(1,4-Benzothiazinyloxy)alkylpiperazine derivatives as potential antihypertensive agents

A series of compounds having a piperazine moiety variously linked to the benzothiazine nucleus were synthesized and evaluated for their in vitro alpha-adrenoceptor affinity by radioligand receptor binding assays. Some compounds bearing a oxyalkyl-(2-methoxyphenyl)piperazine side chain were good alpha1-adrenoreceptor ligands.     

Base-induced side reactions in Fmoc-solid phase peptide synthesis:Minimization by use of piperazine as Nα-deprotectionreagent

Summary Base-induced aspartimide (cyclic imide) and subsequent base adduct formation in the Fmoc-solid phase synthesis of sensitive sequences are serious side reactions that are difficult to both anticipate and control. The effect of extended treatment of piperazine as N^α-Fmoc deprotection reagent on two sensitive peptide sequences was examined. For comparison, other bases were also investigated, including piperidine, 1-hydroxypiperidine, tetrabutylammonium fluoride, and 1,8-diazabicyclo[5.4.0]undec-7-ene. The results showed that all bases induced varying degrees of both aspartimide and, in some cases, base adduct formation, although piperazine caused the least side reaction. Use ofN-(2-hydroxy-4-methoxybenzyl) peptide backbone amide protection was confirmed to confer complete protection against side reaction. In the absence of such protection, for all bases, the use of 1-hydroxybenzotriazole as additive had some, but not complete, beneficial effect in further reducing side reaction. Best results were obtained with piperazine containing 0.1M 1-hydroxybenzotriazole indicating that this reagent merits serious consideration for N^α-deprotection in the Fmoc-solid phase synthesis of base-sensitive sequences. A further advantage of this reagent is that it causes little racemisation of resin-bound C-terminal cysteine, an occasionally serious base-mediated problem in Fmoc-solid phase assembly. A preliminary account of this work was presented at the 25th European Peptide Symposium, Budapest, Hungary, 1998.     

The aspartimide problem persists: Fluorenylmethyloxycarbonyl‐solid‐phase peptide synthesis (Fmoc‐SPPS) chain termination due to formation of N‐terminal piperazine‐2,5‐diones

Aspartimide (Asi) formation is a notorious side reaction in peptide synthesis that is well characterized and described in literature. In this context, we observed significant amounts of chain termination in Fmoc‐SPPS while synthesizing the N‐terminal Xaa‐Asp‐Yaa motif. This termination was caused by the formation of piperazine‐2,5‐diones. We investigated this side reaction using a linear model peptide and independently synthesizing its piperazine‐2,5‐dione derivative. Nuclear magnetic resonance (NMR) data of the side product present in the crude linear peptide proves that exclusively the six‐membered ring is formed whereas the theoretically conceivable seven‐membered 1,4‐diazepine‐2,5‐dione is not found. We propose a mechanism where nucleophilic attack of the N‐terminal amino function takes place at the α‐carbon of the carbonyl group of the corresponding Asi intermediate. In addition, we systematically investigated the impact of (a) different adjacent amino acid residues, (b) backbone protection, and (c) side chain protection of flanking amino acids. The side reaction is directly related to the Asi intermediate. Hence, hindering or avoiding Asi formation reduces or completely suppresses this side reaction.     

Synthesis and in vitro activity of N'-cyano-4-(2-phenylacetyl)-N-o-tolylpiperazine-1-carboximidamide P2X7 antagonists

A novel series of cyanoguanidine-piperazine P2X(7) antagonists was designed based upon the structure of A-740003. Structure-activity relationship (SAR) studies focused on the piperazine moiety and the right hand side substitution. Compounds were assayed for activity at human and rat P2X(7) receptors and compound 29 was found to possess potent activity (IC(50)=30-60 nM) at both species.     

Quantitative structure-activity relationship study of novel alpha1a-selective adrenoceptor antagonists

Two series of compounds were recently reported as novel alpha1a-selective adrenoceptor antagonists. In the first series, a dihydropyrimidone moiety is attached to a 4-phenyl piperidine containing side chain, while in the second, it is linked to a 4-substituted phenyl piperazine containing side chain. These compounds having potential for the treatment of benign prostatic hyperplasia, a urological disorder in the older age male population, were subjected to a quantitative structure-activity relationship study. The analysis has helped to ascertain the role of different substituents in explaining the observed binding potencies of these analogues. In the first category of compounds, three sites R1, R2, and X were varied and from the quantitative structure-activity relationship, it emerged that X- and R1-substituents having respectively, the high values of field and resonance effects may lead to more potent alpha1a-antagonists. The substituent of R2, being either CH3 or C2H5, does not add to improve the activity and thus the site, at present, becomes redundant. This site may, however, be explored for some additional substituents in future. In the second series of compounds, the phenyl ring, linked to a piperazine moiety at the end of a side chain, was substituted with various groups onto different positions. From derived significant correlations, it appeared the less polar and/or bulky substituents at the meta- and para-positions and a more hydrophobic substituent at the para-position are advantageous.     

