To establish the activity of sigma ligands at sigma1 and sigma2 receptor, we chose two tumour cell lines, the human SK-N-SH neuroblastoma and the rat C6 glioma lines, which express sigma2 receptors at a high density and sigma1 receptors in their high-affinity or low-affinity state. We tested the sigma2 receptor agonist PB28 and the sigma2 antagonist AC927, and (+)-pentazocine and NE100 as agonist and antagonist, respectively, at sigma1 receptors, with regard to antiproliferative and cytotoxic effects. In addition, 1,3-di(2-tolyl)guanidine (DTG) and haloperidol were tested as reference compounds displaying nearly equipotent sigma affinity (sigma2>sigma1 and sigma1>sigma2, respectively). In both SK-N-SH and C6 cells, PB28 and NE100 displayed the most potent results both in antiproliferative and cytotoxic assay while AC927 and (+)-pentazocine were inactive in both assays. The cytotoxic and antiproliferative effects of DTG and haloperidol reflected their sigma1 antagonist activity and sigma2 agonist activity. Moreover, our results in the tumour cell lines correlated well with those for sigma2 activity found previously in a functional assay in the guinea-pig bladder. These findings establish a new model for evaluating both sigma2 and sigma1 receptor activity of sigma ligands, which could be useful for developing new ligands having mixed sigma2 agonist/sigma1 antagonist activity as potential antineoplastic agents.
Several 1-cyclohexylpiperazine derivatives related to sigma(2) receptor ligand 1-cyclohexyl-4-[3-(5-methoxy-1,2,3,4-tetrahydronaphthalen-1-yl)propyl]piperazine (33, K(i) = 0.34 nM) were synthesized and tested in radioligand binding assays, to attempt a structure-affinity relationship study. Intermediate alkyl chain length and methoxyl group position on the tetralin nucleus were varied. A few naphthalene analogues were also prepared. High affinities were found in sigma(2) receptor binding for almost all compounds, some of which displayed K(i) values in subnanomolar range, but low sigma(2)/sigma(1) selectivities were found. The highest sigma(2) affinities were displayed by compounds with an intermediate alkyl chain of three (32 and 43) or five methylenes (39 and 46). Quite high sigma(1) receptor affinity was found for compounds with a four-methylene chain; 36 (K(i) = 0.036 nM) and 45 (K(i) = 0.22 nM) displaying good sigma(1)/sigma(2) selectivity (406- and 139-fold, respectively). Moreover, homologues of compound 33 displayed also satisfactory selectivities over dopamine D(2)-like, serotonin 5-HT(3), and adrenergic alpha(1) receptors. These compounds and a few others were tested in the inhibition of the electrically evoked contractions in guinea pig bladder and were demonstrated to be full sigma(2) agonists. The activity values correlated well to the affinity scale (EC(50) in microM range). 33 and related compounds are proposed as a class of potential antineoplastic and PET diagnosis agents.
Mixed 5-HT1A/D-2 activity of a new model of arylpiperazines: 1-aryl-4-[3-(1,2-dihydronaphthalen-4-yl)-n-propyl]piperazines. 1. Synthesis and structure-activity relationships
A new model of 4-alkyl-1-arylpiperazines containing a terminal dihydronaphthalene fragment on the alkyl chain was synthesized in order to have mixed serotonergic and dopaminergic activity and to pursue the recent alternative approaches to the discovery of novel antipsychotic and anxiolytic agents. Title compounds were evaluated for in vitro activity on dopamine D-2 and serotonin ~-H T~A and 5-HTz receptors by radioreceptor binding assays. They show high nanomolar affiiity for ~-H T~A , moderate affinity for D-2, and low affinity for 5-HTz receptors, and in particular, two compounds, 4-[3-( 1,2-dihydro-6-methoxynaphthalen-4-yl)-n-propyll-1-(2-methoxyphenyl)piperazine (8) and 4-[3-( 1,2-dihydro-8-methoxynaphthalen-4-yl)-n-propyll-l-(2-pyridyl)piperazine (E), show values (nM) of ICs0 = 2.0 and 1.4 for ~-H T~A and ICs0 = 90.6 and 119.3 for D-2, respectively.Some in vivo behavioral studies show compound 8 to be an antagonist on ~-H T~A receptors. These first findings place the new arylpiperazines on the same level as that of the azaspirone class, e.g., and buspirone. 1-(2-methoxypheny1)-4-[4-(2-phthalimido)-n-butyl]piperazineCommon chlorpromazine-like antipsychotic drugs produce extrapyramidal symptoms (EPS), while antianxiety agents, such as benzodiazepines, present ataxia, sedative phenomena, and signs of drug dependence as side effects.Recent observationslJ indicate that improvement of these agents may be attained by combining dopaminergic and serotonergic activities in a single structure. Indeed, at the moment, there is considerable interest in molecules with multireceptorial activity3 as novel antipsychotic agents of potential clinical significance.Within this context, examples of compounds having both D-2 and 5-HTz receptor antagonist properties are setoperone4 and risperidone:b which have been evaluated in clinical trials, as well as new molecules which are predicted to be efficacious against negative symptoms of schizophrenia and to have fewer EPS.' Another example of an atypical neuroleptic drug with reduced side effects is clozapine which, in addition to acting on a specific subclass of dopamine receptors,8 interacts with significant affinity on a broad range of receptor types (serotonergic, adrenergic, muscarinic, a n d histaminergic).B-12Formerly, in our laboratories, we have synthesized compounds such as the l-aminoethylheterotetralin13J4 derivatives 1, which show no affinity for dopaminergic and serotonergic receptors, although they are open derivatives of active cyclic structures on DA and 5-HT receptors.In order to achieve this dual affinity for these receptors, we inserted the terminal nitrogen of the side chain of compounds 1 in an arylpiperazine structure. During the last decade, the arylpiperazine moiety has shown to be one of the templates for 5-HT activity,16 but minor Abstract published in Advance ACS Abstracts, December 15,1993. 1 : R --NE-2 : R --N 7 L N -Aryl modifications involve significant changes in affinity and selectivity, since it can also display moderate to high affinity for DA rece...
