El rol de la catálisis ha sido vital en el desarrollo industrial y económico de la sociedad. En química, la catálisis es especialmente útil para acelerar las velocidades de reacción, reducir el gasto energético y mejorar los rendimientos experimentales. En el campo de la síntesis orgánica, el desarrollo de catalizadores que promueven reacciones con productos enantiopuros o enantio-enriquecidos es de vital interés en la producción de fármacos y agroquímicos. De hecho, el 60% de los fármacos comerciales presentan al menos un centro estereogénico y se administran como enan-tiómeros puros o racematos; sin embargo, la demanda de sustancias puras ópticamente activas ha aumentado en las últimas décadas debido a las marcadas diferencias en los perfiles farmacológicos, farmacocinéticos y de toxicidad de los enantiómeros de un fármaco, lo cual hace necesario obtener productos enantioméricamente puros para ofrecer tratamientos más seguros. Por ello, en 2021 Benjamin List y David MacMillan fueron merecedores del premio Nobel de Química por sus investigaciones en órgano-catálisis asimétrica, considerando sus aportes como la base del desa-rrollo de catalizadores orgánicos de bajo peso molecular, que inducen enantioselectividad y que representan una op-ción versátil y ecoamigable en la síntesis de compuestos enantio-enriquecidos. En esta revisión se buscó listar los aportes y avances en órgano-catálisis en países latinoamericanos, destacando las publicaciones más recientes sobre el uso de órgano-catalizadores derivados de prolina, treonina, tiourea y escuaramidas, entre otros, para la obtención de una variedad de compuestos orgánicos complejos biológicamente activos como tetrahidrocarbazoles, aziridinas y chalconas, así como en la síntesis de núcleos de interés farmacéutico como cromeno, piperidina e hidroquinolina. Además, se resaltan sus aplicaciones en la optimización de reacciones estéreo-específicas como adiciones de Michael, Diels-Alder, condensaciones aldólicas y síntesis peptídicas. Los avances en esta área demuestran el potencial de Amé-rica Latina en la investigación en síntesis asimétrica, estudios de reactividad y descubrimiento de fármacos.

Recibido: 18/03/2022
Aceptado: 01/04/2022

J Hagen. Industrial Catalysis: A Practical Approach. John Wiley and Sons (2015).

A Calcaterra, I D’Acquarica. The market of chiral drugs: Chiral switches versus de novo enantiomerically pure compounds. J. Pharm. Biom. Anal., 147, 323–340 (2018).

MM Coelho, C Fernandes, F Remião, ME Tiritan. Enantio-selectivity in Drug Pharmacokinetics and Toxicity: Pharma-cological Relevance and Analytical Methods. Molecules, 26(11), 3113- (2021).

ZA Al-Othman, A Al-Warthan, SD Alam, I Ali. Enantio-separation of drugs with multiple chiral centers by chromatogra-phy and capillary electrophoresis. Biomedical Chromatogra-phy, 28, 1514–1524 (2014).

M Arroyo, C Acebal, I de la Mata. Biocatálisis y Biotecnología. Arbor, 190(768), a156 (2014).

AS Bommarius. Biocatalysis: A Status Report. Annual Review of Chemical and Biomolecular Engineering, 6, 319–345 (2015).

JO Guevara-Pulido, J Caicedo, F David, M Vela, J González. Catálisis asimétrica, una nueva era en la síntesis de fármacos: historia y evolución. Revista Facultad de Ciencias Básicas, 13, 105–116 (2017).

E Juaristi, E. Organocatalizadores quirales y su aplicación en síntesis asimétrica. Educación Química, 22, 12–14 (2011).

PWN van Leeuwen, JC Chadwick. Homogeneous Catalysts. Activity—Stability—Deactivation. Angewandte Chemie Interna-tional Edition 51, 1518 (2012).

B List, RA Lerner, CF Barbas. Proline-Catalyzed Direct Asymmetric Aldol Reactions. J. Am. Chem. Soc., 122, 2395–2396 (2000).

KA Ahrendt, CJ Borths, DW MacMillan. New Strategies for Organic Catalysis: The First Highly Enantioselective Organo-catalytic Diels-Alder Reaction. J. Ame. Chem. Soc., 122, 4243–4244 (2000).

Nobel Prize Outreach AB. The Nobel Prize in Chemistry 2021.https://www.nobelprize.org/prizes/chemistry/2021/summary/.

A Vega-Peñaloza, O Sánchez-Antonio, CG Ávila-Ortiz, M Escudero-Casao, E Juaristi. An alternative synthesis of chiral (s)-proline derivatives that contain a thiohydantoin moiety and their application as organo-catalysts in the asymmetric michael addition reaction under solvent-free conditions. Asian J. Org. Chem., 3, 487–496 (2014).

