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21	Genomewide expression profiling of the cryptolepine-induced toxicity in Saccharomyces cerevisiae. Rojas, M., Wright, Colin W., Pina, B., Portugal, J. January 2008 (has links) no / We have used the budding yeast Saccharomyces cerevisiae to identify genes that may confer sensitivity in vivo to the antimalarial and cytotoxic agent cryptolepine. Five S. cerevisiae strains, with different genetic backgrounds in cell permeability and DNA damage repair mechanisms, were exposed to several concentrations of cryptolepine. Cryptolepine showed a relatively mild toxicity for wild-type strains, which was augmented by either increasing cell permeability ( erg6 or ISE2 strains) or disrupting DNA damage repair ( rad52 strains). These results are compatible with the ability of cryptolepine to intercalate into DNA and thus promote DNA lesions. The effects of low concentrations of cryptolepine (20% and 40% inhibitory concentrations [IC20 and IC40]) were analyzed by comparing the gene expression profiles of treated and untreated erg6 yeast cells. Significant changes in expression levels were observed for 349 genes (117 upregulated and 232 downregulated). General stress-related genes constituted the only recognizable functional cluster whose expression was increased upon cryptolepine treatment, making up about 20% of upregulated genes. In contrast, analysis of the characteristics of downregulated genes revealed a specific effect of cryptolepine on genes related to iron transport or acid phosphatases, as well as a significant proportion of genes related to cell wall components. The effects of cryptolepine on the transcription of iron transport-related genes were consistent with a loss of function of the iron sensor Aft1p, indicating a possible disruption of iron metabolism in S. cerevisiae. Since the interference of cryptolepine with iron metabolism is considered one of its putative antimalarial targets, this finding supports the utility of S. cerevisiae in drug-developing schemes. Cryptolepine Yeast cells Saccharomyces cerevisiae Antimalarial
22	Phytotherapy used in Orissa State India, for treating malaria. Kantamreddi, Venkata Siva Satya Narayana, Parida, S., Kommula, S.M., Wright, Colin W. January 2009 (has links) no / This paper reports 35 medicinal plants belonging to 25 families used in the treatment of malaria by the people inhabiting the forests located near to Bhubaneswar, the capital city of Orissa, a south-eastern state in India. The methods adopted for the preparation of plant parts are discussed along with their family and local name(s). The majority of the herbal preparations were made in the form of juices or by using water as the medium in the form of decoctions or infusions. Various plant parts, such as leaves, flowers, fruits, barks, stems, roots, and in some cases the whole plants are used to prepare these remedies each of which contains a single species. Traditional medicines Antiplasmodial Malaria Orissa, India Antimalarial
23	Huprines as a new family of dual acting trypanocidal–antiplasmodial agents Defaux, J., Sala, M., Formosa, X., Galdeano, C., Taylor, M.C., Kelly, J.M., Wright, Colin W., Camps, P., Muñoz-Torrero, D., Alobaid, Waleed A.A. January 2011 (has links) No / A series of 19 huprines has been evaluated for their activity against cultured bloodstream forms of Trypanosoma brucei and Plasmodium falciparum. Moreover, cytotoxicity against rat myoblast L6 cells was assessed for selected huprines. All the tested huprines are moderately potent and selective trypanocidal agents, exhibiting IC50 values against T. brucei in the submicromolar to low micromolar range and selectivity indices for T. brucei over L6 cells of approximately 15, thus constituting interesting trypanocidal lead compounds. Two of these huprines were also found to be active against a chloroquine-resistant strain of P. falciparum, thus emerging as interesting trypanocidal–antiplasmodial dual acting compounds, but they exhibited little selectivity for P. falciparum over L6 cells.
24	Cajachalcone: An Antimalarial Compound from Cajanus cajan Leaf Extract Ajaiyeoba, E.O., Ogbole, O.O., Abiodun, O.O., Ashidi, J.S., Houghton, P.J., Wright, Colin W. 02 1900 (has links) no / Cajanus cajan L, a member of the family Fabaceae, was identified from the Nigerian antimalarial ethnobotany as possessing antimalarial properties. The bioassay-guided fractionation of the crude methanol extract of C. cajan leaves was done in vitro using the multiresistant strain of Plasmodium falciparum (K1) in the parasite lactate dehydrogenase assay. Isolation of compound was achieved by a combination of chromatographic techniques, while the structure of the compound was elucidated by spectroscopy. This led to the identification of a cajachalcone, 2′,6′-dihydroxy-4-methoxy chalcone, as the biologically active constituent from the ethyl acetate fraction. Cajachalcone had an IC50 value of 2.0 μg/mL (7.4 μM) and could be a lead for anti-malarial drug discovery.
