In vitro and in vivo pharmacological characterization of the novel neuropeptide S receptor ligands QA1 and PI1.

The pharmacological activity of the novel neuropeptide S (NPS) receptor (NPSR) ligands QA1 and PI1 was investigated. In vitro QA1 and PI1 were tested in calcium mobilization studies performed in HEK293 cells expressing the recombinant mouse (HEK293mNPSR) and human (HEK293hNPSRIle107 and HEK293hNPSRAsn107) NPSR receptors. In vivo the compounds were studied in mouse righting reflex (RR) and locomotor activity (LA) tests. NPS caused a concentration dependent mobilization of intracellular calcium in the three cell lines with high potency (pEC50 8.73-9.14). In inhibition response curve and Schild protocol experiments the effects of NPS were antagonized by QA1 and PI1. QA1 displayed high potency (pKB 9.60-9.82) behaving as a insurmountable antagonist. However in coinjection experiments QA1 produced a rightward swift of the concentration response curve to NPS without modifying its maximal effects; this suggests that QA1 is actually a slow dissociating competitive antagonist. PI1 displayed a competitive type of antagonism and lower values of potencies (pA2 7.74-8.45). In vivo in mice NPS (0.1 nmol, i.c.v.) elicited arousal promoting action in the RR assay and stimulant effects in the LA test. QA1 (30 mgkg(-1)) was able to partially counteract the arousal promoting NPS effects, while PI1 was inactive in the RR test. In the LA test QA1 and PI1 only poorly blocked the NPS stimulant action. The present data demonstrated that QA1 and PI1 act as potent NPSR antagonists in vitro, however their usefulness for in vivo investigations in mice seems limited probably by pharmacokinetic reasons.

[Dmt1]N/OFQ(1-13)-NH2: a potent nociceptin/orphanin FQ and opioid receptor universal agonist.

BACKGROUND AND PURPOSE: Intrathecally (i.t.) administered nociceptin/orphanin FQ (N/OFQ) evokes antinociceptive effects in rodents. Recent studies in monkeys demonstrated that i.t. co-application of N/OFQ and morphine elicits synergistic antinociceptive actions suggesting mixed N/OFQ peptide (NOP) and µ opioid receptor agonists as innovative spinal analgesics. Thus, novel N/OFQ related peptides were synthesized in order to identify and pharmacologically characterize a mixed NOP/ µ opioid receptor agonist. EXPERIMENTAL APPROACH: The following in vitro assays were used: calcium mobilization in cells expressing the human NOP or classical opioid receptors and chimeric G proteins, receptor and [(35)S]-GTPγS binding, [(35)S]-GTPγS binding in rat spinal cord membranes, guinea pig ileum bioassay. In vivo experiments were performed in monkeys using the tail withdrawal assay. KEY RESULTS: From calcium mobilization studies [Dmt(1)]N/OFQ(1-13)-NH(2) was selected as the most potent and least selective compound. The mixed NOP/opioid full agonist activity and high affinity of [Dmt(1)]N/OFQ(1-13)-NH(2) was confirmed at human recombinant receptors in receptor binding, calcium mobilization and/or [(35)S]-GTPγS binding studies, at rat spinal cord receptors in [(35)S]-GTPγS binding experiments, and at guinea pig receptors inhibiting neurogenic contractions in the ileum. In vivo in the tail withdrawal assay in monkeys i.t. [Dmt(1) ]N/OFQ(1-13)-NH(2) was able to elicit robust and long-lasting antinociceptive effects. CONCLUSIONS AND IMPLICATIONS: Collectively, these results demonstrate that [Dmt(1)]N/OFQ(1-13)-NH(2) behaves as NOP/opioid receptor universal agonist and substantiate the suggestion that such mixed ligands are worthy of development as innovative spinal analgesics.

[tBu-D-Gly5]NPS, a pure and potent antagonist of the neuropeptide S receptor: in vitro and in vivo studies.