B Gür, Z Karagölge. Sustainable Chemistry: Green Chemistry. J. Inst. Sci. Technol., 6, 89–89 (2016).

G Reyes-Rangel, J Vargas-Caporali, E Juaristi. Asymmetric Michael addition reaction organocatalyzed by stereoisomeric pyrrolidine sulfinamides under neat conditions. A brief study of self-disproportionation of enantiomers. Tetrahedron, 73, 4707–4718 (2017).

FA David Rodriguez, M Maldonado Villamil, J Guevara-Pulido. Organocatalytic Cascade Reaction of Aliphatic Enals and Benzoylnitromethane: Synthesis of Enantioenriched Tetrasubsti-tuted Cyclohexene Carbaldehyde. J. Chem., 2020, 33–35 (2020).

CR da Silva, I Chatterjee, E Escudero-Adán, M WeberPaixão, P Melchiorre. Synthesis of cyclopropane spirooxindoles by means of a vinylogous organocatalytic cascade. Asian J. Org. Chem., 3, 466–469 (2014).

R Echemendía, AF de La Torre, JL Monteiro, M Pila, AG Corrêa, B Westermann, et al. Highly stereoselective synthesis of natural-product-like hybrids by an organocatalytic/multicomponent reaction sequence. Angew. Chemie - Int. Ed., 54, 7621–7625 (2015).

AF De La Torre, DG Rivera, O Concepcion, R Echemendia, AG Correa, MW Paixao. Multicomponent synthesis of cyclic depsipeptide mimics by Ugi reaction including cyclic hemiacetals derived from asymmetric organocatalysis. J. Org. Chem., 81, 803–809 (2016).

AF de la Torre, A Ali, FZ Galetto, AL Braga, JA Delgado, MW Paixão. One-pot organocatalytic/multicomponent approach for the preparation of novel enantioenriched non-natural selenium-based peptoids and peptide–peptoid conjugates. Mol. Divers., 24, 1–10 (2020).

CG Avila-Ortiz, DC Lenin, JG Erika, E Juaristi. Asymmetric Michael addition organocatalyzed by a,ß-dipeptides under solvent-free reaction conditions. Molecules, 22(8), 1328 (2017).

TJ Pawar, L Díaz-Corona, E Jiménez-González, E Juaristi. Asymmetric Michael addition organocatalyzed by a,ß-dipeptides under solvent-free reaction conditions catalysis and their anxiolytic-like activity. Bioorganic Med. Chem. Lett., 30, 127063 (2020).

KM Ruíz-Pérez, B Quiroz-García, M Hernández-Rodríguez. Prolinamides of Aminouracils. Organocatalyst Modifiable by Complementary Modules. European J. Org. Chem., 2018, 5763–5772 (2018).

G Huelgas, R Somanathan, JM Hernandez Perez, H Rojas Cabrera, M de la Higuera Macías, A Domínguez-Huerta et al. Homochiral bifunctional L-prolinamide- and L-bis-prolinamide-catalyzed asymmetric aldol reactions performed in wet solvent-free conditions. Chirality, 33, 22–36 (2021).

E Machuca, G Granados, B Hinojosa, E Juaristi. Synthesis and evaluation of (S)-proline-containing dipeptidic organocatalysts bound to MBHA resin in asymmetric

E Machuca, E Juaristi. Organocatalytic activity of a,a-dipeptide derivatives of (S)-proline in the asymmetric aldol reaction in absence of solvent. Evidence for non-covalent p-p Interactions in the transition state. Tetrahedron Lett., 56, 1144–1148 (2015).

E Machuca, Y Rojas, E Juaristi. Synthesis and evaluation of (S)-proline-containing a,ß-dipeptides as organocatalysts in solvent-free asymmetric aldol reactions under ball-milling conditions. Asian J. Org. Chem., 4, 46–53 (2015).

A Obregón-Zúñiga, E Juaristi. (2S,4R)-Hyp-(S)-Phe-OMe dipep-tide supported on imidazolium tagged molecules as recoverable organocatalysts for asymmetric aldol reactions using water as reaction medium. Tetrahedron, 73, 5373–5380 (2017).

CCruz-Hernández, PE Hernández-González, E Juaristi. Proline-Glycine Dipeptidic Derivatives of Chiral Phospho-ramides as Organocatalysts for the Enantiodivergent Aldol Reaction of Aryl Aldehydes and Isatins with Cyclo-hexanone in the Presence of Water. Synth., 50, 3445–3459 (2018).

G Reyes-Rangel, J Vargas-Caporali, E Juaristi. In search of diamine analogs of the a,a-diphenyl prolinol privileged chiral organocatalyst. Synthesis of diamine derivatives of a,a-diphenyl-(S)-prolinol and their application as organo-catalysts in the asymmetric Michael and Mannich reactions. Tetrahedron, 72, 379–391 (2016).

