Approaches for multi-gram scale isolation of enantiomers for drug discovery

ABSTRACT Introduction: Over the last 30 years, the scientific community has directed its efforts towards the identification of enantioselective approaches to obtain the desired active enantiomer. Accordingly, efficient production of single enantiomers from small to large scale, throughout Drug Discovery (DD) programs, has become of great interest and a fundamental challenge. Areas covered: This review focuses on two fundamental strategies for preparing enantiomers in high yields and with an excellent enantiomeric excess (ee). Separation of racemates, enantioselective synthesis procedures, and integrated approaches have been extensively reviewed, to offer a guide that enables the selection of the suitable methodology for producing pure enantiomers in scales from small to large. Expert opinion: Over the past two decades, drug regulatory agencies have set strict rules on the use of racemates and pure enantiomers, leading to the transformation of the drug market. Indeed, the number of drugs approved as a single enantiomer has exponentially increased, outclassing the racemic compounds. As a consequence, the academia and pharmaceutical companies are eager to develop efficient procedures for obtaining enantiopure compounds on the desired scale.

[1]  B. Kaptein,et al.  Dutch resolution of racemates and the roles of solid solution formation and nucleation inhibition. , 2007, Topics in current chemistry.

[2]  Calum Morrison,et al.  Pharmaceutical and forensic drug applications of chiral supercritical fluid chromatography , 2014 .

[3]  Sabine Imamoglu,et al.  Simulated moving bed chromatography (SMB) for application in bioseparation. , 2002, Advances in biochemical engineering/biotechnology.

[4]  Gregory Hughes,et al.  Development of an Immobilized Transaminase Capable of Operating in Organic Solvent , 2012 .

[5]  V. Davankov Chiral selectors with chelating properties in liquid chromatography : fundamental reflections and selective review of recent developments , 1994 .

[6]  M. Serra,et al.  Stereoselective Pd-catalyzed synthesis of quaternary α-D-C-mannosyl-(S)-amino acids. , 2011, The Journal of organic chemistry.

[7]  D. Rossi,et al.  Toward the identification of neuroprotective agents: g-scale synthesis, pharmacokinetic evaluation and CNS distribution of (R)-RC-33, a promising SIGMA1 receptor agonist. , 2016, Future medicinal chemistry.

[8]  W. Lindner,et al.  Separation of enantiomers: needs, challenges, perspectives. , 2001, Journal of chromatography. A.

[9]  B. Tullar Optical isomers of mepivacaine and bupivacaine. , 1971, Journal of medicinal chemistry.

[10]  W. Lindner,et al.  Quinine and quinidine derivatives as chiral selectors I. Brush type chiral stationary phases for high-performance liquid chromatography based on cinchonan carbamates and their application as chiral anion exchangers , 1996 .

[11]  Tong Zhang,et al.  Common screening approaches for efficient analytical method development in LC and SFC on columns packed with immobilized polysaccharide-derived chiral stationary phases. , 2013, Methods in molecular biology.

[12]  A. Borghese,et al.  Efficient Fast Screening Methodology for Optical Resolution Agents: Solvent Effects Are Used To Affect the Efficiency of the Resolution Process , 2004 .

[13]  Paul N. Devine,et al.  Biocatalytic Asymmetric Synthesis of Chiral Amines from Ketones Applied to Sitagliptin Manufacture , 2010, Science.

[14]  F. Molinari,et al.  Recent Advances in Lipase-Mediated Preparation of Pharmaceuticals and Their Intermediates , 2015, International journal of molecular sciences.

[15]  G. Subramanian,et al.  Chiral separation techniques : a practical approach , 2001 .

[16]  R. Kellogg,et al.  9.16 Crystallization as a Tool in Industrial Applications of Asymmetric Synthesis , 2012 .

[17]  A. John Blacker,et al.  Catalytic Racemisation of Chiral Amines and Application in Dynamic Kinetic Resolution , 2007 .

[18]  C. Wandrey,et al.  Industrial Biotransformations , 2013 .