Neuropeptide S (NPS) regulates various biological functions by selectively activating the NPS receptor (NPSR). Recently, the NPSR ligand [(t)Bu-D-Gly(5)]NPS was generated and in vitro characterized as a pure antagonist at the mouse NPSR. In the present study the pharmacological profile of [(t)Bu-D-Gly(5)]NPS has been investigated. [(t)Bu-D-Gly(5)]NPS activity was evaluated in vitro in the calcium mobilization assay at the rat NPSR and in vivo in the locomotor activity and righting reflex tests in mice and in the elevated plus maze and defensive burying assays in rats. In vitro, [(t)Bu-D-Gly(5)]NPS was inactive per se while it inhibited the calcium mobilization induced by 30 nM NPS (pK(B) 7.42). In Schild analysis experiments [(t)Bu-D-Gly(5)]NPS (0.1-10 µM) produced a concentration-dependent rightward shift of the concentration-response curve to NPS, showing a pA(2) value of 7.17. In mouse locomotor activity experiments, supraspinal injection of [(t)Bu-D-Gly(5)]NPS (1-10 nmol) dose dependently counteracted NPS (0.1 nmol) stimulant effects. In the mouse righting reflex assay [(t)Bu-D-Gly(5)]NPS (0.1-10 nmol) fully prevented the arousal-promoting action of the natural peptide (0.1 nmol). Finally, [(t)Bu-D-Gly(5)]NPS (3-30 nmol) was able to completely block NPS (1 nmol) anxiolytic-like actions in rat elevated plus maze and defensive burying assays. Collectively, the present results demonstrated that [(t)Bu-D-Gly(5)]NPS behaves both in vitro and in vivo as a pure and potent NPSR antagonist. This compound represents a novel and useful tool for investigating the pharmacology and neurobiology of the NPS/NPSR system.

Pharmacological profile of hemokinin 1: a novel member of the tachykinin family.

Recently, the cloning of a novel preprotachykinin gene (PPT-C) has been reported. This gene codes for a novel peptide named hemokinin 1 (HK-1). In contrast with the known tachykinins, which are exclusively expressed in neuronal tissues, PPT-C mRNA was detected primarily in hematopoietic cells. In this study, we pharmacologically characterised the effects of HK-1 using three tachykinin monoreceptor systems, namely the rabbit jugular vein (rbJV) for NK(1), the rabbit pulmonary artery (rbPA) for NK(2), and rat portal vein (rPV) for NK(3) receptors. In all these preparations substance P (SP), neurokinin A (NKA) and neurokinin B (NKB) elicited concentration dependent contractions showing similar maximal effects and the following rank order of potency: SP > NKA = NKB in the rbJV, NKA > NKB >> SP in the rbPA, and NKB > NKA > SP in the rPV. In those vessels HK-1 behaved as a full agonist displaying potencies similar (rbPA and rPV) or slightly higher (rbJV) than those of SP. In the rbJV, SR 140333, a selective NK(1) receptor antagonist, antagonised the effects of HK-1 and SP with similar high potencies (pK(B) 9.3 and 9.5, respectively). Similar results were obtained with the pseudopeptide NK(1) antagonist, MEN 11467 (pK(B) 8.8 and 8.6, respectively). Taken together, these data indicate that HK-1 behaves as a NK(1) preferring receptor agonist.

Pharmacological characterisation of novel kinin B2 receptor ligands.

Peptide and nonpeptide compounds have been shown to interact specifically with B2 receptors of three different species, namely human, rabbit, and pig. Peptide agonists and nonpeptide antagonists show marked differences in potencies and suggest the existence of B2 receptor subtypes. This conclusion is based on data obtained with the modified agonist peptide LF 150943 whose potency (pEC50 9.4) is at least 100-fold higher in rabbit than in humans (7.4) and pig (6.7). The same conclusion can be drawn from data obtained with antagonists that are more potent in humans (LF 160687, pA2 9.2) than in rabbit (8.7) and pig (8.2) or with antagonists (S 1567) that show the opposite potency order, being much weaker in humans (pA2 6.9) than in rabbit (7.6) and pig (9.4). Two other compounds (FR 173657 and FR 172357) show similar pharmacological spectra as S 1567 and differ from LF 160687.

In vitro and in vivo activity of analogues of the kinin B2 receptor antagonist MEN1 1270.

