slightly decreased (0.7xwild-type), but blood pressure was normal. On low salt, their blood pressure was less than wild-type (101+/-2 mm Hg versus 106+/-2 mm Hg), even though renin mRNA increased to 2xwild-type. We conclude that aldosterone is critical for urine concentration and maintenance of blood pressure and even a mild reduction of AS expression makes blood pressure sensitive to low salt, suggesting that genetic differences of AS levels in humans may influence how blood pressure responds to dietary salt.

The influence of vasopressin deficiency and acute desmopressin administration on melatonin secretion in patients with central diabetes insipidus.

Melatonin secretion is modulated by the light-dark schedule, mainly through a sympathetic input to the pineal gland. Besides this, arginine vasopressin (AVP) has been found in the pineal glands of several animal species and there is experimental evidence that AVP modulates melatonin secretion in animals. However, the interaction between vasopressin and melatonin secretion in humans has not been systematically investigated. We proposed to study the nocturnal melatonin pattern in patients with central diabetes insipidus (CDI) who lack endogenous secretion of AVP, and the effect on their melatonin secretion of the agonist for V2 type receptors: desmopressin (1-Desamino [8-D Arginine] vasopressin). Plasma melatonin levels were measured in 14 patients with CDI, every 2 h starting from 22:00 h until 06:00 h, following iv injection of saline (day 1) and 3 microg desmopressin (day 2) at 20:00 h. The lights were turned off at 22:30 h and the samples were taken in a dim light. The plasma melatonin secretion pattern was normal in patients with CDI. Desmopressin at a dose 3 times higher than the antidiuretic one did not modify the melatonin levels or the time of the peak secretion. In conclusion melatonin secretion is not modulated by AVP in humans.

[Use of vasopressin analogues and antagonist in clinical practice]. / Wspólczesne zastosowanie wazopresyny, jej agonistów i antagonistów.

Vasopressin is an endogenous peptide hormone with the antidiuretic and vasoactive action. Its mechanisms of action on vasal smooth muscles and kidney collective tubules are well known. This hormone also plays a role in the central nervous system and influences smooth muscles of the gastrointestinal tract. The recent research results indicated much more extensive effects of endogenous vasopressin action on the circulation than appeared from the water-electrolyte balance regulation only. The use of this hormone is actually an alternative for catecholamine in treatment of the shock. This paper presents short review of vasopressin action, actual clinical use and perspectives in use of vasopressin antagonists in the heart failure.

Responses of magnocellular neurons to osmotic stimulation involves coactivation of excitatory and inhibitory input: an experimental and theoretical analysis.

How does a neuron, challenged by an increase in synaptic input, display a response that is independent of the initial level of activity? Here we show that both oxytocin and vasopressin cells in the supraoptic nucleus of normal rats respond to intravenous infusions of hypertonic saline with gradual, linear increases in discharge rate. In hyponatremic rats, oxytocin and vasopressin cells also responded linearly to intravenous infusions of hypertonic saline but with much lower slopes. The linearity of response was surprising, given both the expected nonlinearity of neuronal behavior and the nonlinearity of the oxytocin secretory response to such infusions. We show that a simple computational model can reproduce these responses well, but only if it is assumed that hypertonic infusions coactivate excitatory and inhibitory synaptic inputs. This hypothesis was tested first by applying the GABA(A) antagonist bicuculline to the dendritic zone of the supraoptic nucleus by microdialysis. During local blockade of GABA inputs, the response of oxytocin cells to hypertonic infusion was greatly enhanced. We then went on to directly measure GABA release in the supraoptic nucleus during hypertonic infusion, confirming the predicted rise. Together, the results suggest that hypertonic infusions lead to coactivation of excitatory and inhibitory inputs and that this coactivation may confer appropriate characteristics on the output behavior of oxytocin cells. The nonlinearity of oxytocin secretion that accompanies the linear increase in oxytocin cell firing rate reflects frequency-facilitation of stimulus-secretion coupling at the neurohypophysis.

The role of glutamate and vasopressin in the excitation of RVL neurones by paraventricular neurones.

