Lipase Assisted (S)-Ketoprofen Resolution from Commercially Available Racemic Mixture.

Ketoprofen is a commercially available drug sold as a racemic mixture that belongs to the family of non-steroidal anti-inflammatory drugs known as profens. It has been demonstrated (in vitro) that (S)-ketoprofen is around 160 times more potent than its enantiomer (R)-ketoprofen, while accumulation of (R)-ketoprofen can cause serious side effects, such as dyspepsia, gastrointestinal ulceration/bleeding, pain, salt and fluid retention, and hypertension. In this work, four commercially available lipases were systematically assessed. Parameters such as conversion, enantiomeric excess, and enantioselectivity were considered. Among them, and by evaluating lipase load, temperature, solvent, and alcohol, Candida rugosa lipase exhibited the best results in terms of enantioselectivity E = 185 ((S)-enantiopreference) with esterification conversions of c = 47% (out of 50%) and enantiomeric excess of 99%. The unreacted (R)-enantiomer was recovered by liquid-liquid extraction and racemized under basic media, which was recycled as starting material. Finally, the (S)-alkyl ketoprofen ester was successfully enzymatically hydrolyzed to the desired (S)-ketoprofen with c = 98.5% and 99% ee. This work demonstrated the benefit and efficiency of using Candida rugosa lipase to kinetically resolve racemic ketoprofen by an environmentally friendly protocol and with the recycling of the undesired (R)-ketoprofen.

[Evaluation of the neurotoxic effects of intrathecal administration of (S)-(+)-Ketoprofen on rat spinal cords: randomized controlled experimental study]. / Avaliação dos efeitos neurotóxicos da administração intratecal do (S)­(+)­cetoprofeno em medula espinhal de rato: estudo experimental randômico e controlado.

BACKGROUND AND OBJECTIVES: Intrathecal administration of non-steroidal anti-inflammatory drugs is more efficacious for post-operative pain management. Cyclooxygenase inhibiting non-steroidal anti-inflammatory drugs like (S)-(+)-Ketoprofen, may be effective at lower intrathecal doses than parenteral ones. Preclinical safety regarding possible neurotoxicity associated with the intrathecal (S)-(+)-Ketoprofen was not evaluated. Here we analysed the neurotoxicity of intrathecally administered (S)-(+)-Ketoprofen in rats. METHODS: A randomized placebo-controlled experimental study was conducted. Sprague-Dawley rats (250-300g) aged 12-16 weeks were randomly divided into 2 treatments [100 and 800µg (S)-(+)-Ketoprofen] and control (sterile water) groups. Intrathecal catheters were placed via the atlantoaxial space in anesthetized rats. Pinch-toe tests, motor function evaluations and histopathological examinations of the spinal cord and nerve roots were performed at days 3, 7 and 21. Spinal cord sections were evaluated by light microscopy for the dorsal axonal funiculus vacuolation, axonal myelin loss, neuronal chromatolysis, neuritis, meningeal inflammation, adhesions, and fibrosis. RESULTS: Rats in all the groups exhibited normal pinch-toe testing response (score=0) and normal gait at each observed time (motor function evaluation score=1). Neurotoxicity was higher with treatments on days 3 and 7 than that on day 21 (2, 3, 0, p=0.044; 2, 5, 0, p=0.029, respectively). On day 7, the total scores reflecting neuronal damage were higher in the 800µg group than those in the 100µg and Control Groups (5, 3, 0, p=0.048, respectively). CONCLUSION: Intrathecal (S)-(+)-Ketoprofen caused dose-dependent neurohistopathological changes in rats on days 3 and 7 after injection, suggesting that (S)-(+)-Ketoprofen should not be intrathecally administered.

Evaluation of the neurotoxic effects of intrathecal administration of (S)-(+)-Ketoprofen on rat spinal cords: randomized controlled experimental study / Avaliação dos efeitos neurotóxicos da administração intratecal do (S)-(+)-cetoprofeno em medula espinhal de rato: estudo experimental randômico e controlado