In this study, we describe the in vitro and in vivo activities of a series of cyclic peptide analogues of the selective kinin B2 receptor antagonist MEN11270 on Chinese hamster ovary cells expressing the human B2 receptor (hB2R), the human isolated umbilical vein (hUV), the isolated guinea pig ileum (gpI), and bradykinin (BK) induced bronchoconstriction (BC) and hypotension in anaesthetized guinea pigs. Substitutions in the backbone of MEN1 1270 (H-DArg-Arg-Pro-Hyp-Gly-Thi-c(Dab-DTic-Oic-Arg)c(7gamma-10alpha)) aimed to increase the potency in inhibiting bronchospasm versus hypotension following the topical (intratracheal (i.t.)) or systemic (intravenous (i.v.)) application of these antagonists. A series of analogues were left unprotected from N-terminal cleavage by aminopeptidases (MEN12739, MEN13052, MEN13346, and MEN13371): these compounds maintained sizeable affinities for the hB2R (pKi = 9.4, 9.6, 9.7, and 8.6, respectively) and antagonist activities toward BK in the hUV (pA2 = 7.9, 8.3, 8.2, and 7.5) and gpI assays (pK(B) = 7.4, 7.8, 7.9, and 7.9), but the inhibition of BK-induced BC and hypotension in vivo was negligible following either i.v. or i.t. administration. Two analogues (MEN12388 and MEN13405) could be potential substrates of angiotensin-converting enzyme: these have good activity in the hB2R (pKi = 9.5 and 8.9, respectively), hUV (pA2 = 8.2 for MEN12388), and gpI assays (pK(B) = 8.4 and 8.0) but an in vivo activity 10- to 30-fold lower than the parent compound MEN1 1270 (pKi = 9.4, pA2 = 8.1, pKB = 8.3) when given by either the i.v. or the i.t. route. Other analogues were functionalized with a quaternary ammonium Lys derivative (MEN13031, MEN12374, and the previously mentioned MEN13052) or with an ethyl group on Arg (MEN13655 and the previously mentioned MEN13346 and MEN13405) in order to hinder or facilitate local absorption. MEN13346 and MEN13031 (pKi = 9.7and 9.5, pA2 = 8.2 and 7.9, pKB = 7.9 and 8.5, respectively) were 10- to 30-fold less active in vivo than MEN1 1270, without improving the discrimination between BK-induced BC and hypotension after either systemic or topical administration. It is concluded that the decreased in vivo activities of cyclic analogues of MEN11270 on BK-induced BC and hypotension following either their intratracheal or their intravenous routes of administration might be due in large part to metabolic degradation.

Sodium hyaluronate in the repair of perforations of the tympanic membrane.

Hyaluronic acid is the most abundant mucopolysaccharide in connective tissue. Because of its high viscous elasticity, it lubricates joints and can hold cells together in the intercellular spaces in connective tissue. The administration of exogenous hyaluronic acid can increase the repair potential of damaged tissue. A study was conducted to verify whether or not hyaluronic acid enhances the repair process in perforations of the tympanic membrane and to evaluate the quality of the tympanic membrane after healing. The 17 patients, aged 22 to 63 years, had small, medium, or large perforations of the tympanic membrane that were treated locally with sodium hyaluronate until a reduction in the area of the perforation was observed. The patients were examined with an otomicroscope and completed evoked-response and impedance tests. Of the 17 perforations treated, 12 (eight small and four medium) healed after two to 11 days of treatment. None of the large perforations healed. Treatment was less effective in patients with secretions from the middle ear. In the 12 patients whose perforations were healed, three months after treatment the tympanic membrane was normal in most cases; hearing threshold, measured with the evoked-response test, had improved; and the tympanometric curve, measured with the impedance test, had returned to normal.

Vestibular ototoxicity in children: a retrospective study of 52 cases.

We have carried out a study on 52 patients treated during childhood with potentially ototoxic drugs. The evaluation of vestibular function was carried out long after treatment. In most of the cases there was a parallelism between hearing and vestibular deficit. Manifest impairment of the vestibular function was demonstrated in 4 subjects, without remarkable hearing loss, who had previously been treated with streptomycin during childhood. Furthermore, in the case of 19 subjects, a considerable deambulation delay was noticed (in one case it revealed itself after the fourth year of life) which was attributable to a real injury to the vestibular structures. Finally, almost all examined subjects showed a dysfunction of equilibrium and a noticeable tendency to kinetopathy.