Neurones in the paraventricular nucleus of the hypothalamus project to rostral ventrolateral medullary spinally projecting vasomotor neurones. We studied the excitatory action and the role of glutamate and vasopressin in this pathway in anaesthetised rats. A five barrel micropipette assembly was used for extracellular recording of neuronal activity and for microiontophoresis of drugs into the vicinity of identified medullary vasomotor neurones. Iontophoresis of L-glutamate or vasopressin into the vicinity of a vasomotor neurone increased activity, effects which were blocked by simultaneous iontophoretic application of a glutamate receptor antagonist, or a vasopressin V(1a) antagonist respectively. Paraventricular neurones were activated either by microinjecting D,L-homocysteic acid or by disinhibition by microinjecting bicuculline. The excitatory effects on vasomotor neurones, of paraventricular nucleus stimulation at some sites were prevented by simultaneous microiontophoretic application of kynurenic acid or at other sites by application of V(1a) antagonist. Neither antagonist altered the ongoing activity of the vasomotor neurones. Therefore, glutamate or vasopressin may act as excitatory neurotransmitters at synapses of paraventricular neurones on rostral ventrolateral medullary vasomotor neurones.

Neurohypophysial hormone receptors and second messengers in trout hepatocytes.

Neurohypophysial hormone receptors and second messengers were studied in trout (Oncorhynchus mykiss) hepatocytes. Arginine vasotocin (AVT) and isotocin (IT) elicited a concentration-dependent inhibition of cAMP accumulation in the presence of 5x10(-8) M glucagon (maximal effect for 4.5x10(-7) M and 1.4x10(-7) M, half-maximal effect for 2.1x10(-8) M and 0.7x10(-8) M, AVT and IT respectively). The effect of glucagon was inhibited up to 90% by AVT and 80% by IT. While AVT inhibited (up to 50%) the basal cAMP production, IT had no such action. Specific V(1) or V(2) analogues (with reference to vasopressin in mammals) were used for pharmacological characterization of the type of neurohypophysial hormone receptor involved in this inhibition. The V(1) agonist [Phe(2), Orn(8)]-oxytocin inhibited the glucagon-stimulated cAMP production with a maximal effect for 6x10(-7) M and a half-maximal effect for 0.9x10(-8) M concentrations of the analogue. While the V(1) agonist reduced the glucagon-stimulated cAMP level by 70%, it showed only a tendency to reduce the basal level. The V(2) agonist [deamino(1), Val(4),d -Arg(8)]-vasopressin had no effect either on basal or on glucagon-stimulated cAMP production. The V(1) antagonist [d(CH(2))(5)(1), O-Me-Tyr(2), Arg(8)]-vasopressin totally reversed the 10(-8) M AVT-induced inhibition of 5x10(-8) M glucagon-stimulated cAMP production, whereas the V(2) antagonist [d(CH(2))(5)(1),d -Ile(2), Ile(4), Arg(8), Ala(9)]-vasopressin had no such effect. In this particular case, maximal and half-maximal effects of the V(1) antagonist were obtained for 2.3x10(-6) M and 1. 2x10(-6 )M respectively. Changes in intracellular calcium content were measured using the fluorescent probe FURA-2/AM. AVT and IT elicited a concentration-dependent increase in Ca(2+) accumulation. The comparison of the effect of 10(-8) M agonists versus AVT showed the following order of potency: AVT=IT>V(1) agonist>V(2) agonist. The V(1) antagonist reversed the AVT-induced Ca(2+) accumulation whereas the V(2) antagonist had no such effect. These results are taken as evidence for the presence in trout hepatocytes of neurohypophysial hormone receptors functionally close to the V(1a)-type linked to cAMP production and Ca(2+) mobilization.

Discovery and design of novel and selective vasopressin and oxytocin agonists and antagonists: the role of bioassays.