DA Dos Santos, AR da Silva, J Ellena, CC da Silva, MW Paixao, AG Correa. Green One-Pot Asymmetric Synthesis of Peptido-mimetics via Sequential Organocatalyzed Aziridination and Passerini Multicomponent Reaction. Synth., 52, 1076–1086 (2020).

MCK Sakukuma, M.AM Filho, R Rivelino, MM Victor, Use of organocatalysis for the synthesis of phenyl-hydroxylated-butyric acids. Tetrahedron Lett., 61, 152431 (2020).

Q Mu, WD Tang, RY Liu, CM Li, LG Lou, HD Sun, CQ Hu. Constituents from the Stems of Goniothalamus griffithii. Planta Med.; 69, 826–830 (2003).

ID Jurberg. An Aminocatalyzed Stereoselective Strategy for the Formal a-Propargylation of Ketones. Chem. Eur. J., 23, 9716–9720 (2017).

X Huang, W Zhao, X Zhang, M Liu, SN Vasconcelos, W Zhang. One-pot fluorination and organocatalytic Robinson annulation for asymmetric synthesis of mono- and difluorinated cyclohexenones. Molecules, 23, (2018).

LSR Martelli, LC Vieira, MW Paixao, J Zukerman-Schpector, JO de Souza, ACC Aguiar, et al. Organocatalytic asymmetric viny-logous 1,4-addition of a,a-Dicyanoolefins to chalcones under a bio-based reaction media: Discovery of new Michael adducts with antiplasmodial activity. Tetrahedron, 75, 3530–3542 (2019).

CB Gomes, RA Balaguez, A Larroza, TA Smaniotto, M Domingues, AM Casaril et al. Organocatalysis in the Synthesis of 1,2,3-Triazoyl-zidovudine Derivatives: Synthesis and Preliminary Antioxidant Activity. Chemistry Select, 5, 12255–12260 (2020).

V Díaz-Juárez, CE Reyes-Escobedo, M Pérez-Venegas, E Juaristi, S Pérez-Estrada, S Rojas-Lima, H López-Ruiz. Proline and 1-(2-(benzoxazole-2-yl)phenyl)-3-phenylthiourea supramolecular or-gano-catalyst in asymmetric aldol reactions. Tetrahedron Lett., 79, 12–15 (2021).

C Cruz-Hernández, E Martínez-Martínez, PE Hernández-González, E Juaristi. Synthesis of a New N-Diaminophosphoryl-N’-[(2S)-2-pyrrolidinylmethyl]thiourea as a Chiral Organo-catalyst for the Stereoselective Michael Addition of Cyclo-hexanone to Nitrostyrenes and Chalcones – Application in Cascade Processes for the Synthesis of Polyc. European J. Org. Chem., 2018, 6890–6900 (2018).

P Acosta, D Becerra, S Goudedranche, J Quiroga, T Constantieux, D Bonne, J Rodriguez. Exploiting the Reactivity of 1,2-Keto-amides: Enantioselective Synthesis of Functionalized Pyrrolidines and Pyrrolo-1,4-benzo-diazepine-2,5-diones. Synlett, 26, 1591–1595 (2015).

I Smajlagic, M Guest, R Durán, B Herrera, T Dudding. Mechanistic Insight toward Understanding the Role of Charge in Thiourea Organocatalysis. J. Org. Chem., 85, 585–593 (2020).

VC Rufino, JR Pliego. Bifunctional Primary Amino-thiourea Asymmetric Catalysis: The Imine-Iminium Ion Mechanism in the Michael Addition of Nitromethane to Enone. Asian J. Org. Chem., 10, 1472–1485 (2021).

FR Bisogno, R Fernández, JM Lassaletta, G de Gonzalo. Room temperature ionic liquids in asymmetric hetero-ene type reactions: Improving organocatalyst performance at lower temperatures. Molecules, 26(2), 355 (2021).

EI Jiménez, WE Vallejo Narvaez, CA Román-Chavarría, J Vazquez-Chavez, T Rocha-Rinza, M Hernández-Rodríguez. Bifunctional Thioureas with a-Trifluoromethyl or Methyl Groups: Comparison of Catalytic Performance in Michael Additions. J. Org. Chem., 81, 7419–7431 (2016).

M Frias, R Mas-Ballesté, S Arias, C Alvarado, J Alemán. Asymmetric synthesis of rauhut-currier type products by a regioselective mukaiyama reaction under bifunctional catalysis. J. Am. Chem. Soc., 139, 672–679 (2017).

MP Momo, AN Leveille, EH Farrar, MN Grayson, AE Mattson, AC Burtoloso. Enantioselective S-H Insertion Reactions of a-Carbonyl Sulfoxonium Ylides. Angew. Chemie - Int. Ed., 59, 15554–15559 (2020).