Toward the total synthesis of a lagunamide B analogue

Lagunamides, isolated from a marine cyanobacterium Lyngbya majuscule found in Singapore, showed very potent activities against Plasmodium falciparum and murine leukemia cell line (P388). Herein, a concise synthetic approach toward the total synthesis of a lagunamide B analogue is discussed. Macrolactonization, HWE-olefination, and modified Crimmin's aldol are some of the key reactions featured in this synthesis. (C) 2014 Elsevier Ltd. All rights reserved.

Formulation of nanotized curcumin and demonstration of its antimalarial efficacy

Aim: The present study was conducted to overcome the disadvantages associated with the poor water solubility and low bioavailability of curcumin by synthesizing nanotized curcumin and demonstrating its efficacy in treating malaria. Materials and methods: Nanotized curcumin was prepared by a modified emulsion-diffusion-evaporation method and was characterized by means of transmission electron microscopy, atomic force microscopy, dynamic light scattering, Zetasizer, Fourier transform infrared spectroscopy, and differential thermal analysis. The novelty of the prepared nanoformulation lies in the fact that it was devoid of any polymeric matrices used in conventional carriers. The antimalarial efficacy of the prepared nanotized curcumin was then checked both in vitro and in vivo. Results: The nanopreparation was found to be non-toxic and had a particle size distribution of 20-50 nm along with improved aqueous dispersibility and an entrapment efficiency of 45%. Nanotized curcumin (half maximal inhibitory concentration IC50]: 0.5 mu M) was also found to be ten-fold more effective for growth inhibition of Plasmodium falciparum in vitro as compared to its native counterpart (IC50: 5 mu M). Oral bioavailability of nanotized curcumin was found to be superior to that of its native counterpart. Moreover, when Plasmodium berghei-infected mice were orally treated with nanotized curcumin, it prolonged their survival by more than 2 months with complete clearance of parasites in comparison to the untreated animals, which survived for 8 days only. Conclusion: Nanotized curcumin holds a considerable promise in therapeutics as demonstrated here for treating malaria as a test system.

Multivariate PLS Modeling of Apicomplexan FabD-Ligand Interaction Space for Mapping Target-Specific Chemical Space and Pharmacophore Fingerprints

Biomolecular recognition underlying drug-target interactions is determined by both binding affinity and specificity. Whilst, quantification of binding efficacy is possible, determining specificity remains a challenge, as it requires affinity data for multiple targets with the same ligand dataset. Thus, understanding the interaction space by mapping the target space to model its complementary chemical space through computational techniques are desirable. In this study, active site architecture of FabD drug target in two apicomplexan parasites viz. Plasmodium falciparum (PfFabD) and Toxoplasma gondii (TgFabD) is explored, followed by consensus docking calculations and identification of fifteen best hit compounds, most of which are found to be derivatives of natural products. Subsequently, machine learning techniques were applied on molecular descriptors of six FabD homologs and sixty ligands to induce distinct multivariate partial-least square models. The biological space of FabD mapped by the various chemical entities explain their interaction space in general. It also highlights the selective variations in FabD of apicomplexan parasites with that of the host. Furthermore, chemometric models revealed the principal chemical scaffolds in PfFabD and TgFabD as pyrrolidines and imidazoles, respectively, which render target specificity and improve binding affinity in combination with other functional descriptors conducive for the design and optimization of the leads.

Connecting Active-Site Loop Conformations and Catalysis in Triosephosphate Isomerase: Insights from a Rare Variation at Residue96 in the Plasmodial Enzyme

Despite extensive research into triosephosphate isomerases (TIMs), there exists a gap in understanding of the remarkable conjunction between catalytic loop-6 (residues 166-176) movement and the conformational flip of Glu165 (catalytic base) upon substrate binding that primes the active site for efficient catalysis. The overwhelming occurrence of serine at position96 (98% of the 6277 unique TIM sequences), spatially proximal to E165 and the loop-6 residues, raises questions about its role in catalysis. Notably, Plasmodium falciparum TIM has an extremely rare residuephenylalanineat this position whereas, curiously, the mutant F96S was catalytically defective. We have obtained insights into the influence of residue96 on the loop-6 conformational flip and E165 positioning by combining kinetic and structural studies on the PfTIM F96 mutants F96Y, F96A, F96S/S73A, and F96S/L167V with sequence conservation analysis and comparative analysis of the available apo and holo structures of the enzyme from diverse organisms.