25	Synthesis of some cryptolepine analogues, assessment of their antimalarial and cytotoxic activities, and consideration of their antimalarial mode of action Wright, Colin W., Onyeibor, O., Phillips, Roger M., Shnyder, Steven, Croft, S.L., Dodson, Hilary I. January 2005 (has links) No / A series of analogues of cryptolepine (1) have been synthesized and evaluated for their in vitro antiplasmodial and cytotoxic properties. The IC50 values of several compounds (11a, 11k¿m, 11o, 13) against Plasmodium falciparum (strain K1) were <0.1 ¿M, 5¿10-fold lower than that of 1 but their cytotoxicities were only 2¿4 times greater than that of 1. Compounds with a halogen in the quinoline ring and a halogen or a nitro group in the indole ring have enhanced antiplasmodial activity. In mice infected with P. berghei, the 7-bromo-2-chloro (11k) and 2-bromo-7-nitro (13) derivatives of 1 suppressed parasitemia by >90% at doses of 25 mg kg-1 day-1 with no apparent toxicity to the mice. 2,7-Dibromocryptolepine (15) was evaluated at several dose levels, and a dose-dependent suppression of parasitemia was seen (ED90 = 21.6 mg kg-1 day-1). The antimalarial mode of action of 1 appears to be similar to that of chloroquine and involves the inhibition of hemozoin formation. A number of analogues were assessed for their effects on the inhibition of ß-hematin (hemozoin) formation, and the results were compared with their antiplasmodial activities having taken account of their predicted accumulation into the acidic parasite food vacuole. No correlation was seen (r2 = 0.0781) suggesting that the potent antimalarial activity of compounds such as 15 involves other mechanisms in addition to the inhibition of hemozoin formation. Cryptolepine analogues Antimalarial mode of action Antiplasmodial activity Halogens Antimalarial and cytotoxic activities
26	The biological activity of specific essential oil constituents Seatlholo, Tsietsi Samuel 13 March 2008 (has links) ABSTRACT Twenty essential oil constituents (EOC′s) from seven structural groups were tested for their antimalarial, antimicrobial (both bacterial and fungal), anti-oxidant, anticholinesterase and toxicity properties. To test for their antimalarial property, the tritiated hypoxanthine incorporation assay was used, while the disc diffusion and minimum inhibitory concentration (MIC) microplate assays were employed for the antimicrobial properties. The 2,2-diphenyl-1-picrylhydrazyl (DPPH) method was used to test the anti-oxidant property and their toxicity profile was assessed with the 3-(4,5-dimethyl-2-thiazol-2-yl)-2,5-diphenyl-2H-tetrazolium bromide (MTT) cellular viability assay. The anticholinesterase activity was determined using the thin layer chromatography (TLC) bioautographic method. The EOC´s were found to inhibit the growth of Plasmodium falciparum with IC50 values ranging between 0.9 to 1528.8μM with E- and Z-(±)-nerolidol, (-)-pulegone, (+)-α-pinene and linalyl acetate being the most active. In combination p-cymene (the least active) and E- and Z-(±)-nerolidol (the most active) displayed the most synergistic interaction (ΣFIC = 0.09), with their antimalarial activity comparable to that of the interaction between E- and Z-(±)-nerolidol and quinine (ΣFIC = 0.01). Eugenol had the most favourable safety index and was the only EOC with anti-oxidant activity comparable to vitamin C. Combination studies showed that E- and Z-(±)-nerolidol and (-)-pulegone or quinine, p-cymene and γ-terpinene or (-)-pulegone potentiated each other′s toxicity. The EOC´s inhibited the growth of Gram-positive, Gram-negative bacteria and yeast with MIC values ranging from 1.66 to >238.4mM. When combined, synergism was observed between (+)-β-pinene and carvacrol or γ-terpinene; γ-terpinene and geranyl acetate when tested against Staphylococcus aureus, while (+)-β-pinene and (-)-menthone showed antagonism against C. albicans. The combinations of EOC′s and a standard antimicrobial resulted in synergistic interactions between carvacrol and ciprofloxacin against Bacillus cereus, eugenol and ciprofloxacin against Eschericia coli, carvacrol and amphotericin B against C. albicans. The trans-geraniol and E- and Z-(±)-nerolidol combination demonstrated an additive interaction against B. cereus, while for eugenol and E- and Z-(±)-nerolidol an indifferent interaction against E. coli was noted. These results show that the biological activities of EOC′s can vary when used alone and in combination. They do have the potential to be used as templates for novel drugs and as adjuncts to modern medicines in the combat against drug resistance. essential oil constituents antimalarial antimicrobial anticholinesterase toxicity antioxidants