Substituted uracil derivatives as potent inhibitors of poly(ADP-ribose)polymerase-1 (PARP-1)

A new class of PARP-1 inhibitors, namely substituted fused uracil derivatives were synthesised. Starting from a derivative with an IC(50)=2microM the chemical optimisation program led to compounds with more than a 100-fold increase in potency (IC(50)<20nM). Additionally, physicochemical and pharmacokinetic properties were evaluated. It could be shown that compounds bearing a piperazine or phenyl substituted betaAla-Gly side chain exhibited the best overall profile.     

Effects of 2-substituted-4-phenylquinolines on uptake of serotonin and norepinephrine by isolated brain synaptosomes

In this present communication, the in vitro inhibition of the uptake of [3H]-L-norepinephrine ([3H] NE) and [3H]-Serotonin ([3H] 5-HT) by eleven synthesized 2-substituted-4-phenyl quinolines were studied using rat brain synaptosomal preparations. Compounds with an open side chain were relatively weak inhibitors of the synaptosomal uptake of [3H] NE and [3H] 5HT. Compounds having a distance of three atoms between the terminal basic nitrogen of the side chain and the quinoline ring were better inhibitors of serotonin uptake than those compounds having a four-atom distance. The replacement of the side chain with a piperazine ring produced compounds which were more potent and selective inhibitors of the uptake of either [3H] 5-HT or [3H] NE. Further structure-activity relationships are also discussed.     

Piperazine sulfonamide BACE1 inhibitors: Design,synthesis, and in vivo characterization

With collaboration between chemistry, X-ray crystallography, and molecular modeling, we designed and synthesized a series of novel piperazine sulfonamide BACE1 inhibitors. Iterative exploration of the non-prime side and S2′ sub-pocket of the enzyme culminated in identification of an analog that potently lowers peripheral Aβ₄₀ in transgenic mice with a single subcutaneous dose.     

Chloroalkyl piperazine and nitrogen mustard porphyrins: synthesis and anticancer activity

Fifteen new chloroalkyl piperazine and nitrogen mustard porphyrins have been synthesized by the direct condensation of chloroalkyl piperazine, nitrogen mustard benzaldehyde, and pyrrole. Each porphyrin bears 1-4 chloroalkyl piperazine or nitrogen mustard moieties, which have been used as drugs. The Lindsey method was modified to synthesize chloroalkyl piperazine and nitrogen mustard porphyrins. To successfully synthesize chloroalkyl piperazine and nitrogen mustard porphyrins, catalyst acidity was proved to be the key factor, while the ratio of pyrrole to aldehyde had great influence on product yield. The synthetic chloroalkyl piperazine and nitrogen mustard porphyrins were characterized by elementary analysis, MS, (1)H NMR, IR, and UV-vis. Their anticancer activity to bel-7404 liver cancer cells was tested by the MTT assay. Most of the synthetic porphyrins had good anticancer activity toward bel-7404 liver cancer cells in the absence of light. These compounds might be potential anticancer medicines.     

Synthesis and characterization of new piperazine-type inhibitors for mitochondrial NADH-ubiquinone oxidoreductase (complex I)

The mode of action of Deltalac-acetogenins, strong inhibitors of bovine heart mitochondrial complex I, is different from that of traditional inhibitors such as rotenone and piericidin A [Murai, M., et al. (2007) Biochemistry 46 , 6409-6416]. As further exploration of these unique inhibitors might provide new insights into the terminal electron transfer step of complex I, we drastically modified the structure of Deltalac-acetogenins and characterized their inhibitory action. In particular, on the basis of structural similarity between the bis-THF and the piperazine rings, we here synthesized a series of piperazine derivatives. Some of the derivatives exhibited very potent inhibition at nanomolar levels. The hydrophobicity of the side chains and their balance were important structural factors for the inhibition, as is the case for the original Deltalac-acetogenins. However, unlike in the case of the original Deltalac-acetogenins, (i) the presence of two hydroxy groups is not crucial for the activity, (ii) the level of superoxide production induced by the piperazines is relatively high, (iii) the inhibitory potency for the reverse electron transfer is remarkably weaker than that for the forward event, and (iv) the piperazines efficiently suppressed the specific binding of a photoaffinity probe of natural-type acetogenins ([ (125)I]TDA) to the ND1 subunit. We therefore conclude that the action mechanism of the piperazine series differs from that of the original Deltalac-acetogenins. The photoaffinity labeling study using a newly synthesized photoreactive piperazine ([ (125)I]AFP) revealed that this compound binds to the 49 kDa subunit and an unidentified subunit, not ND1, with a frequency of approximately 1:3. A variety of traditional complex I inhibitors as well as Deltalac-acetogenins suppressed the specific binding of [ (125)I]AFP to the subunits. The apparent competitive behavior of inhibitors that seem to bind to different sites may be due to structural changes at the binding site, rather than occupying the same site. The meaning of the occurrence of diverse inhibitors exhibiting different mechanisms of action is discussed in light of the functionality of the membrane arm of complex I.     

