Synthesis and in vitro affinities of various MDL 100907 derivatives as potential 18F-radioligands for 5-HT2A receptor imaging with PET

Radiolabelled piperidine derivatives such as [¹¹C]MDL 100907 and [¹⁸F]altanserin have played an important role in diagnosing malfunction in the serotonergic neurotransmission. A variety of novel piperidine MDL 100907 derivatives, possible to label with ¹⁸F-fluorine, were synthesized to improve molecular imaging properties of [¹¹C]MDL 100907. Their in vitro affinities to a broad spectrum of neuroreceptors and their lipophilicities were determined and compared to the clinically used reference compounds MDL 100907 and altanserin. The novel compounds MA-1 (53) and (R)-MH.MZ (56) show K_i-values in the nanomolar range towards the 5-HT_2A receptor and insignificant binding to other 5-HT receptor subtypes or receptors. Interestingly, compounds MA-1 (53), MH.MZ (55) and (R)-MH.MZ (56) provide a receptor selectivity profile similar to MDL 100907. These compounds could possibly be preferable antagonistic ¹⁸F-tracers for visualization of the 5-HT_2A receptor status. Medium affine compounds (VK-1 (32), (51), (52), (54)) were synthesized and have K_i values between 30 and 120 nM. All promising compounds show log P values between 2 and 3, that is, within the range of those for the established radiotracers altanserin and MDL 100907. The novel compounds MA-1 (53) and (R)-MH.MZ (56) thus appear to be promising high affine and selective tracers of ¹⁸F-labelled analogues for 5-HT_2A imaging with PET.     

A new method for enantiomer enrichment: Distillation to separate the free and complexed enantiomers after partial salt formation

A new method is described for the enrichment of enantiomeric mixtures having an enantiomeric ratio other than 1:1. The method is based on partial salt formation of the enantiomeric mixture with an achiral substance followed by the distillation of the free enantiomer. The distillate has a different enantiomeric composition than the starting mixture. The method was performed on enantiomeric mixtures of α-phenylethylamine using four different dicarboxilic acids. © 1995 Wiley-Liss, Inc.     

Enhanced 5-HT<Subscript>2A</Subscript> Receptor Status in the Hypothalamus and Corpus Striatum of Ethanol-Treated Rats

Aim Brain is the major target for the actions of ethanol and it can affect the brain in a variety of ways. In the present study we have investigated the changes in 5-HT level and the 5-HT_2A receptors in the ethanol-treated rats. Methods Wistar adult male rats of 180–200 g body weight were given free access to 15% (v/v) (approx.7.5 g/Kg body wt./day) ethanol for 15 days. Controls were given free access to water for 15 days. Brain 5-HT and its metabolites were assayed by high performance liquid chromatography (HPLC) integrated with an electrochemical detector (ECD) fitted with C-18-CLS-ODS reverse phase column. 5-HT_2A receptor binding assay was done with different concentrations of [³H] MDL 100907. Results The hypothalamic 5-HT content significantly increased (P < 0.001) with a decreased (P < 0.001) 5-HIAA/5-HT turnover in the ethanol-treated rats when compared to control. The corpus striatum 5-HT content significantly decreased (P < 0.01) with increased (P < 0.01) 5-HIAA/5- HT turnovers in the ethanol-treated rats when compared to control. Scatchard analysis of [³H] MDL 100907 against ketanserin in hypothalamus showed a significant increase (P < 0.001) in B_max with a decreased affinity (P < 0.001) in ethanol-treated rats when compared to control. The competition curve for [³H] MDL 100907 against ketanserin fitted one-site model in all the groups with unity as Hill slope value. An increased K_i and log (EC₅₀) value were also observed in ethanol-treated rats when compared to control. Scatchard analysis of [³H] MDL 100907 against ketanserin in the corpus striatum of ethanol-treated rats showed a significant increase (P < 0.001) in B_max and in affinity (P < 0.01) when compared to control. The change in affinity of the receptor protein in both corpus striatum and hypothalamus shows an altered receptor. The competition curve for [³H] MDL 100907 against ketanserin fitted one-site model in all the groups with unity as Hill slope value. There was no significant change in K_i and log (EC ₅₀) value in ethanol-treated rats when compared to control. Conclusion The present study demonstrated the enhanced 5-HT_2A receptor status in hypothalamus and corpus striatum. The ethanol-induced enhanced 5-HT_2A receptors in the hypothalamus and corpus striatum has clinical significance in the better management of ethanol addiction. This will have therapeutic application.     