27	Investigação das propriedades de interação e propriedades catalíticas de ferro(III) porfirinas na oxidação de um fármaco antimalárico / Investigation of the interaction properties and the catalytical properties of iron(III) porphyrins in the oxidation of an antimalarial drug. Santos, Adamo Cesar Mastrângelo Amaro dos 16 September 2005 (has links) Neste trabalho foram estudadas, por espectroscopia UV-Vis, as interações do fármaco anti-malária cloroquina com uma série de porfirinas meso fenilas substituídas aniônicas, catiônicas e neutras, e seus complexos Fe(III), em tampão aquoso e em solução metanólica. Com base nos resultados de interação, as ferro(III) porfirinas meso fenilas substiuídas e a FePPIX foram utilizadas como catalisadores para a oxidação de cloroquina por iodosilbenzeno (PhIO) e peróxidos (H2O2 e ácido meta-cloroperbenzóico, CPBA), em ambos os meios. Dos estudos de interação foi observado, em meio aquoso, pH 6,4, a formação de um complexo p-p, resultante do efeito cooperativo das interações eletrostáticas e da interação p-p entre as espécies aniônicas e a cloroquina. Em metanol nenhuma complexação p-p foi observada. As porfirinas e ferro(III) porfirinas neutras e catiônicas não formaram complexos com a cloroquina. As constantes de formação do complexo p-p entre as porfirinas ou ferro(III) porfirinas e cloroquina foram comparáveis áquelas relatadas na literatura para a cloroquina e outras ferro(III) porfirinas naturais. As reações de oxidação foram analisadas por cromatografia líquida de alta eficiência (CLAE). O principal produto obtido em todos os sitemas estudados foi a monodesetilcloroquina. Este é também o principal produto ?in vivo? da oxidação deste fármaco catalisada por CYP-450. A identificação do produto que é gerado em segunda maior quantidade, o derivado desetilamino da cloroquina, foi realizada por CLAE acoplada a espectrometria de massas. Dos resultados das reações de oxidação com PhIO e H2O2 foi possível constatar que: as ferro(III) porfirinas aniônicas são os catalisadores mais eficientes, com rendimentos de até 30 % de monodesetilcloroquina; em solução aquosa elas são seletivas para a deetilação oxidativa da cloroquina, enquanto que em metanol até cinco produtos de oxidação podem ser observados. As ferro(III) porfirinas neutras apresentam baixa atividade catalítica na oxidação da cloroquina por PhIO ou H2O2 pois não interage eletrostaticamente com o substrato. As ferro(III) porfirinas catiônicas não apresentam atividade catalítica devido à repulsão eletrostática com o substrato. As reações de oxidação por CPBA apresentaram baixos rendimentos devido à rápida destruição dos catalisadores quando se utilizou este oxidante. Foram ainda realizados estudos catalíticos utlizando ferro(III) porfirinas suportadas em membrana de polidimetilssiloxano (PDMS) e poli-(1?4)-b-d-glucosamina (quitosana) na oxidação de substratos padrões (ciclocteno, cicloexano e estireno). Destes, apenas a quitosana se mostrou um suporte adequado, resultando em um catalisador eficiente. As ferro(III) porfirinas imobilizadas neste suporte foram utlizadas na oxidação da cloroquina por PhIO, levando aos mesmos rendimentos que estas ferro(III) porfirinas apresentaram em meio homogêneo, mostrando também a dependência interação(FeP:substrato)/atividade catalítica previamente observada para as ferro(III) porfirinas em solução. Os resultados obtidos neste trabalho mostram que as ferro(III) porfirinas aniônicas são eficientes catalisadores biomiméticos da oxidação da cloroquina por PhIO e H2O2, tanto em solução como imobilizados. Além disso, pode-se concluir que a habilidade do catalisador em interagir com o substrato apresenta forte influência na atividade catalítica e deve ser levada em consideração nos estudos de outros sistemas modelos do CYP-450. / In this work, the interaction between the antimalarial drug chloroquine with a series of anionic, cationic, and neutral meso phenyl substitued porphyrins; and their iron(III) complexes, was investigated by UV-Vis spectroscopy, in aqueous buffer and methanolic solution. On the basis of the interaction results, the meso phenyl