[19]  B. Hong,et al.  Asymmetric Synthesis of Natural Products and Medicinal Drugs through One-Pot-Reaction Strategies , 2015, Synthesis.

[20]  T. Ward,et al.  Chiral separations using the macrocyclic antibiotics: a review. , 2001, Journal of chromatography. A.

[21]  Y. Okamoto,et al.  Efficient Separation of Enantiomers Using Stereoregular Chiral Polymers. , 2016, Chemical reviews.

[22]  Feng Xu,et al.  Highly efficient asymmetric synthesis of sitagliptin. , 2009, Journal of the American Chemical Society.

[23]  F. Glorius,et al.  Chiral Auxiliaries — Principles and Recent Applications , 2006 .

[24]  Jean Jacques,et al.  Enantiomers, Racemates, and Resolutions , 1981 .

[25]  J. G. Vries,et al.  Synthesis of (R)-BINOL-Derived (Cyclopentadienone)iron Complexes and Their Application in the Catalytic Asymmetric Hydrogenation of Ketones , 2015 .

[26]  S. C. Taneja,et al.  Synthesis of single-enantiomer bioactive molecules: a brief overview. , 2014, Chirality.

[27]  V. Schurig Preparative-scale separation of enantiomers on chiral stationary phases by gas chromatography , 2004 .

[28]  E. Francotte,et al.  Enantioselective chromatography as a powerful alternative for the preparation of drug enantiomers. , 2001, Journal of chromatography. A.

[29]  A. Alwarthan,et al.  Enantiomeric resolution of multiple chiral centres racemates by capillary electrophoresis. , 2016, Biomedical chromatography : BMC.

[30]  V. Schurig,et al.  Chromatography on chiral stationary phases , 1997 .

[31]  Jinhua J. Song,et al.  Asymmetric synthesis of active pharmaceutical ingredients. , 2006, Chemical reviews.

[32]  D. Rossi,et al.  "Fit-for-purpose" development of analytical and (semi)preparative enantioselective high performance liquid and supercritical fluid chromatography for the access to a novel σ1 receptor agonist. , 2016, Journal of pharmaceutical and biomedical analysis.

[33]  M. Niggemann,et al.  Calcium‐Catalyzed Synthesis of 1,2‐Disubstituted 3‐Benzazepines , 2015 .

[34]  B. S. Sekhon Enantioseparation of Chiral Drugs – An Overview , 2003 .

[35]  Yun Huang,et al.  On the method development of immobilized polysaccharide chiral stationary phases in supercritical fluid chromatography using an extended range of modifiers. , 2014, Journal of chromatography. A.

[36]  Matthew D. Truppo,et al.  Development of an Immobilized Ketoreductase for Enzymatic (R)-1-(3,5-Bis(trifluoromethyl)phenyl)ethanol Production , 2015 .

[37]  Arvind Rajendran,et al.  Simulated moving bed chromatography for the separation of enantiomers. , 2009, Journal of chromatography. A.

[38]  T. Gaich,et al.  Chiral Pool Synthesis: Starting from Terpenes , 2013 .

[39]  E. Francotte Chromatography as a Separation Tool for the Preparative Resolution of Racemic Compounds , 1997 .

[40]  J. Finn,et al.  Broad spectrum resolution of optical isomers using chiral high-performance liquid chromatographic bonded phases , 1980 .

[41]  I. Wainer Drug stereochemistry : analytical methods and pharmacology , 1993 .

[42]  M. Morbidelli,et al.  Simulated moving-bed chromatography and its application to chirotechnology. , 2000, Trends in biotechnology.

[43]  P. Möller,et al.  A new class of network‐polymeric chiral stationary phases , 1995 .

[44]  I. Raheem,et al.  Sustainable practices in medicinal chemistry: current state and future directions. , 2013, Journal of medicinal chemistry.

[45]  Wen-Wen Chen,et al.  Recent advances in rhodium-catalyzed asymmetric synthesis of heterocycles. , 2017, Organic & biomolecular chemistry.