Dopamine D4-like binding sites labeled by [3H]nemonapride include substantial serotonin 5-HT2A receptors in primate cerebral cortex

Dopamine D4-like binding sites are abundant in human cerebral cortex as detected by [3H]nemonapride. The extremely low density of D4 mRNA in human cerebral cortex is inconsistent with the high amount of D4-like binding sites. To investigate the nature of the D4-like receptors, [3H]nemonapride binding sites in the nonhuman primate cerebral cortex were characterized. Although [3H]nemonapride binding sites were D4-like, displaceable by clozapine but not raclopride, [3H]nemonapride binding was not displaced by selective D4 antagonists but was displaced by the selective 5-HT2A antagonist MDL100907. Using [3H]ketanserin as a 5-HT2A ligand, nemonapride showed high affinity for monkey (Ki = 10.4 nM) and cloned human (Ki = 9.4 nM) 5-HT2A receptors, while its affinity for rat receptors was lower (Ki = 140 nM). The present study demonstrates that cerebral cortical D4-like binding sites labeled by [3H]nemonapride in nonhuman primates consist of a very small portion of D4, but a substantial portion of 5-HT2A receptors. The unexpectedly high affinity of nemonapride for primate 5-HT2A receptor suggests reconsidering previous data from other studies using [3H]nemonapride, particularly those on D4-like receptors.     

Development and validation of a reversed-phase HPLC method for determination of lesatropane and enantiomeric impurity

Lesatropane is a novel muscarinic receptor agonist and is currently being under preclinical development in China as a single enantiomer drug for the treatment of primary glaucoma. A reversed-phase chiral HPLC method for determination of lesatropane and enantiomeric impurity was developed. Enantiomeric separation of lesatropane from its enantiomer (desatropane) was achieved in normal-phase mode with Chiralpak AD-H and in reversed-phase mode with Chiralpak AS-RH. The conditions using a Chiralpak AS-RH column and mobile phase of K(2) HPO(4) -KH(2) PO(4) (pH 7.0; 0.02 M)-acetonitrile (69:31, v/v) at a flow rate of 0.5 ml/min have been fully validated with satisfactory specificity, linearity, accuracy, and precision. The method was found to be suitable for the simultaneous quantitation of lesatropane and enantiomeric impurity desatropane.     

Enhancement of [m-methoxy3H]MDL100907 binding to 5HT2A receptors in cerebral cortex and brain stem of streptozotocin induced diabetic rats

5-Hydroxytryptamine_2A (5-HT_2A) receptor kinetics was studied in cerebral cortex and brain stem of streptozotocin (STZ) induced diabetic rats. Scatchard analysis with [³H] (±) 2,3dimethoxyphenyl-1-[2-(4-piperidine)-methanol] ([³H]MDL100907) in cerebral cortex showed no significant change in maximal binding (B_max) in diabetic rats compared to controls. Dissociation constant (K_d) of diabetic rats showed a significant decrease (p < 0.05) in cerebral cortex, which was reversed to normal by insulin treatment. Competition studies of [³H]MDL100907 binding in cerebral cortex with ketanserin showed the appearance of an additional low affinity site for 5-HT_2A receptors in diabetic state, which was reversed to control pattern by insulin treatment. In brain stem, scatchard analysis showed a significant increase (p < 0.05) in B_max accompanied by a significant increase (p < 0.05) in K_d. Competition analysis in brain stem also showed a shift in affinity towards a low affinity State for 5-HT_2A receptors. All these parameters were reversed to control level by insulin treatment. These results show that in cerebral cortex there is an increase in affinity of 5-HT_2A receptors without any change in its number and in the case of brain stem there is an increase in number of 5HT_2A receptors accompanied by a decrease in its affinity during diabetes. Thus, from the results we suggest that the increase in affinity of 5-HT_2A receptors in cerebral cortex and upregulation of 5-HT_2A receptors in brain stem may lead to altered neuronal function in diabetes.     

