Systhesis and characterization of analogues of the antimalaria alkaloid febrifugine

Pienaar, Daniel Petzer

15 November 2006

Student Number : 0011001D - PhD thesis - School of Chemistry - Faculty of Science / The subject of this thesis is the development of a potentially simple, general and economical synthetic protocol for the potent antimalarial alkaloid febrifugine (1) and its analogues. In Chapter 1, the interesting history of 1, which includes a description of several reported total syntheses of 1, is discussed. Natural products derived from 1, as well as promising synthetic derivatives that display good antimalarial activity, are also discussed. The structure-activity relationships determined to date for 1 and its derivatives are presented in order to substantiate the need for the development of new synthetic strategies towards derivatives of 1 and its 3″-unsubstituted analogue, (±)- deoxyfebrifugine (14). A brief overview of the general strategies used in the Organic Chemistry Group at the University of the Witwatersrand for the synthesis of alkaloids is given in Chapter 2. The Eschenmoser sulfide contraction reaction between a thiolactam and an α- bromocarbonyl compound results in the formation of a vinylogous amide (or “enaminone”) product, which can be further manipulated to produce commonly encountered alkaloidal molecular skeletons. The chosen approach to 1 is based on reaction between the pivotal bromide 3-(3-bromo-2-oxopropyl)quinazolin-4(3H)-one (105) and suitable 3-substituted piperidine-2-thiones. A series of model studies, described in Chapter 3, was performed in order to test the feasibility of the synthetic strategy. These studies resulted in a new preparation of the key bromide 105 and a new and efficient synthesis of (±)-deoxyfebrifugine (14). Enaminone analogues derived from five-, seven-, eight-, nine- and thirteen-membered thiolactams were also prepared for comparison. An interesting difference in the sensitivity of the five- and six-membered model cyclic vinylogous amides towards reducing agents was observed. Whereas three piperidine analogues of 14 could be prepared in high yields by the chemoselective hydrogenation of six-membered cyclic vinylogous amide precursors, the five-membered analogues either reacted nonselectively under various standard hydrogenation conditions, or resisted reduction entirely. An extension of the approach towards the synthesis of a 3″-amino analogue of febrifugine (1) from L-ornithine is discussed in Chapter 4. Several 3-aminated piperidin-2-ones and thiones were prepared, but the subsequent enaminones were stable and characterizable only when the piperidinylidene ring nitrogen was alkylated. However, chemoselective reduction of the enaminone C=C bond in 3-{(E)-3-[(3S)-3- (tert-butoxycarbonylamino)-1-(4-methoxybenzyl)piperidin-2-ylidene]-2-oxopropyl}- quinazolin-4(3H)-one (221), an interesting 3-acylamino dehydro analogue of 1, did not give the desired azafebrifugine, but instead yielded a 5,6,7,8-tetrahydro-1Hpyrido[ 3,2-c][1,2]oxazine derivative. Several approaches to febrifugine (1) itself based on the successful model studies are discussed in Chapter 5. Initially, stereoselective α-bromination and subsequent substitution by oxygen of piperidin-2-ones derived from the chiral auxiliary (S)- phenylglycinol was explored. Unexpected racemization occurred at the α-position of the lactam during this route. A second approach to 3-hydroxypiperidin-2-one from Larginine was also problematic. Finally, the utility of α-hydroxylation methodology (including Davis methodology) on N-substituted piperidin-2-ones was explored. This route yielded a range of 3-oxygenated lactams and thiolactams, many of which displayed optical activity. The crystal structures of several 3-substituted thiolactams were determined and compared. However, attempts to apply the sulfide contraction procedure to these precursors were unsuccessful. Some investigations designed to explore the structural differences between vinylogous amides derived from the quinazoline-containing bromide 105 and thiolactams of different ring sizes are discussed in Chapter 6. Single crystal X-ray diffraction and NMR spectral data are compared for this series of compounds, the results revealing that the enaminone group in the five-membered ring derivative 3- [(3Z)-2-oxo-3-(pyrrolidin-2-ylidene)propyl]quinazolin-4(3H)-one 155 possesses a significantly different electronic distribution to the other analogues in the series.

febrifugine

alkaloid synthesis

x-ray crystallography

Síntese de análogos da febrifugina / Synthesis of antimalarial febrifugina analogues

Correia, Valquirio Graia

19 August 2018

Orientador: Ronaldo Aloise Pilli / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-19T09:48:15Z (GMT). No. of bitstreams: 1 Correia_ValquirioGraia_M.pdf: 5120551 bytes, checksum: 59d3f74f13394c176e7a8ee336417804 (MD5) Previous issue date: 2011 / Resumo: Neste trabalho sintetizamos alguns análogos à febrifugina (1), alcaloide inicialmente isolado a partir de extratos da erva Chang shan (Dichroa febrífuga) e detentor de potente atividade antimalárica. Foram sintetizados análogos na forma racêmica em que se variou o tamanho do anel heterocíclico saturado, a ausência de substituinte e presença de um átomo de bromo na posição C3¿, visando estudar a influência desses elementos na atividade contra P. falciparum e na citotoxicidade. A síntese dos análogos envolveu reações de a-amidoalquilação entre íons N-acilimínio e éteres enólicos de silício ou acetatos enólicos na etapa chave. Os análogos 11, 80 e 81 foram preparados em oito etapas, em bons rendimentos globais. Enquanto os análogos 82-84 foram preparados em seis etapas, utilizando-se metodologias diastereosseletivas, em rendimentos globais razoáveis / Abstract: In this work we synthesized some febrifugine analogs (1), alkaloid initially isolated from the extracts of the herb Chang Shan (dichroa febrifuga) wich displayed potent antimalarial activity. Analogs have been synthesized in racemic form, varying the size of the saturated heterocyclic ring, the absence of substituent and the presence of a bromine atom at C3¿ position aiming to study the influence of these elements in the activity against P. falciparum and the cell toxicity. To synthesize the analogues we have used a-amidoalkylation reaction between N-acyliminium ions and silylenolethers or enolacetates in the key step. Analogs 11, 80 and 81 were prepared in eight steps in good overall yields, while the analogs 82-84 were prepared in six steps, using a diastereoselective á-amidoalkylation reaction, in reasonable overall yields / Mestrado / Quimica Organica / Mestre em Química

Febrifugina

Antimaláricos

Malaria

Íons N-aciliminio

Febrifugine

Antimalarials

Malaria

N-acyliminium ions