[46]  T. Andersson Single-Isomer Drugs , 2004, Clinical pharmacokinetics.

[47]  Hans-Jürgen Federsel,et al.  Facing chirality in the 21st century: Approaching the challenges in the pharmaceutical industry. , 2003, Chirality.

[48]  K. McIntyre,et al.  Identification and Preclinical Pharmacology of BMS-986104: A Differentiated S1P1 Receptor Modulator in Clinical Trials. , 2016, ACS medicinal chemistry letters.

[49]  Emmanuelle Lipka,et al.  Preparative supercritical fluid chromatography: A powerful tool for chiral separations. , 2016, Journal of chromatography. A.

[50]  M. Civera,et al.  PhthalaPhos: chiral supramolecular ligands for enantioselective rhodium-catalyzed hydrogenation reactions. , 2010, Angewandte Chemie.

[51]  N. Srinivas,et al.  Chiral separation by high performance liquid chromatography. I. Review on indirect separation of enantiomers as diastereomeric derivatives using ultraviolet, fluorescence and electrochemical detection. , 1992, Biomedical chromatography : BMC.

[52]  B. M. Bhawal,et al.  A novel method for resolution of amlodipine , 2010 .

[53]  H. Leek,et al.  Strategy for large-scale isolation of enantiomers in drug discovery. , 2017, Drug discovery today.

[54]  Roswanira Abdul Wahab,et al.  Review; Agriculture and Environmental Biotechnology an Overview of Technologies for Immobilization of Enzymes and Surface Analysis Techniques for Immobilized Enzymes , 2022 .

[55]  Andreas Seidel-Morgenstern,et al.  Processes to separate enantiomers. , 2014, Angewandte Chemie.

[56]  Yongning Wu,et al.  Separation of Chiral Pyrethroid Pesticides and Application in Pharmacokinetics Research and Human Exposure Assessment , 2011 .

[57]  D. Rossi,et al.  Enantioselective chromatography and absolute configuration of N,N-dimethyl-3-(naphthalen-2-yl)-butan-1-amines: potential sigma1 ligands. , 2006, Chirality.

[58]  V. T. Mathad,et al.  Substrate Modification Approach to Achieve Efficient Resolution: Didesmethylcitalopram: A Key Intermediate for Escitalopram# , 2007 .

[59]  Alan Williams,et al.  Opportunities for chiral agrochemicals , 1996 .

[60]  T. Ikai,et al.  Chiral HPLC for efficient resolution of enantiomers. , 2008, Chemical Society reviews.

[61]  I. Carvalho,et al.  Stereoselectivity in drug metabolism: molecular mechanisms and analytical methods. , 2009, Current drug metabolism.

[62]  Jason E. Hein,et al.  Application of Continuous Preferential Crystallization to Efficiently Access Enantiopure Chemicals , 2015 .

[63]  G. Coquerel Preferential crystallization. , 2007, Topics in current chemistry.

[64]  Larry T. Taylor,et al.  Supercritical fluid chromatography for the 21st century , 2009 .

[65]  A. Bhattacharya,et al.  Chiral pool approach for the synthesis of functionalized amino acids: synthesis of antiepileptic drug (R)-lacosamide , 2015 .

[66]  J. Rohonczy,et al.  Pseudosymmetry and chiral discrimination in optical resolution via diastereoisomeric salt formation. The crystal structures of (R)- and (S)-N-methylamphetamine bitartrates (RMERTA and SMERTA) , 1986 .

[67]  L. Giorno,et al.  Pharmaceutical Particles Design by Membrane Emulsification: Preparation Methods and Applications in Drug Delivery. , 2017, Current pharmaceutical design.

[68]  Larry Miller,et al.  Preparative enantioseparations using supercritical fluid chromatography. , 2012, Journal of chromatography. A.

[69]  Ton Vries,et al.  The Family Approach to the Resolution of Racemates . , 1998, Angewandte Chemie.

[70]  T. Gaich,et al.  2.7 Chiral Pool Synthesis: Starting from Terpenes , 2012 .