Evaluation of (R)-(-)-α-methoxy phenyl acetic acid as a chiral shift reagent for resolution and determination of R and S enantiomers of modafinil in bulk drugs and formulations by 1H NMR spectroscopy

(R)-(-)-α-Methoxy phenyl acetic acid, (S)-(-)-1,1'-(2-naphthol), and (R)-(+)-α-methoxy-α-trifluoromethyl phenyl acetic acid were evaluated as chiral shift reagents (CSRs) for (1)H NMR spectroscopic resolution and determination of R and S enantiomers of modafinil (MDL) in bulk drugs and formulations. Effects of the nature of CSR and the weight ratio of substrate to shift reagent on enantiomeric discrimination were investigated. Intramolecular and intermolecular hydrogen bonding interactions between the drug and the CSR seem to be the driving force for desired resolution. A mechanism was proposed to explain the interactions between (R, S)-enantiomers of MDL and (R)-(-)-α-methoxy phenyl acetic acid. The method was validated and applied successfully to determine the enantiomeric purity of MDL in tablet formulations.     

Stereospecific effects of benzo[d]isothiazolyloxypropanolamine derivatives at beta-adrenoceptors: synthesis, chiral resolution, and biological activity in vitro

We performed the asymmetric synthesis of four enantiopure benzo[d] isothiazo-3-or 5-yloxypropanolamine derivatives, previously described as competitive antagonists at beta-adrenoceptors. The chemical characterization of each enantiomer was accomplished by (1)H NMR and HPLC/DAD/CD. The direct chromatographic separation of the enantiomers via chiral HPLC was investigated. The best resolutions were achieved using cellulose tris (3,5-dimethylphenyl carbamate) (Chiralcel OD-H) and amylose tris (3,5-dimethylphenyl carbamate) (Chiralpak AD). The enantiomers obtained had enantiomeric purities suitable for biological assays. Tested in isolated rat cardiac and intestinal tissues to evaluate their effects at beta(1)- and beta(3)-adrenoceptors, the (S)-enantiomers revealed a higher degree of antagonism than (R)-enantiomers at both subtypes, even though their activity was greater at the cardiac beta(1)-subtype. The potent and cardiospecific antagonistic effect exerted by the compounds tested suggests that the benzisothiazole moiety could be an interesting scaffold for discovering new chiral beta-blocking drugs.     

Synthesis and biological evaluation of enantiomerically pure cyclopropyl analogues of combretastatin A4

To evaluate the influence of stereochemistry on biological activities of cis-cyclopropyl combretastatin A4 (CA4) analogues, we have prepared several cyclopropyl compounds in their pure enantiomeric forms. The key reactions in our synthesis are the cyclopropanation of a (Z)-alkenylboron compound bearing a chiral auxiliary, and the cross-coupling of both enantiomeric cyclopropyl trifluoroborate salts with aryl and olefinic halides. Three pairs of cis-cyclopropyl CA4 analogues were evaluated for their potential antivascular activities. The diarylcyclopropyl compounds with SR-configuration (?)-1b, (?)-2b and the cyclopropylvinyl enantiomer (+)-3a with RR-configuration were the most potent tubulin polymerization inhibitors. A correlation was noted between anti-tubulin activity and rounding up activity of endothelial cells. The cytotoxic activity on B16 melanoma cells was in the submicromolar range for most compounds, but unlike the anti-tubulin activity, there was no difference in cytotoxic activity between racemic and enantiomerically pure forms for the three series of compounds. Molecular docking studies within the colchicine binding site of tubulin were in good agreement with the tubulin polymerization inhibitory data and confirmed the importance of the configuration of the synthesized cis-cyclopropyl CA4 analogues for potential antivascular activities.     