Avaliação do potencial antimalárico de Norantea brasiliensis Choisy (Marcgraviaceae) cultivada in vitro e in vivo

A malária é uma doença infecciosa causada por protozoários do gênero Plasmodium, transmitidos ao homem, principalmente, através da picada do mosquito infectado. O tratamento é realizado por meio do uso de drogas, como a cloroquina, uma vez que não há vacina eficiente contra a doença. Porém, a resistência dos parasitos aos medicamentos tem levado à busca por novas substâncias com atividade antimalárica, inclusive de origem vegetal. Nesse contexto, o presente trabalho teve por objetivo avaliar a atividade antimalárica de extratos metanólicos de Norantea brasiliensis cultivada sob condições in vivo e in vitro, espécie nativa ocorrente em restingas, com potencial medicinal já comprovado para várias atividades. Foram desenvolvidos protocolos de calogênese e cultura de raízes da espécie visando à definição de um sistema de produção de metabólitos. Para a cultura in vitro, explantes foram inoculados em meio líquido e sólido contendo diferentes fitorreguladores e concentrações. A partir da cultura de tecidos, foram testados extratos do material produzido biotecnologicamente para comparação com o material botânico cultivado no campo. Os testes sobre o potencial antimalárico foram realizados in vivo, utilizando-se camundongos infectados pelo Plasmodium berghei ANKA, e in vitro utilizando o Plasmodium falciparum. Em seguida foram administrados a cloroquina e os extratos vegetais. A parasitemia foi observada seguindo os protocolos já estabelecidos pelo Laboratório de Imunofarmacologia do Instituto Oswaldo Cruz (IOC). Resultados mostraram que explantes foliares e caulinares de plantas germinadas in vitro, inoculados em meio sólido B5 suplementado com 2,0 mg.mL-1 de ANA, são as melhores fontes para a produção de raízes, apresentando maiores valores de peso fresco e peso seco, mostrando-se um sistema promissor para a produção in vitro de metabólitos da espécie. A avaliação da atividade antimalárica in vivo revelou seu potencial a partir de extrato de raízes de planta cultivada in vivo, na concentração de 50 mg/kg apresentando redução significativa da parasitemia quando comparada com o controle não tratado. Paralelamente, nos testes in vitro a concentração de 100 μg/kg do extrato de raízes de planta cultivada in vivo apresentou diferença significativa quando comparada com as outras concentrações testadas e o controle negativo. Além disso, há uma tendência de aumento do efeito inibitório conforme o aumento da concentração do extrato. Os resultados indicam o potencial de atividade antimalárica em raízes de N. brasiliensis, sendo este estudo o primeiro realizado para a espécie

Investigação da atividade toxicológica de análogos de estatinas em modelos experimentais in vitro

As estatinas são fármacos inibidores competitivos da enzima hidroxi-3-metil-glutaril Coenzima A (HMGCoA) redutase, amplamente utilizados para o controle da hipercolesterolemia total e, em especial, para a redução dos níveis séricos de LDLc (Low Density Lipoprotein cholesterol). Além do efeito primário, esses fármacos apresentam vários efeitos secundários, chamados de efeitos pleiotrópicos, envolvendo atividade anti-inflamatória, antitumoral e antiparasitária. Para o desenvolvimento de inovações na área de química medicinal é imprescindível avaliar o risco de efeitos adversos para saúde ou, em outras palavras, a segurança terapêutica do novo produto nas condições propostas de uso. Nesse sentido, o objetivo desse trabalho foi investigar a genotoxicidade de quatro análogos inibidores da biossíntese de lipídios, da classe das estatinas, em modelos experimentais in vitro, testados previamente contra o clone W2 de Plasmodium falciparum a fim de se obter o IC50 dessas moléculas frente ao patógeno. Foram desenvolvidas quatro novas moléculas (PCSR02.001, PCSR09.001, PCSR08.002 e PCSR10.002). Para a avaliação da toxicidade, foram realizados o teste de mutagenicidade bacteriana (teste de Ames), o ensaio de viabilidade celular utilizando o reagente WST-1 e o ensaio de indução de micronúcleos, ambos utilizando uma linhagem ovariana (CHO-K1) e uma linhagem hepática (HepG2). Levando em conta o fato de nenhuma das amostras ter induzido efeitos mutagênicos nas linhagens de S. enterica sorovar Typhimurium, e PCSR10.002 ter apresentado citotoxicidade sugere-se então que este composto seja o mais tóxico. Comparativamente, PCSR10.002 foi mais genotóxico e citotóxico para a linhagem CHO-K1 do que para a linhagem HepG2. PCSR02.001 apresentou elevado potencial genotóxico para células ovarianas, mas não foi capaz de induzir a formação de micronúcleos em células hepáticas, apresentando, portanto um perfil similar ao observado em PCSR10.002. Assim como a atorvastatina, PCSR09.001 apresentou elevado potencial pró-apoptótico para a linhagem de hepatócitos. Já PCSR08.002, apresentou aumento na apoptose de CHO-K1. A indução de apoptose não é necessariamente um evento negativo, já que é pouco lesiva e responsável pela eliminação de células danificadas. Porém, as respostas de apoptose induzidas por esse composto foram muito inferiores àquelas induzidas pela atorvastatina (cerca de 4 vezes menor que a atorvastatina). PCSR08.002 foi aquele se mostrou menos tóxico e essa amostra foi a que teve menor risco relativo, em uma análise global das respostas de citotoxicidade e não demonstrou ter potencial genotóxico para as linhagens utilizadas nesse estudo. Conclui-se, portanto, que a análise da atividade toxicológica utilizando modelos experimentais in vitro dessas estatinas constitui um importante passo para o estabelecimento de novos candidatos à fármacos com maior segurança.