substitued iron(III) porphyrins and FePPIX were used as catalyst in the oxidation of chloroquine by iodosilbenzene (PhIO) or peroxides (H2O2 e meta-chloroperbenzoic acid, CPBA), in both media. From the interaction studies, it was possible to observe the formation of a p-p complex generated from the cooperative effect of the electrostatic and p-p interactions between the anionic species and chloroquine. In methanol, no complexation was observed. The neutral and cationic porphyrins and iron(III) porphyrins did not form complexes with chloroquine. The association constants of the p-p complex formed between the meso phenyl substitued porphyrins and iron(III) porphyrins with chloroquine were comparable with those reported in the literature for the interaction of chloroquine with others natural iron(III) porphyrins. The oxidation reaction produtcts were analized by high perfomance liquid chromatography (HPLC). The major product obtained in all the studied systems was monodesethylchloroquine. This compound is also the main ?in vivo? product of chloroquine metabolism catalised by CYP-450. The identification of the second most abundant product, the desethylamine derived from chloroquine, was performed by HPLC coupled with mass spectrometry. The results obtained from the oxidation reactions of chloroquine by PhIO and H2O2 indicated that: (i) the anionic iron(III) porphyrins are efficient catalysts, with yields close to 30 % for monodesethylchloroquine; (ii) in aqueous buffer they are selective toward the oxidative N-deethylation of chloroquine, while in methanol up to five oxidation products are obtained. The neutral iron(III) porphyrins presented low catalytic activity for the chloroquine oxidation by PhIO or H2O2 due to the lack of electrostatic interaction between the catalyst and the substrate. (iii) The cationic iron(III) porphyrins did not exhibit any catalytic activity because of electrostatic repulsion tha tales place between the catalyst and the substrate. Catalyst degradation occurred when CPBA was used as oxidant, leading to very low yields of oxidation products. Catalytic studies using iron(III) porphyrins supported in polydimethylsiloxane (PDMS) membranes and in poly-(1?4)-b-d-glucosamine (chitosan) were also performed for the oxidation of standard substrates (cicloctene, ciclohexane and styrene). Only chitosan was considered to be an adequate support, resulting in efficient catalysis. The iron(III) porphyrins immobilized on this support were used for the oxidation of chloroquine by PhIO, leading to the same yields as those obtained with the same iron(III) porphyrins in homogeneous medium. It is noteworthy that the relations between the interaction FeP:substrate and the FeP catalytic activity previously observed for the iron(III) porphyrins in solution was also observed in these heterogeneous catalysis. The results obtained in this work show that anionic iron(III) porphyrins are efficient biomimetic catalysts for the oxidation of chloroquine by PhIO and H2O2, both when supported and in solution. Also, the catalyst ability to interact with the substrate has a strong influence on its activity and must be considered when studying other CYP-450 model systems. antimalarial drug antimalárico. catalisys metaloporfirina metaloporphyrin oxidação catalítica oxidation
28	Avaliação do potencial vacinal de nanopartículas carregadas com componentes de merozoitas e esquizontes no modelo murino da infecção com Plasmodium. / Evaluation of the vaccine potential of nanoparticles loaded with components of merozoites and schizonts in the murine model of infection with Plasmodium. Wesley Luzetti Fotoran 07 December 2012 (has links) Malária é uma doença causada por protozoários do gênero Plasmodium que causa um milhão de mortes anualmente. Quase 3 bilhões de pessoas vivem em áreas tropicais de risco de infecção com uma das 5 espécies evidenciando um problema mundial carente de solução imediata. Esse parasita apresenta um potencial para o rápido desenvolvimento de resistências contra os fármacos utilizados em seu tratamento, por isso uma das soluções preconizadas pela Organização Mundial de Saúde é o desenvolvimento de vacinas eficazes para seu controle.O objetivo desse trabalho foca-se no aperfeiçoamento de uma metodologia mais efetiva para a formulação de vacinas contra malária. Inicialmente no modelo roedor, foi utilizado o método de carregamento em nanopartículas