[71]  J. Caldwell,et al.  Putting chirality to work: the strategy of chiral switches , 2002, Nature Reviews Drug Discovery.

[72]  FDA's policy statement for the development of new stereoisomeric drugs. , 1992, Chirality.

[73]  Michael G. Yang,et al.  Asymmetric Hydroboration Approach to the Scalable Synthesis of ((1R,3S)-1-Amino-3-((R)-6-hexyl-5,6,7,8-tetrahydronaphthalen-2-yl)cyclopentyl)methanol (BMS-986104) as a Potent S1P1 Receptor Modulator. , 2016, Journal of medicinal chemistry.

[74]  G. Lin,et al.  Overview of Chirality and Chiral Drugs , 2011 .

[75]  D. Burke,et al.  Chirality: a blueprint for the future. , 2002, British journal of anaesthesia.

[76]  D. Kozma CRC handbook of optical resolutions via diastereomeric salt formation , 2001 .

[77]  S. Zeng,et al.  Significance and challenges of stereoselectivity assessing methods in drug metabolism , 2015, Journal of pharmaceutical analysis.

[78]  T. Hirose,et al.  Resolution of β-aminoalcohols and 1,2-diamines using fractional crystallization of diastereomeric salts of dehydroabietic acid , 2003 .

[79]  D. Rossi,et al.  Quick development of an analytical enantioselective high performance liquid chromatography separation and preparative scale-up for the flavonoid Naringenin. , 2011, Journal of chromatography. A.

[80]  S. Laufer,et al.  Chiral sulfoxides as metabolites of 2-thioimidazole-based p38α mitogen-activated protein kinase inhibitors: enantioselective synthesis and biological evaluation. , 2011, Journal of medicinal chemistry.

[81]  D. Conlon,et al.  A Partial Classical Resolution/Preparative Chiral Supercritical Fluid Chromatography Method for the Rapid Preparation of the Pivotal Intermediate in the Synthesis of Two Nonsteroidal Glucocorticoid Receptor Modulators , 2016 .

[82]  Ying‐Chun Chen,et al.  Switchable divergent asymmetric synthesis via organocatalysis. , 2017, Chemical Society reviews.

[83]  Gregory L. Finch,et al.  Use of Enzymes in the Manufacture of Active Pharmaceutical Ingredients—A Science and Safety-Based Approach To Ensure Patient Safety and Drug Quality , 2012 .

[84]  R. Sheldon,et al.  Fully Enzymatic Resolution of Chiral Amines: Acylation and Deacylation in the Presence of Candida antarctica Lipase B , 2008 .

[85]  E. Novellino,et al.  Enantiomeric 4-Acylamino-6-alkyloxy-2 Alkylthiopyrimidines As Potential A3 Adenosine Receptor Antagonists: HPLC Chiral Resolution and Absolute Configuration Assignment by a Full Set of Chiroptical Spectroscopy. , 2016, Chirality.

[86]  M. Owens,et al.  Stereochemistry in Drug Action. , 2003, Primary care companion to the Journal of clinical psychiatry.

[87]  B. Hong,et al.  Asymmetric Synthesis of Natural Products and Medicinal Drugs through One-Pot-Reaction Strategies , 2015 .

[88]  Christian Wandrey,et al.  Industrial Biotransformations: LIESE: INDUSTRIAL BIOTRANSFORMATIONS O-BK , 2006 .

[89]  B. Trost,et al.  Asymmetric Transition Metal-Catalyzed Allylic Alkylations. , 1996, Chemical reviews.

[90]  J. Haginaka Protein-based chiral stationary phases for high-performance liquid chromatography enantioseparations. , 2001, Journal of chromatography. A.

[91]  C. Welch 9.06 The Use of Preparative Chiral Chromatography for Accessing Enantiopurity in Pharmaceutical Discovery and Development , 2014 .

[92]  Achim Kienle,et al.  Design of an Integrated Process of Chromatography, Crystallization and Racemization for the Resolution of 2′,6′-Pipecoloxylidide (PPX) , 2012 .