Reduction of malaria prevalence by indoor residual spraying: a meta-regression analysis.

Indoor residual spraying (IRS) has become an increasingly popular method of insecticide use for malaria control, and many recent studies have reported on its effectiveness in reducing malaria burden in a single community or region. There is a need for systematic review and integration of the published literature on IRS and the contextual determining factors of its success in controlling malaria. This study reports the findings of a meta-regression analysis based on 13 published studies, which were chosen from more than 400 articles through a systematic search and selection process. The summary relative risk for reducing malaria prevalence was 0.38 (95% confidence interval = 0.31-0.46), which indicated a risk reduction of 62%. However, an excessive degree of heterogeneity was found between the studies. The meta-regression analysis indicates that IRS is more effective with high initial prevalence, multiple rounds of spraying, use of DDT, and in regions with a combination of Plasmodium falciparum and P. vivax malaria.

Aminopeptidases of malaria parasites:new targets for chemotherapy

Novel targets for new drug development are urgently required to combat malaria, a disease that puts half of the world's population at risk. One group of enzymes identified within the genome of the most lethal of the causative agents of malaria, Plasmodium falciparum, that may have the potential to become new targets for antimalarial drug development are the aminopeptidases. These enzymes catalyse the cleavage of the N-terminal amino acids from proteins and peptides. P. falciparum appears to encode for at least nine aminopeptidases, two neutral aminopeptidases, one aspartyl aminopeptidase, one aminopeptidase P, one prolyl aminopeptidase and four methionine aminopeptidases. Recent advances in our understanding of these genes and their protein products are outlined in this review, including their potential for antimalarial drug development.

Squaric acid/4-aminoquinoline conjugates: novel potent antiplasmodial agents

We report the synthesis and structure–activity relationship (SAR) analysis of a series of hybrid compounds containing a squaric moiety conjugated with heterocyclic moieties from well-known antimalarials. This novel series of compounds presents improved antiplasmodial activity compared with the squaric derivatives described in our previous work. Three compounds, 8b (IC50 = 99 nM), 8c (IC50 = 95 nM), and 8d (IC50 = 105 nM) had greater in vitro potency than chloroquine 1 (IC50 = 140 nM) against chloroquine resistant Plasmodium falciparum. In addition, they were noncytotoxic against NIH 3T3 and Hek 293T cells.

Synthesis and computer-assisted design of mitochondrial electron transport-chain inhibitors as antimalarial agents

Tese de doutoramento, Farmácia (Química Farmacêutica e Terapêutica), Universidade de Lisboa, Faculdade de Farmácia, 2014

Medicinal chemistry approaches to malaria drug discovery

Tese de doutoramento, Farmácia (Química Farmacêutica e Terapêutica), Universidade de Lisboa, Faculdade de Farmácia, 2016

Uncovering the role of IFNAR1 in Experimental Cerebral malaria

Dissertation presented the Ph.D degree in Biology

Os Sistemas de Informação Geográfica e Detecção Remota na Determinação das Regiões de Risco por Malária na Guiné-Bissau