Substrate specificity of an esterase from the archaeon Sulfolobus tokodaii bearing a GGG(A)X motif

A GGG(A)X-type esterase (Est0071) from an archaeon catalyzes asymmetric hydrolysis of prochiral bulky malonic diesters in good enantioselectivity. The selectivity of Est0071 was for the opposite enantiomer to that previously shown for pig liver esterase, and the resulting enantiomeric excess of the products was higher. Est0071 could also catalyze the hydrolysis of various acetates of secondary alcohols, and showed moderate enantioselectivity in these reactions.     

Notable difference in anti-HIV activity of integrase inhibitors as a consequence of geometric and enantiomeric configurations

While some examples are known of integrase inhibitors that exhibit potent anti-HIV activity, there are very few cases reported of integrase inhibitors that show significant differences in anti-HIV activity that result from distinctions in cis- and trans-configurations as well as enantiomeric stereostructure. We describe here the design and synthesis of two enantiomeric trans-hydroxycyclopentyl carboxamides which exhibit notable difference in anti-HIV activity. This difference is explained through their binding interactions within the active site of the HIV-1 integrase intasome. The more active enantiomer 3 (EC₅₀ 25 nM) was relatively stable in human liver microsomes. Kinetic data revealed that its impact on key cytochrome P450 isozymes, as either an inhibitor or an activator, was minor, suggesting a favorable CYP profile.     

Lack of enantiomeric specificity in the effects of anesthetic steroids on lipid bilayers

The most important target protein for many anesthetics, including volatile and steroid anesthetics, appears to be the type A gamma-amino butyric acid receptor (GABA(A)R), yet direct binding remains to be demonstrated. Hypotheses of lipid-mediated anesthesia suggest that lipid bilayer properties are changed by anesthetics and that this in turn affects the functions of proteins. While other data could equally well support direct or lipid-mediated action, enantiomeric specificity displayed by some anesthetics is not reflected in their interactions with lipids. In the present study, we studied the effects of two pairs of anesthetic steroid enantiomers on bilayers of several compositions, measuring potentially relevant physical properties. For one of the pairs, allopregnanolone and ent-allopregnanolone, the natural enantiomer is 300% more efficacious as an anesthetic, while for the other, pregnanolone and ent-pregnanolone, there is little difference in anesthetic potency. For each enantiomer pair, we could find no differences. This strongly favors the view that the effects of these anesthetics on lipid bilayers are not relevant for the main features of anesthesia. These steroids also provide tools to distinguish in general the direct binding of steroids to proteins from lipid-mediated effects.     

Exploration of the expeditious potential of Pseudomonas fluorescens lipase in the kinetic resolution of racemic intermediates and its validation through molecular docking

A profoundly time‐efficient chemoenzymatic method for the synthesis of (S)‐3‐(4‐chlorophenoxy)propan‐1,2‐diol and (S)‐1‐chloro‐3‐(2,5‐dichlorophenoxy)propan‐2‐ol, two important pharmaceutical intermediates, was successfully developed using Pseudomonas fluorescens lipase (PFL). Kinetic resolution was successfully achieved using vinyl acetate as acylating agent, toluene/hexane as solvent, and reaction temperature of 30°C giving high enantioselectivity and conversion. Under optimized condition, PFL demonstrated 50.2% conversion, enantiomeric excess of 95.0%, enantioselectivity (E = 153) in an optimum time of 1 hour and 50.3% conversion, enantiomeric excess of 95.2%, enantioselectivity (E = 161) in an optimum time of 3 hours, for the two racemic alcohols, respectively. Docking of the R‐ and S‐enantiomers of the intermediates demonstrated stronger H‐bond interaction between the hydroxyl group of the R‐enantiomer and the key binding residues of the catalytic site of the lipase, while the S‐enantiomer demonstrated lesser interaction. Thus, docking study complemented the experimental outcome that PFL preferentially acylated the R form of the intermediates. The present study demonstrates a cost‐effective and expeditious biocatalytic process that can be applied in the enantiopure synthesis of pharmaceutical intermediates and drugs.     