Synthetic oxytocin and vasopressin agonists and antagonists have become important tools for research and were instrumental in the identification of the four known receptor subtypes, V1a, V2, V1b (V3) and oxytocin, of these peptide hormones. However, the relative lack of receptor selectivity, particularly of the antagonists, has limited their usefulness as experimental probes and their potential as therapeutic agents. We now present some findings from our continuing studies aimed at the design of more selective oxytocin and vasopressin agonists and antagonists and a structure-activity relationship update on our recently discovered novel hypotensive vasopressin peptides. Bioassays have been, and continue to be, of critical importance in leading to the discovery of the novel agonists, antagonists and hypotensive peptides reported here. This paper highlights three main aspects of these studies. (1) Replacement of the tyrosine2 and/or phenylalanine3 residues in the V2 agonist deamino,[Val4,D-Arg8]arginine-vasopressin (dVDAVP) by thienylalanine resulted in selective V2 agonists with strikingly high potencies. However, the peptide solutions were unstable and lost activity over time. These highly potent V2 agonists, which are devoid of vasopressor activity, are promising leads for improving drugs for treating diabetes insipidus, enuresis and coagulation disorders. (2) Diaminopropionic acid and diaminobutyric acid substitution at position-5 in oxytocin and in V1a antagonists yielded, respectively, the first specific antagonist for the oxytocin receptor, desGly-NH2,d(CH2)5[D-Trp2,Thr4,Dap5]OVT and the first specific antagonist for the vasopressin V1a receptor, d(CH2)5[Tyr(Me)2,Dab5]AVP. The availability of single receptor subtype-specific or selective antagonists will enhance our ability to delineate receptor functions. Utilising these new receptor specific probes, we were able to show that the uterotonic action of vasopressin is mediated principally by oxytocin and not by V1a receptors. (3) Replacement of the phenylalanine3 residue in the V1a/V2/oxytocin antagonist, d(CH2)5[D-Tyr(Et)2,Val4]AVP, with arginine3 yielded the novel, selective, hypotensive vasopressin peptide, d(CH2)5[D-Tyr(Et)2,Arg3,Val4]AVP (Peptide I). Bioassay characterisations of Peptide I show that its vasodepressor action is independent of the peripheral autonomic, bradykinin, nitric oxide and prostaglandin systems and is not mediated by the known classical oxytocin and vasopressin receptors. These findings suggest the existence of a new vasopressin receptor subtype that may be relevant to the vasodilating action of vasopressin in regional vascular beds. Iodinatable hypotensive peptides have been synthesised and could be developed as markers for the putative new receptor. Ongoing structure-activity relationship studies on Peptide I have led to more potent and selective hypotensive peptides for use as new research tools and as leads for the development of a new class of antihypertensive agents.

Chlorpropamide upregulates antidiuretic hormone receptors and unmasks constitutive receptor signaling.

The mechanism by which chlorpropamide (CP) treatment promotes antidiuresis is unknown. CP competitively inhibited antidiuretic hormone (ADH) binding and adenylyl cyclase (AC) stimulation (inhibition constants K(i) and K'(i) of 2.8 mM and 250 microM, respectively) in the LLC-PK(1) cell line. CP (333 microM) increased the apparent K(a) of ADH for AC activation (0.31 vs. 0.08 nM) without affecting a maximal response, suggesting competitive antagonism. Because CP lowers "basal" AC activity and the AC activation-ADH receptor occupancy relationship (A-O plots), it is an ADH inverse agonist. Twenty-four-hour CP exposure (100 microM) upregulated the ADH receptors without affecting affinity. This lowered K(a) and increased basal AC activity and maximal response (1. 86 vs. 1.35 and 14.9 vs. 10.6 fmol cAMP. min(-1). 10(3) cells(-1), n = 6, P<0.05). NaCl, which potentiates ADH stimulation, also increased basal AC activity. This, together with the CP-ADH inverse agonism and increased basal AC activity at higher receptor density, unmasks constitutive receptor signaling. The CP-ADH inverse agonism explains receptor upregulation and predicts the need for residual ADH with functional isoreceptors for CP-mediated antidiuresis. This could be why CP ameliorates partial central diabetes insipidus but not nephrogenic diabetes insipidus.

Synthesis and structure-activity investigation of novel vasopressin hypotensive peptide agonists.