2-Substituted piperazine-derived imidazole carboxamides as potent and selective CCK1R agonists for the treatment of obesity

The discovery and structure–activity relationship of 1,2-diarylimidazole piperazine carboxamides bearing polar side chains as potent and selective cholecystokinin 1 receptor (CCK1R) agonists are described. Optimization of this series resulted in the discovery of isopropyl carboxamide 40, a CCK1R agonist with sub-nanomolar functional and binding activity as well as excellent potency in a mouse overnight food intake reduction assay.     

N',2-diphenylquinoline-4-carbohydrazide based NK3 receptor antagonists II

Introduction of selected amine containing side chains into the 3-position of N',2-diphenylquinoline-4-carbohydrazide based NK3 antagonists abolishes unwanted hPXR activation. Introduction of a fluorine at the 8-position is necessary to minimize unwanted hI(Kr) affinity and a piperazine N-tert-butyl group is necessary for metabolic stability. The lead compound (8m) occupies receptors within the CNS following oral dosing (Occ(90) 7 mg/kg po; plasma Occ(90) 0.4 microM) and has good selectivity and excellent PK properties.     

Synthesis and evaluation of 4-substituted piperidines and piperazines as balanced affinity μ opioid receptor (MOR) agonist/δ opioid receptor (DOR) antagonist ligands

In this letter, we describe a series of 4-substituted piperidine and piperazine compounds based on tetrahydroquinoline 1, a compound that shows balanced, low nanomolar binding affinity for the mu opioid receptor (MOR) and the delta opioid receptor (DOR). We have shown that by changing the length and flexibility profile of the side chain in this position, binding affinity is improved at both receptors by a significant degree. Furthermore, several of the compounds described herein display good efficacy at MOR, while simultaneously displaying DOR antagonism. The MOR agonist/DOR antagonist has shown promise in the reduction of negative side effects displayed by selective MOR agonists, namely the development of dependence and tolerance.     

Correlation of myosin light chain phosphorylation and gamma aminobutyric acid receptors in Ascaris suum muscle

Four different muscle relaxants were compared as to their effects on tonic Ascaris suum muscle to: physiological activity, intracellular response to regulatory light chain phosphorylation, and receptor pharmacology. Perfusion of Ascaris suum muscle with each relaxant, gamma-aminobutyric acid, avermectin, piperazine and chlorpromazine resulted in a dose-dependent loss of muscle tone. Comparison of intracellular effects indicated that gamma-aminobutyric acid and avermectin perfusion initiated an increase in the levels of dephosphorylated regulatory light chain while piperazine increased first site phosphorylation and chlorpromazine increased second site phosphorylation. Receptor pharmacology studies were used to compare the actions of gamma-aminobutyric acid and piperazine. It was found that bicuculline-methiodide and picrotoxin inhibited the effects of gamma-aminobutyric acid in a dose-dependent manner, but these drugs had no effect on muscle relaxation stimulated with piperazine.     

Syntheses of novel diphenyl piperazine derivatives and their activities as inhibitors of dopamine uptake in the central nervous system

A new series of diphenyl piperazine derivatives containing the phenyl substituted aminopropanol moiety, which were modified at sites between the diphenyl and piperazine moieties, was prepared and evaluated for dopamine transporter binding affinity with [(3)H]GBR12935 in rat striatal membranes. These synthesized compounds showed apparent dopamine transporter binding affinities (IC(50)<30 nM) and some of them were approximately equivalent in activity to GBR12909 known as a potent dopamine uptake inhibitor, showing the activities with IC(50) values of nanomolar range. Among them, 1-[4,4-bis(4-fluorophenyl)butyl]-4-[2-hydroxy-3-(phenylamino)propyl]piperazine 2 was evaluated for extracellular dopamine levels in rat striatum using in vivo brain microdialysis. The intraperitoneal administration of 2 (0.01, 0.03, or 0.1 mmol/kg) induced dose-dependent increases of dopamine levels in rat striatal dialysates. The maximum increases in dopamine levels induced by 2 were greater than those by GBR12909. The pharmacological data of these novel diphenyl piperazine derivatives show that the compounds have potent dopamine uptake inhibitory activities in the central nervous system.     

