Enantiomeric Separation of Racemic 4‐Aryl‐1,4‐Dihydropyridines and 4‐Aryl‐1,2,3,4‐Tetrahydropyrimidines on a Chiral Tetraproline Stationary Phase

Dai, Zhi; Pittman, Charles U.; Li, Tingyu

doi:10.1002/chir.22135

Cited by 3 publications

(3 citation statements)

References 30 publications

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“…Various factors such as drug concentration, pH, ionic concentration, temperature, etc., are responsible for controlling the racemization process . It is a well‐known fact that one of the enantiomers is pharmaceutically active while the other may be inactive or toxic or ballast, leading to various side effects, toxicity, and problems in the human body . US‐FDA, European Committee for Proprietary Medicinal Products, Health Canada, and Pharmaceutical and Medical Devices Agencies of Japan have banned the marketing of all racemic drugs .…”

Section: Introductionmentioning

confidence: 99%

“…4 It is a well-known fact that one of the enantiomers is pharmaceutically active while the other may be inactive or toxic or ballast, leading to various side effects, toxicity, and problems in the human body. 5,6 US-FDA, European Committee for Proprietary Medicinal Products, Health Canada, and Pharmaceutical and Medical Devices Agencies of Japan have banned the marketing of all racemic drugs. [7][8][9] The enantiomeric differences at the pharmacokinetic level are mainly because of stereoselective drugs binding, absorption, clearance, excretion, etc.…”

Section: Introductionmentioning

confidence: 99%

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Enantiomeric Separation and Simulation Studies of Pheniramine, Oxybutynin, Cetirizine, and Brinzolamide Chiral Drugs on Amylose‐Based Columns

et al. 2014

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Solid phase extraction (SPE)-chiral separation of the important drugs pheniramine, oxybutynin, cetirizine, and brinzolamide was achieved on the C18 cartridge and AmyCoat (150 x 46 mm) and Chiralpak AD (25 cm x 0.46 cm id) chiral columns in human plasma. Pheniramine, oxybutynin, cetirizine, and brinzolamide were resolved using n-hexane-2-PrOH-DEA (85:15:0.1, v/v), n-hexane-2-PrOH-DEA (80:20:0.1, v/v), n-hexane-2-PrOH-DEA (70:30:0.2, v/v), and n-hexane-2-propanol (90:10, v/v) as mobile phases. The separation was carried out at 25 ± 1 ºC temperature with detection at 225 nm for cetirizine and oxybutynin and 220 nm for pheniramine and brinzolamide. The flow rates of the mobile phases were 0.5 mL min(-1). The retention factors of pheniramine, oxybutynin, cetirizine and brinzolamide were 3.25 and 4.34, 4.76 and 5.64, 6.10 and 6.60, and 1.64 and 2.01, respectively. The separation factors of these drugs were 1.33, 1.18, 1.09 and 1.20 while their resolutions factors were 1.09, 1.45, 1.63 and 1.25, and 1.15, respectively. The absolute configurations of the eluted enantiomers of the reported drugs were determined by simulation studies. It was observed that the order of enantiomers elution of the reported drugs was S-pheniramine > R-pheniramine; R-oxybutynin > S-oxybutynin; S-cetirizine > R-cetirizine; and S-brinzolamide > R-brinzolamide. The mechanism of separation was also determined at the supramolecular level by considering interactions and modeling results. The reported SPE-chiral high-performance liquid chromatography (HPLC) methods are suitable for the enantiomeric analyses of these drugs in any biological sample. In addition, simulation studies may be used to determine the absolute configuration of the first and second eluted enantiomers.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Enantiomeric Separation and Simulation Studies of Pheniramine, Oxybutynin, Cetirizine, and Brinzolamide Chiral Drugs on Amylose‐Based Columns

et al. 2014

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“…[2][3][4][5] The chiral separation of nonoxazolidinone samples has been previously reported. [6][7][8][9][10][11][12][13][14] Separation of DUP-105, ZTR-5, and 3-amino-2-oxazolidinone derivatives was performed on polysaccharide columns; 4,5,15 4-benzyl-2-oxazolidinone, 5,5-dimethyl-4-phenyl-2-oxazolidinone, 4-benzyl-5,5-dimethyl-2-oxazolidinone, 4-diphenylmethyl-2-oxazolidinone, cis-4,5-diphenyl-2-oxazolidinone, 4-methyl-5-phenyl-2-oxazolidinone, and 4-benzyl-3-propionyl-2-oxazolidinone were resolved on glycopeptide columns; 16,17…”

mentioning

confidence: 99%

Liquid Chromatographic Resolution of Racemic 2‐Oxazolidinones and their Analogs on Seven Pirkle‐Type Chiral Stationary Phases

Hyun

Armstrong

et al. 2015

Bulletin Korean Chem Soc

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Novel monastrol/melatonin hybrids as a new approach for colorectal cancer intervention: design, synthesis, biological activity, and drug-likeness modeling studies

Preciado-A,

Yepes,

Herrera-R

et al. 2024

Med Chem Res

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Considering the important increase in the incidence and mortality of colorectal cancer, it is necessary to develop new strategies in the search for new alternatives against this disease. Hence, we designed and synthesized a new series of monastrol/melatonin hybrids and evaluated them in vitro and in silico to determine the potential of these new chemical entities on this type of cancer. To achieve this goal, the different compounds were evaluated in human colorectal adenocarcinoma cells SW480, while establishing the selective potential of the hybrids through the nonmalignant human colon mucosal epithelial cell line (NCM460). According to the results, hybrids 6a, 6c, 6i, and 6j displayed the best response, with IC50 values in the range of 5.2 and 6.3 μM, inducing important changes depending on concentration and time. In addition, these compounds were extremely active in comparison to the single molecules, and they were slightly more selective than the reference drug (5 fluorouracil, 5-FU). Besides, an optimal pharmacokinetic and toxicological profile was also estimated for hybrids 6a, 6c, 6i, and 6j. Altogether, novel hybrids of monastrol-MLT, in particular, 6a (-H), 6c (3-OMe), 6i (3,4-OMe), and 6j (3,5-OMe) could be addressed as starting points for further pharmacological studies concerning to combat colorectal cancer.

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Enantiomeric Separation of Racemic 4‐Aryl‐1,4‐Dihydropyridines and 4‐Aryl‐1,2,3,4‐Tetrahydropyrimidines on a Chiral Tetraproline Stationary Phase

Cited by 3 publications

References 30 publications

Enantiomeric Separation and Simulation Studies of Pheniramine, Oxybutynin, Cetirizine, and Brinzolamide Chiral Drugs on Amylose‐Based Columns

Enantiomeric Separation and Simulation Studies of Pheniramine, Oxybutynin, Cetirizine, and Brinzolamide Chiral Drugs on Amylose‐Based Columns

Liquid Chromatographic Resolution of Racemic 2‐Oxazolidinones and their Analogs on Seven Pirkle‐Type Chiral Stationary Phases

Novel monastrol/melatonin hybrids as a new approach for colorectal cancer intervention: design, synthesis, biological activity, and drug-likeness modeling studies

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