Enantiomeric assay of escitalopram S(+)‐enantiomer and its “in‐process impurities” using two different techniques

The enantiomeric purity of escitalopram oxalate ESC and its “in‐process impurities,” namely, ESC‐N‐oxide, ESC‐citadiol, and R(?)‐enantiomer were studied in drug substance and products using high‐performance liquid chromatography (HPLC)‐UV (Method I), synchronous fluorescence spectroscopy (SFS) (Method IIA), and first derivative SFS (Method IIB). Method I describes as an isocratic HPLC‐UV for the direct resolution and determination of enantiomeric purity of ESC and its “in‐process impurities.” The proposed method involved the use of α_l‐acid glycoprotein (AGP) chiral stationary phase. The regression plots revealed good linear relationships of concentration range of 0.25 to 100 and 0.25 to 10 μg mL^?1 for ESC and its impurities. The limits of detection and quantifications for ESC were 0.075 and 0.235 μg mL^?1, respectively. Method II involves the significant enhancement of the fluorescence intensities of ESC and its impurities through inclusion complexes formation with hydroxyl propyl‐β‐cyclodextrin as a chiral selector in Micliavain buffer. Method IIA describes SFS technique for assay of ESC at 225 nm in presence of its impurities: R(?)‐enantiomer, citadiol, and N‐oxide at ?λ of 100 nm. This method was extended to (Method IIB) to apply first derivative SFS for the simultaneous determination of ESC at 236 nm and its impurities: the R(?)‐enantiomer, citadiol, and N‐oxide at 308, 275, and 280 nm, respectively. Linearity ranges were found to be 0.01 to 1.0 μg mL^?1 for ESC and its impurities with lower detection and quantification limits of 0.033/0.011 and 0.038/0.013 μg mL^?1 for SFS and first derivative synchronous fluorescence spectra (FDSFS), respectively. The methods were used to investigate the enantiomeric purity of escitalopram.     

Distribution of enantiomers of volatile organic compounds in selected fruit distillates

The enantiomer ratios of chiral volatile organic compounds in fruit distillates were determined by multidimensional gas chromatography using solid‐phase microextraction (SPME) as a sample treatment procedure. Linalool and its oxides, limonene, α‐terpineol, and nerolidol, were present at the highest concentration levels, while significantly lower amounts of β‐citronellol and lactones were found in the studied samples. However, almost all terpenoids mainly occur as a racemic or near‐racemic mixture; enantiomer distribution of some chiral organic compounds in fruit distillates correlated to a botanical origin. In particular, a significant enantiomeric excess of (R)‐linalool and (S)‐α‐terpineol was found only for pear brandy, and likewise the dominance (R)‐limonene and the second eluted enantiomer of nerolidol for Sorbus domestica and strawberry, respectively. The distribution of γ‐lactones stereoisomers was more nonspecific, with a general excess of the R‐enantiomer.     

Simultaneous LC/ESI‐MS Separation Method for the Enantioseparation of Some New Anticonvulsant Drugs

A sensitive and specific method for the simultaneous determination of the enantiomeric purity of 2,6‐dimethylphenoxyacetyl derivatives as trans or cis racemic and enantiomeric forms with 2‐ or 4‐aminocyclohexanol moiety ( 1 , 2 , 3 , 6 ) and their amine analogs ( 8 , 9 ) was developed. The compounds studied are known for their anticonvulsant activity and the most interesting pharmacological results were those for (±)‐trans‐2‐(2,6‐dimethylphenoxy)‐N‐(2‐hydroxycyclohexyl)acetamide ( 1 ) as well as (±)‐trans‐2‐[(2,6‐dimethylphenoxy)ethyl]aminocyclohexanol ( 8 ). The analytical method for determining the enantiomeric purity of the compounds studied is based on direct separation of the analytes using a chiral stationary phase (Chiralpak AS column). The mass spectrometric analysis was done on a coupled liquid chromatograph–mass spectrometer system with an electrospray ionization source (LC/ESI‐MS). For the compounds 1 , 8 , and 9 , the method allows an excellent separation of enantiomers, with a resolution higher than 3.2, and a tailing factor of less than 1.67 with a final enantiomer purity better than 97.5%. Chirality 26:144–149, 2014. © 2014 Wiley Periodicals, Inc.     