Abstract Background and objectives Intrathecal administration of non-steroidal anti-inflammatory drugs is more efficacious for post-operative pain management. Cyclooxygenase inhibiting non-steroidal anti-inflammatory drugs like (S)-(+)-Ketoprofen, may be effective at lower intrathecal doses than parenteral ones. Preclinical safety regarding possible neurotoxicity associated with the intrathecal (S)-(+)-Ketoprofen was not evaluated. Here we analysed the neurotoxicity of intrathecally administered (S)-(+)-Ketoprofen in rats. Methods A randomized placebo-controlled experimental study was conducted. Sprague-Dawley rats (250-300 g) aged 12-16 weeks were randomly divided into 2 treatments [100 and 800 µg (S)-(+)-Ketoprofen] and control (sterile water) groups. Intrathecal catheters were placed via the atlantoaxial space in anesthetized rats. Pinch-toe tests, motor function evaluations and histopathological examinations of the spinal cord and nerve roots were performed at days 3, 7 and 21. Spinal cord sections were evaluated by light microscopy for the dorsal axonal funiculus vacuolation, axonal myelin loss, neuronal chromatolysis, neuritis, meningeal inflammation, adhesions, and fibrosis. Results Rats in all the groups exhibited normal pinch-toe testing response (score = 0) and normal gait at each observed time (motor function evaluation score = 1). Neurotoxicity was higher with treatments on days 3 and 7 than that on day 21 (2, 3, 0, p = 0.044; 2, 5, 0, p = 0.029, respectively). On day 7, the total scores reflecting neuronal damage were higher in the 800 µg group than those in the 100 µg and Control Groups (5, 3, 0, p = 0.048, respectively). Conclusion Intrathecal (S)-(+)-Ketoprofen caused dose-dependent neurohistopathological changes in rats on days 3 and 7 after injection, suggesting that (S)-(+)-Ketoprofen should not be intrathecally administered.

Resumo Justificativa e objetivos A administração intratecal de anti-inflamatórios não esteroides é mais eficaz no tratamento da dor pós-operatória. Anti-inflamatórios não esteroides, como o (S)-(+)-cetoprofeno, pode ser eficaz em doses intratecais inferiores às parenterais. A segurança pré-clínica relativa à possível neurotoxicidade associada ao (S)-(+)-cetoprofeno intratecal não foi avaliada. Neste estudo avaliamos a neurotoxicidade do (S)-(+)-cetoprofeno administrado por via intratecal em ratos. Métodos Conduzimos um estudo experimental randomizado e controlado por placebo em ratos Sprague-Dawley (250-300 g) com idades entre 12 e 16 semanas. Eles foram randomicamente divididos em dois grupos de tratamento [100 e 800 µg de (S)-(+)-cetoprofeno] e um de controle (água estéril). Cateteres intratecais foram colocados através do espaço atlantoaxial nos ratos anestesiados. Testes de pinça, avaliações da função motora e exames histopatológicos da medula espinhal e das raízes nervosas foram realizados nos dias 3, 7 e 21 do estudo. Os cortes da medula espinhal foram avaliados por microscopia de luz para vacuolização do funículo axonal dorsal, perda de mielina axonal, cromatólise neuronal, neurite, inflamação, aderências e fibrose das meninges. Resultados Em todos os grupos, os ratos exibiram resposta normal ao teste de pinça (pontuação = 0) e marcha normal em cada tempo observado (escore de avaliação da função motora = 1). A neurotoxicidade foi maior com os tratamentos nos dias 3 e 7 do que no dia 21 (2, 3, 0, p = 0,044; 2, 5, 0, p = 0,029, respectivamente). No dia 7, os escores totais refletindo o dano neuronal foram maiores no grupo com 800 µg que nos grupos com 100 µg e controle (5, 3, 0, p = 0,048, respectivamente). Conclusão A administração intratecal de (S)-(+)-cetoprofeno causou alterações neuro-histopatológicas dose-dependentes em ratos nos dias 3 e 7 após a aplicação e sugerindo que o (S)-(+)-cetoprofeno não deve ser administrado por via intratecal.

Pharmacokinetics and Pharmacodynamics of (S)-Ketoprofen Co-Administered with Caffeine: A Preclinical Study in Arthritic Rats.