Solution-phase simultaneous addition of functionalities (SPSAF) and chemical transformation to prepare N,N'-disubstituted piperazine libraries

Several piperazine libraries were prepared using solution phase simultaneous addition of functionalities methodology as well as the "library from library" concept. The resulting piperazine libraries displayed antimicrobial activity against both gram-positive and gram-negative bacteria.     

N,N-Dialkylated 4-(4-arylsulfonylpiperazine-1-carbonyl)-benzamidines and 4-((4-arylsulfonyl)-2-oxo-piperazin-1-ylmethyl)-benzamidines as potent factor Xa inhibitors

A class of N,N-dialkylated 4-(4-arylsulfonylpiperazine-1-carbonyl)-benzamidines and 4-((4-arylsulfonyl)-2-oxo-piperazin-1-ylmethyl)-benzamidines has been discovered as potent factor Xa inhibitors with desirable in vitro and in vivo anticoagulant activity, but with low oral bioavailability. The 5-chloroindole and 6-chlorobenzo[b]thiophene groups are optimal as the factor Xa S1 binding elements. The strategy of incorporating a side chain on the piperazine nucleus to enhance binding affinity has been examined.     

Biological evaluation of newly synthesized aryl(thio)carbamoyl derivatives of 1- and 1-(2-aminoethyl)-piperazines

Twelve 1-methyl and acetyl-4-substituted piperazines, evaluated as potential herbicides and plant growth regulators, were synthesized by condensation of 1-methyl-piperazine and 1-[2-(acetylamino)ethyl]-4-acetyl-piperazine with the corresponding aryliso(thio)cyanates. These piperazines, which incorporate a piperazine ring and aryl(thio)carbamoyl groups connected directly or through an ethylene group, are new chemical families of herbicides and cytokinin mimics. Structure–activity relationships for the screened compounds were evaluated and discussed. The greatest herbicidal activity against Triticum aestivum was observed with compounds that contained the three structural elements: piperazine ring, ethylene group and 4-fluorophenylcarbamoyl group. Compounds having a combination of two active moieties–piperazine ring and 4-halogenophenylthiocarbamoyl group, also showed high herbicidal activity against T. aestivum. The compound, in which the un-substituted phenylcarbamoyl group was directly connected to the piperazine ring, showed cytokinin-like activity and significantly stimulated betacyanin synthesis in Amaranthus caudatus.     

Fermentative Production of Piperazinium Dilactate

In order to test whether piperazinium dilactate can be produced by fermentation in its exact stoichiometric composition without losses of yield, the kinetics of cell growth and lactate production were investigated in the batch cultivation of Lactobacillus paracasei, using piperazine as a neutralizer in pH control. It was found that piperazine dilactate is formed in its stoichiometric composition at about pH 5.0, and lactic acid fermentation occurred with yields of about 90% under these conditions. Piperazine at concentrations less than or equal to 50 g/l did not affect growth and product formation. The presence or absence of piperazine did not produce any significant differences in either the maximum specific growth rate or the maximum specific lactate formation rate when piperazine was present or absent (0.65 h^—1 compared to 0.68 h^—1 and 3.86 g/g × h compared to 3.63 g/g × h, respectively). The Luedeking‐Piuret relationship between the two quantities was also not changed significantly when piperazine was added. To estimate the optimum parameters for cell growth and lactate formation in the presence of piperazine, a factorial experiment was designed and carried out under consideration of the parameter ranges 5.0 ≤ pH ≤ 7.0 and 30 °C ≤ T ≤ 36 °C. In this way, three‐dimensional models of the specific growth rate, the specific lactate formation rate and the lactate yield were obtained.     

Levamisole in the treatment of ascariasis in children

Levamisole (the laevorotatory isomer of tetramisole) is a new synthetic anthelmintic. A cure rate of 91% was obtained in a series of 111 ascariasis-infected children treated with a single oral dose of the drug. The failures, who were treated with the drug a second time one week later, were all cured. In a comparative study of levamisole and piperazine citrate in a series of 100 children with ascariasis a cure rate of 92% and 90% was obtained with a single dose of levamisole and piperazine respectively, indicating equal efficacy. Levamisole is better tolerated than piperazine citrate and is virtually free of toxic effects.