We report the solid phase synthesis and vasodepressor potencies of the novel hypotensive peptide [1(-beta-mercapto-beta,beta-pentamethylene propionic acid)-2-O-ethyl-D-tyrosine, 3-arginine, 4-valine] arginine vasopressin, d(CH2)5[D-Tyr(Et)2, Arg3, Val4]AVP (A), its related Lys3 (B), Tyr-NH(9)2 (C), [Lys3, Tyr-NH(9)2 (D) analogs and in a preliminary structure-activity study of positions 2-4 and 7-9, 24 analogs (1-24) of A-C. Peptides 1-6, 9-14 have the following single substituents at positions 2, 3, 4, 8 and 9 in (A): 1, D-Tyr(Me)2; 2, L-Tyr(Et)2; 3, Orn3; 4, N-Me-Arg3; 5, Glu3; 6, Arg4; 9, D-Arg8; 10, Eda9; 11, Arg-NH(9)2; 12, Ala-NH(9)2; 13, desGly9; 14, desGly-NH(9)2. Peptides 15 and 16 are analogs of B which possess the following single modifications: 15, Arg-NH(9)2; 16, desGly9. Peptides 7 and 8 are analogs of (C) with the following single modification: 7, Gln4; 8, Lys8. Peptides 17-24 are analogs of A possessing the following multiple modifications: 17, [Sar7, Eda9]; 18, [Arg7, Eda9]; 19, [Arg7, Eda9<--Tyr10]; 20, [Arg4, Arg-NH(9)2]; 21, [Ile4, desGly9]; 22, [Arg4, desGly9]l; 23, [Arg7, desGly9]; 24, [Arg7, Lys8, desGly9]. All 24 new peptides were evaluated for agonistic and antagonistic activities in in vivo antidiuretic (V2-receptor), vasopressor (V1a-receptor) and in in vitro (no Mg2+) oxytocic (OT-receptor) assays and like the parent peptides (A-D) (Chan et al. Br. J. Pharmacol. 1998; 125: 803-811) were found to exhibit no or negligible activities in these assays. Vasodepressor potencies were determined in anesthetized male rats with baseline mean arterial blood pressure maintained at 110-120 mmHg. The effective dose (ED), in microg 100 g(-1) i.v., required to produce a vasodepressor response of 5 cm2, area under the vasodepressor response curve (AUC) during the 5-min period following the injection of the test peptide, was determined. Therefore, the EDs measure the relative vasodepressor potencies of the hypotensive peptides. The following ED values were obtained for A-D and for peptides 1-24: A, 4.66; B, 5.75; C, 10.56; D, 11.60; 1, approximately 20; 2, approximately 30; 3, 6.78; 4, non-detectable (ND); 5, ND; 6, approximately 32; 7, ND; 8, 8.67; 9, ND; 10, 2.43; 11, 3.54; 12, 10.57; 13, 4.81; 14, ND; 15, 4.47; 16, 9.78; 17, 5.72; 18, 1.10; 19, 1.05; 20, 10.41; 21, 9.13; 22, approximately 33; 23, 3.01; 24, 1.71. A is clearly the most potent of the four original hypotensive peptides A-D. These data provide insights to which modification of A enhance, retain or abolish hypotensive potencies. Six of the new hypotensive peptides are significantly more potent than A. These are peptides 10, 11, 18, 19, 23 and 24. Peptide 19, a radioiodinatable ligand, is ten times more potent than C or D. The Gln4 modification of C and the N-Me-Arg3, Glu3, D-Arg8 and desGly-NH(9)2 modifications of A abolished hypotensive potency. By contrast, the Eda9, Arg-NH(9)2, [Sar7, Eda9], [Arg7, Eda9<- -Tyr10], [Arg7, desGly9], [Arg7, Lys8, desGly9] modifications of A all led to enhancements of hypotensive potency. This initial structure-activity exploration provides useful clues to the design of (a) more potent vasodepressor peptides and (b) high affinity radioiodinatable ligands for the putative AVP vasodilating receptor. Some of the peptides here may be of value as pharmacological tools for studies on the complex cardiovascular actions of AVP and may lead to the development of a new class of anti-hypertensive agents.