High Affinity and Selectivity on 5-HT1A Receptor of 1-Aryl-4-[(1-tetralin)alkyl]piperazines. 2
Several 4-alkyl-1-arylpiperazines that present a tetralin moiety on the terminal part of the side chain were synthesized in order to increase the selectivity on the 5-HT1A versus D-2, alpha 1, sigma, and other 5-HT receptors. Many changes have been effected on previous structures of type 3(1-aryl-4-[3-(1,2-dihydronaphthalen-4-yl)-n-propyl]piperazines). Several synthetic procedures were followed to obtain the final products, depending on the presence or absence of a double bond, as well as of a heteroatom on the side chain. In the first case versatile use of Grignard reaction was made, whereas in the second one usual synthetic ways were applied. Final compounds were evaluated for in vitro activity on dopamine D-1 and D-2, serotonin 5-HT1A, 5-HT1B, 5-HT1C, and 5-HT2, alpha 1 adrenergic, and sigma receptors by radioreceptor binding assay. For the 2-MeO-Ph, 2-pyridyl, and unsubstituted phenyl N-piperazine derivatives, low IC50 values (0.3 nM) on 5-HT1A receptors and high selectivity values were observed.
Inhibition of frog skeletal muscle sodium channels by newly synthesized chiral derivatives of mexiletine and tocainide
To search for potent use-dependent blockers of skeletal muscle sodium channels as potential antimyotonic agents, the actions of newly synthesized chiral analogs of mexiletine and tocainide were tested in vitro on sodium currents of single fibers of frog semitendinosus muscle by vaseline-gap voltage clamp method. The effect of each drug on the maximal peak Na+ transient (I(Na) max) was evaluated as both tonic and use-dependent block by using infrequent depolarizing stimulation and trains of pulses at 2-10 Hz frequency, respectively. The mexiletine analog 3-(2,6-dimethylphenoxy)-2-methylpropanamine (Me2), having an increased distance between the phenyl and the amino groups, was less potent than mexiletine in producing a tonic block but produced a remarkable use-dependent block. In fact, the half-maximal concentration (IC50) for tonic block of S(-)-Me2 was 108 microM vs. 54.5 microM of R(-)-mexiletine, but the IC50 was 6.2 times lowered by the 10 Hz stimulation with respect to the 2.4 fold decrease observed with mexiletine. The R(-)-mexiletine and the S(-)-Me2 were about twofold more potent than the corresponding enantiomers in producing a tonic block, but the stereoselectivity attenuated during use-dependent blockade. The more lipophilic 2-(4-chloro-2-methylphenoxy)-1-phenylethylamine (Me1), presently available as raceme, produced a potent and irreversible tonic block of the sodium currents with an IC50 of 29 microM, but had a less pronounced use-dependent inhibition, with a 1.9 fold decrease of the IC50 at 10 Hz. The R(-) isomer of 2',6'-valinoxylidide (To1), a tocainide derivative with an increased hindrance on the chiral carbon atom, was twofold (IC50 = 209 microM) and tenfold (IC50 = 27.4 microM) more potent than R(-)-tocainide in tonic and use-dependent block, respectively. Tocainide was almost devoid of stereoselectivity, whereas the eudismic ratio of To1 [(IC50 S(+)-To1/IC50 R(-)-To1] was 1.7. As for mexiletine and Me2, the stereoselectivity of To1 was the weaker the higher the frequency of stimulation. The cyclic pyrrolo-imidazolonic tocainide analog To2 produced a small tonic block at 500 microM, and 1 min stimulation at 10 Hz was needed to show up a 50% block of I(Na) max. All the compounds produced a left-shift of the steady-state inactivation curve correlated positively with the extent of use-dependent inhibition, with the exception of the cyclic To2 that acted as an open-channel blocker. The highly use-dependent blockers Me2 and To1 might be promising drugs to solve high frequency discharges of action potentials typical of myotonic muscles. Concomitantly the high potency of Me1 and the open-channel block exerted by To2 can represent important features to get selective blockers for skeletal muscle sodium channels.
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