lipossomais , com proteínas oriundas de merozoítos do gênero Plasmodium. Além da avaliação do potencial vacinal das nanopartículas (sobrevida/morbidade), avaliamos o efeito da vacina contra toxinas (por exemplo, domínios GPI). Concluímos de maneira concisa que proteolipossomos gerados com proteínas GPI ancoradas do gênero Plasmodium possuem efeitos notáveis em relação a controle de crescimento parasitológico, mostrando-se efetivo também em desafios de letalidade in vivo. No que diz respeito a aspectos que afetam humanos, os soros gerados contra proteínas do parasita são capazes de diminuir interleucinas relacionadas com sintomas graves e parecem ter grandes efeitos antiparasitários que se correlacionam diretamente com o perfil genético do hospedeiro imunizado em ensaios in vitro. / Malaria is a tropical disease caused by species of the protozoan Plasmodium and around one million people die of the disease each year, while 3 billion individuals live at risk to acquire infection with one of the five species known to infect humans. Due to the parasite\'s looming resistance against most of the antimalarial compounds used in therapy, the WHO preconizes the development of effective vaccine as an important goal. The purpose of this work was to evaluate the potential of a new method of vaccine formulation against malaria. Initially tested in the rodent model, we loaded liposomal nanostructures with merozoite-derived GPI-anchored proteins. We then monitored parameters such as survival and morbidity after challenge and measured the effect against parasite derived toxines. We observed significant effects in terms of control of parasitemy and in one model complete survival of mice. We also detected the generation of antiGPI antibodies which showed to be functional in decreasing TNF-<font face=\"Symbol\">a production in an in vitro model, however, we detected that this function was dependent on the genetic background of the antibody producing immunized animal. Plasmodium Antimaláricos Interleucinas Malária Vacinas Plasmodium Antimalarial Interleukins Malaria Vaccines
29	Avaliação do potencial vacinal de nanopartículas carregadas com componentes de merozoitas e esquizontes no modelo murino da infecção com Plasmodium. / Evaluation of the vaccine potential of nanoparticles loaded with components of merozoites and schizonts in the murine model of infection with Plasmodium. Fotoran, Wesley Luzetti 07 December 2012 (has links) Malária é uma doença causada por protozoários do gênero Plasmodium que causa um milhão de mortes anualmente. Quase 3 bilhões de pessoas vivem em áreas tropicais de risco de infecção com uma das 5 espécies evidenciando um problema mundial carente de solução imediata. Esse parasita apresenta um potencial para o rápido desenvolvimento de resistências contra os fármacos utilizados em seu tratamento, por isso uma das soluções preconizadas pela Organização Mundial de Saúde é o desenvolvimento de vacinas eficazes para seu controle.O objetivo desse trabalho foca-se no aperfeiçoamento de uma metodologia mais efetiva para a formulação de vacinas contra malária. Inicialmente no modelo roedor, foi utilizado o método de carregamento em nanopartículas lipossomais , com proteínas oriundas de merozoítos do gênero Plasmodium. Além da avaliação do potencial vacinal das nanopartículas (sobrevida/morbidade), avaliamos o efeito da vacina contra toxinas (por exemplo, domínios GPI). Concluímos de maneira concisa que proteolipossomos gerados com proteínas GPI ancoradas do gênero Plasmodium possuem efeitos notáveis em relação a controle de crescimento parasitológico, mostrando-se efetivo também em desafios de letalidade in vivo. No que diz respeito a aspectos que afetam humanos, os soros gerados contra proteínas do parasita são capazes de diminuir interleucinas relacionadas com sintomas graves e parecem ter grandes efeitos antiparasitários que se correlacionam diretamente com o perfil genético do hospedeiro imunizado em ensaios in vitro. / Malaria is a tropical disease caused by species of the protozoan Plasmodium and around one million people die of the disease each year, while 3 billion individuals live at risk to acquire infection with one of the five species known to infect humans. Due to the parasite\'s looming resistance against most of the antimalarial compounds used in therapy, the WHO preconizes the development of effective vaccine as an important goal. The