The purpose of the present study was to determine whether caffeine modifies the pharmacokinetics and pharmacodynamics of (S)-ketoprofen following oral administration in a gout-type pain model. 3.2 mg/kg of (S)-ketoprofen alone and combined with 17.8 mg/kg of caffeine were administered to Wistar rats and plasma levels were determined between 0.5 and 24.0 h. Additionally, antinociception was evaluated based on the protocol of the PIFIR (pain-induced functional impairment in the rat) model before blood sampling between 0.5 and 4.0 h. Significant differences in Cmax, AUC0-24, and AUC0-∞ values were observed with caffeine administration (p < 0.05). Also, significant differences in Emax, Tmax, and AUC0-4 values were determined when comparing the treatments with and without caffeine (p < 0.05). By relating the pharmacokinetic and pharmacodynamic data, a counter-clockwise hysteresis loop was observed regardless of the administration of caffeine. When the relationship between AUCe and AUCp was fitted to the sigmoidal Emax model, a satisfactory correlation was found (R² > 0.99) as well as significant differences in Emax and EC50 values (p < 0.05). With caffeine, Emax and EC50 values changed by 489.5% and 695.4%, respectively. The combination studied represents a convenient alternative for the treatment of pain when considering the advantages offered by using drugs with different mechanisms of action.

Liquid chromatographic enantioseparation of three beta-adrenolytics using new derivatizing reagents synthesized from (S)-ketoprofen and confirmation of configuration of diastereomers.

Diastereomers of racemic ß-adrenolytic drugs [namely (RS)-propranolol, (RS)-metoprolol and (RS)-atenolol] were synthesized under microwave irradiation with (S)-ketoprofen based chiral derivatization reagents (CDRs) newly synthesized for this purpose. (S)-Ketoprofen was chosen for its high molar absorptivity (εo ~ 40,000) and its availability as a pure (S)-enantiomer. Its -COOH group was activated with N-hydroxysuccinimide and N-hydroxybenzotriazole; these were easily introduced and also acted as good leaving groups during nucleophilic substitution by the amino group of the racemic ß-adrenolytics. The CDRs were characterized by UV, IR, 1 H-NMR, HRMS and CHNS. Separation of diastereomers was achieved by RP HPLC and open column chromatography. Absolute configuration of the diastereomers was established with the help of 1 HNMR supported by developing their optimized lowest energy structures using Gaussian 09 Rev. A.02 program and hybrid density functional B3LYP with 6-31G* basis set (based on density functional theory), and elution order was established. RP HPLC conditions for separation were optimized and the separation method was validated. The limit of detection values were 0.308 and 0.302 ng mL-1 . Copyright © 2016 John Wiley & Sons, Ltd.

Pharmacokinetics of the individual enantiomer S-(+)-ketoprofen after intravenous and oral administration in dogs at two dose levels.

The pharmacokinetic of the individual S-(+)-enantiomer of ketoprofen, S-(+)-ketoprofen, after intravenous (IV) and oral (PO) administration was determined in six dogs at 1 and 3 mg/kg. Plasma concentrations were determined by high performance liquid chromatography with ultraviolet detection. The concentration-time curves were analyzed by non-compartmental methods. Steady-state volume of distribution (Vss) and clearance (Cl) of S-(+)-ketoprofen after IV administration were 0.22 ± 0.07 and 0.19 ± 0.03 L/kg, and 0.10 ± 0.02 and 0.09 ± 0.01 L/h/kg, at 1 and 3 mg/kg, respectively. Following PO administration, S-(+)-ketoprofen achieved maximum plasma concentrations of 4.91 ± 0.76 and 12.47 ± 0.62 µg/ml, at two dose levels, respectively. The absolute bioavailability after PO route was 88.66 ± 12.95% and 85.36 ± 13.90%, respectively.

Cloning and Expression of Esterase Gene to Enantioselective Resolution of (S)-Ketoprofen in NK13 / 中国生物工程杂志

A strain NK13 was screened for a certain extent asymmetric hydrolyze the rac-ketoprofen chloroethyl ester and identified as Bacillus megaterium. For the preparation of gene libraries, a positive clones was obtained from the tributyrin flat. The sequence of this esterase gene had been analysised, and contained the whole ORF of an esterase gene with the length of 933bp. The esterase gene of NK13 was compared with the esterase genes of GenBank and the result showed that the esterase gene of NK13 was a novel gene(GenBank accession nember DQ196347).The new esterase gene was inserted into the plasmid pET21b+, then the recombinant plasmid transformed E.coli BL21. After being induced by IPTG, it was expressed in the host strain. SDS-PAGE analysis showed that the relative molecular mass of the esterase was about 34kDa. The result of TLC and HPLC showed that the recombinant strain had higher conversion ration than templet strain. 47.4%of the rac-ketoprofen Chloroethl ester was hydrolyzed to ketoprofen by the recombinant strain in 45min. The (S)- ketoprofen enantiomeric excess, in the later,was 55.46%, which indicated that the esterase could hydrolyze (S)-ketoprofen chloroethyl ester firstly.