A malária é uma doença infecciosa complexa, que resulta do “vírus” plasmodium, e manifesta-se sob cinco tipos distintos de espécies protozoários (plasmodium vivax, plasmodium ovale, plasmodium falciparum, plasmodium malariae e plasmodium Knowlesi), atacando sobretudo os glóbulos vermelhos. Considerada a quinta maior causa de morte por doenças infecciosas em todo o mundo após doenças respiratórias, VIH/SIDA, doenças diarreicas e tuberculose, no continente africano, a malária é considerada a segunda causa do aumento da mortalidade, após VIH/SIDA. No caso particular da Guiné-Bissau, esta constitui a principal causa do incremento da morbilidade e da mortalidade naquele país, onde, em 2012 foram notificados 129.684 casos de paludismo, dos quais 370 resultaram em óbitos. Partindo da realidade acima constatada, em particular, da complexidade e o impacto global da doença associada a uma forte mortalidade e morbilidade, concluiu-se ser necessário abordar esta temática, utilizando os SIG e a DR no sentido de determinar as regiões de elevado risco. Entendeu-se serem necessárias novas abordagens e novas ferramentas de análise dos dados epidemiológicos e consequentemente novas metodologias que possibilitem a determinação de áreas de risco por malária. O presente estudo, pretende demonstrar o papel dos SIG e DR na determinação das regiões de risco por malária. A metodologia utilizada centrou-se numa abordagem quantitativa baseada na hierarquização das variáveis. Pretende-se, assim abordar os impactos da malária e simultaneamente demonstrar as potencialidades dos SIG e das ferramentas de Análise Espacial no estudo da disseminação da mesma na Guiné-Bissau.

Antibody levels against GLURP R2, MSP1 block 2 hybrid and AS202.11 and the risk of malaria in children living in hyperendemic (Burkina Faso) and hypo-endemic (Ghana) areas.

Differences in parasite transmission intensity influence the process of acquisition of host immunity to Plasmodium falciparum malaria and ultimately, the rate of malaria related morbidity and mortality. Potential vaccines being designed to complement current intervention efforts therefore need to be evaluated against different malaria endemicity backgrounds. The associations between antibody responses to the chimeric merozoite surface protein 1 block 2 hybrid (MSP1 hybrid), glutamate-rich protein region 2 (GLURP R2) and the peptide AS202.11, and the risk of malaria were assessed in children living in malaria hyperendemic (Burkina Faso, n = 354) and hypo-endemic (Ghana, n = 209) areas. Using the same reagent lots and standardized protocols for both study sites, immunoglobulin (Ig) M, IgG and IgG sub-class levels to each antigen were measured by ELISA in plasma from the children (aged 6-72 months). Associations between antibody levels and risk of malaria were assessed using Cox regression models adjusting for covariates. There was a significant association between GLURP R2 IgG3 and reduced risk of malaria after adjusting age of children in both the Burkinabe (hazard ratio 0.82; 95 % CI 0.74-0.91, p < 0.0001) and the Ghanaian (HR 0.48; 95 % CI 0.25-0.91, p = 0.02) cohorts. MSP1 hybrid IgM was associated (HR 0.85; 95 % CI 0.73-0.98, p = 0.02) with reduced risk of malaria in Burkina Faso cohort while IgG against AS202.11 in the Ghanaian children was associated with increased risk of malaria (HR 1.29; 95 % CI 1.01-1.65, p = 0.04). These findings support further development of GLURP R2 and MSP1 block 2 hybrid, perhaps as a fusion vaccine antigen targeting malaria blood stage that can be deployed in areas of varying transmission intensity.

Development of designed site-directed pseudopeptide-peptido-mimetic immunogens as novel minimal subunit-vaccine candidates for malaria

Synthetic vaccines constitute the most promising tools for controlling and preventing infectious diseases. When synthetic immunogens are designed from the pathogen native sequences, these are normally poorly immunogenic and do not induce protection, as demonstrated in our research. After attempting many synthetic strategies for improving the immunogenicity properties of these sequences, the approach consisting of identifying high binding motifs present in those, and then performing specific changes on amino-acids belonging to such motifs, has proven to be a workable strategy. In addition, other strategies consisting of chemically introducing non-natural constraints to the backbone topology of the molecule and modifying the a-carbon asymmetry are becoming valuable tools to be considered in this pursuit. Non-natural structural constraints to the peptide backbone can be achieved by introducing peptide bond isosters such as reduced amides, partially retro or retro-inverso modifications or even including urea motifs. The second can be obtained by strategically replacing L-amino-acids with their enantiomeric forms for obtaining both structurally site-directed designed immunogens as potential vaccine candidates and their Ig structural molecular images, both having immunotherapeutic effects for preventing and controlling malaria.