purpose of this work was to evaluate the potential of a new method of vaccine formulation against malaria. Initially tested in the rodent model, we loaded liposomal nanostructures with merozoite-derived GPI-anchored proteins. We then monitored parameters such as survival and morbidity after challenge and measured the effect against parasite derived toxines. We observed significant effects in terms of control of parasitemy and in one model complete survival of mice. We also detected the generation of antiGPI antibodies which showed to be functional in decreasing TNF-<font face=\"Symbol\">a production in an in vitro model, however, we detected that this function was dependent on the genetic background of the antibody producing immunized animal. Plasmodium Plasmodium Antimalarial Antimaláricos Interleucinas Interleukins Malaria Malária Vaccines Vacinas
30	Population pharmacokinetics of artesunate and dihydroartemisinin in children and pregnant women with malaria Morris, Carrie Ann 01 July 2014 (has links) Artemisinin derivatives are key to the current global treatment approach for malaria. However, much remains unknown regarding the pharmacokinetics of these agents, particularly in children and pregnant women, two groups highly vulnerable to development of severe malaria infection. In this thesis, nonlinear mixed effects modeling is used to characterize the pharmacokinetics of the artemisinin derivative artesunate and its active metabolite, dihydoartemisinin (DHA), in children and in pregnant women. Chapter 1 of this thesis contains a general review of the clinical pharmacokinetic findings for artesunate and DHA following artesunate administration by the intravenous, intramuscular, oral and rectal routes. Chapter 2 presents a population pharmacokinetic model utilizing both pediatric and adult data from one Phase II and four Phase III clinical trials evaluating the combination agent pyronaridine tetraphosphate/artesunate. The focus of the modeling described in this chapter is the evaluation of the effects of body size and gender on the pharmacokinetics of artesunate and DHA in pediatric patients with uncomplicated malaria. Chapter 3 consists of a population pharmacokinetic model built utilizing plasma artesunate and DHA concentrations from 26 parasitemic second and third trimester pregnant women and 25 parasitemic non-pregnant female controls in the Democratic Republic of Congo who received 200 mg oral artesunate. The model described in Chapter 2 is a simultaneously implemented parent-metabolite model consisting of a one compartment model for artesunate, a one compartment model for DHA, and first-order artesunate absorption. Various approaches for incorporating body size on artesunate and DHA apparent clearance and volume of distribution parameters were evaluated, with a linear body surface area model and an allometric scaling model both proving satisfactory. The effect of gender was modeled on artesunate and DHA apparent clearance and volume terms. Only the effect of gender on DHA apparent clearance could be estimated with reasonable precision, with the 95% confidence interval for the effect being almost wholly contained within the predefined 0.75 to 1.25 no relevant clinical effect interval. The model described in Chapter 3 consists of a one compartment model for artesunate, a one compartment model for DHA, and mixed zero-order, lagged first order absorption of artesunate. In this model, pregnancy was found to have a marked effect on DHA apparent clearance, with a pregnancy-associated increase in DHA apparent clearance of 42.3%. The models described in this thesis indicate that, for a given mg/kg dose of artesunate, both young children and pregnant women would be expected, on average, to display lower DHA concentrations than would be observed following administration of the same mg/kg dose to non-pregnant adults. Suboptimal dosing has clinical implications for the individual as well as potential implications regarding parasite susceptibility. Given this, the findings of the research described in this thesis highlight the necessity of investigations designed to comprehensively characterize the pharmacokinetics of artesunate and DHA in these two highly susceptible populations. antimalarial artesunate dihydroartemisinin pediatric pharmacokinetics pregnant Pharmacy and Pharmaceutical Sciences

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