Parity violation and the origins of biomolecular handedness

The violation of parity by the weak interactions ensures that enantiomeric chiral molecules have inequivalent energies, one being inherently stabilized with respect to the other. These parity-violating energy differences have been calculated for a number of fundamental biomolecules including a series of alpha-amino acids, polypeptide structures, and a representative of the sugar series together with its variation over a possible prebiotic reaction path leading to alpha-amino acids. In each case the natural enantiomer found in terrestrial biochemistry was shown to be intrinsically stabilized and preferred over its unnatural enantiomer. The significance of these results in accounting for the prebiotic origins of the terrestrial biomolecular homochirality is discussed and the possible consequences of parity-violating energy differences in mineral catalysts during the prebiotic era considered.     

Enantiomer self-disproportionation and chiral stationary phase based selective chiral separation of organic compounds

In modern chromatography, chiral stationary phase (CSP) and enantiomer self-disproportionation (ESD) are new inventions of packing material offer a guarantee for a successful enantiomeric separation. All CSPs were synthesized by chemical bonding of the relevant organic moieties onto a porous parent silica material for the separation of various racemic mixtures whereas achiral silica matrix was used for separation of non-racemic mixtures in ESD. Our present study provides to establish an understanding on the entire enantio-selective profile of amino alcohol based CSP as well as ESD and their precise utilization for high success rates for selective enantiomer separation with its appropriateness.     

Determination of enantiomeric excess for 2,3-dihydroxy-3-phenylpropionate compounds by capillary electrophoresis using hydroxypropyl-beta-cyclodextrin as chiral selector

A new capillary zone electrophoresis (CZE) method was developed to separate three chiral 2,3-dihydroxy-3-phenylpropionate enantiomers using neutral hydroxypropyl-beta-CD (HP-beta-CD) as chiral selector and borate as background electrolyte. The results showed that HP-beta-CD exhibited good enantioselectivity and high resolution was achieved under the optimum condition of pH 10.3, 200 mM borate buffer containing 6% methanol and 50 mM HP-beta-CD at 15 kV and 20 degrees C within 16 min. The precision of the method was <0.9% for migration time and 4.5% for corrected peak area. In addition, the developed method was successfully applied to the determination of enantiomeric excess (ee) of synthetic 2,3-dihydroxy-3-phenylpropionate samples. With this method, low as 0.2% impurity of the undesirable enantiomer in the presence of high amount of target enantiomer was determined. The results demonstrated that the proposed CZE method is a simple and useful technique and is applicable to ee assay of 2,3-dihydroxy-3-phenylpropionate enantiomers.     

Chemoenzymatic Route for the Synthesis of (S)‐Moprolol,a Potential β‐Blocker

A biocatalytic route for the synthesis of a potential β‐blocker, (S)‐moprolol is reported here. Enantiopure synthesis of moprolol is mainly dependent on the chiral intermediate, 3‐(2‐methoxyphenoxy)‐propane‐1,2‐diol. Various commercial lipases were screened for the enantioselective resolution of (RS)‐3‐(2‐methoxyphenoxy)propane‐1,2‐diol to produce the desired enantiomer. Among them, Aspergillus niger lipase (ANL) was selected on the basis of both stereo‐ and regioselectivity. The optimized values of various reaction parameters were determined such as enzyme (15 mg/mL), substrate concentration (10 mM), organic solvent (toluene), reaction temperature (30 °C), and time (18 h).The optimized conditions led to achieving >49% yield with high enantiomeric excess of (S)‐3‐(2‐methoxyphenoxy)propane‐1,2‐diol. The lipase‐mediated catalysis showed regioselective acylation with dual stereoselectivity. Further, the enantiopure intermediate was used for the synthesis of (S)‐moprolol, which afforded the desired β‐blocker. Chirality 28:313–318, 2016. © 2016 Wiley Periodicals, Inc.