Plants as sources of antimalarial drugs. Part 7. Activity of some species of meliaceae plants and their constituent limonoids

Bray, Dorothy; Warhurst, David C.; Connolly, Joseph D.; O’Neill, Melanie J.; Phillipson, J. David

doi:10.1002/ptr.2650040108

Cited by 136 publications

(80 citation statements)

References 21 publications

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“…Entandrophragma angolense is locally used in the treatment of malaria and some other diseases (Irvine, 1961;Obih et al, 1986;Bray et al, 1990). The stem bark, in aqueous decoctions, is used for the treatment of fever or malaria in Cameroon and Ivory Coast.…”

Section: Discussionmentioning

confidence: 99%

Antimalarial activity in crude extracts of some Cameroonian medicinal plants

Bickii¹,

Tchouya²,

Tchouankeu³

et al. 2007

Afr. J. Trad. Compl. Alt. Med.

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Fifteen crude extracts from the stem bark and seeds of four medicinal plants, viz: Entandrophragma angolense, Picralima nitida, Schumanniophyton magnificum and Thomandersia hensii were tested in vitro for their antimalarial activity against the chloroquine-resistant Plasmodium falciparum W2 strain. The results showed that the extracts of these plants possessed some antimalarial activity, the methanol extract of Picralima nitida demonstrating the highest activity in vitro. Further isolation and identification of some active compounds from these plants will justify their common use in traditional medicine for the treatment of malaria or fever in Cameroon.

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Section: Discussionmentioning

confidence: 99%

Antimalarial activity in crude extracts of some Cameroonian medicinal plants

Bickii¹,

Tchouya²,

Tchouankeu³

et al. 2007

Afr. J. Trad. Compl. Alt. Med.

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“…In vitro antimalarial activities have recently been reported for limonoids from other Meliaceae: bark and seeds of Khaya grandifolia (2), bark of Khaya senegalensis (13), leaves of Azadirachta indica (11), and Cedrela odorata wood (3). The most active limonoid, gedunin, isolated from Khaya grandifolia, Cedrela odorata, and Azadirachta indica (3,16), had a better in vitro activity than chloroquine against clones sensitive to chloroquine (15). Its in vitro activity evaluated against a chloroquine-resistant strain of P. falciparum (IC 50 ϭ 0.72 g/ml) was roughly equivalent to that of trichirubine A (12), but its in vivo activity, initially poor (3), might be improved: for example, when combined with chloroquine (2), by synergism with dillapiol, a cytochrome P-450 3A4 inhibitor, or preparation of a more stable compound (16).…”

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confidence: 99%

Novel Antimalarial Compounds Isolated in a Survey of Self-Medicative Behavior of Wild Chimpanzees in Uganda

Krief

Martin

Grellier³

et al. 2004

Antimicrob Agents Chemother

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Following a veterinary and behavioral survey of chimpanzees from a natural population in Uganda, leaf samples of Trichilia rubescens were collected because of the unusual method of ingestion observed. The methanolic crude extract of T. rubescens leaves exhibited significant antimalarial activity in vitro. Bioassaydirected fractionation provided two new limonoids, trichirubines A and B. A greater understanding of the role of secondary compounds in the primate diet may be helpful in recovering naturally occurring compounds of medicinal significance for human medicine.Plant parts which have no apparent nutritive value and/or are rich in secondary compounds are ingested by chimpanzees (10,14,21,22). Medicinal benefits of such ingestion have been suggested (8,9,20) by the observations of two unusual behaviors proposed to control intestinal parasite infection, namely swallowing whole bristly leaves and chewing the bitter pith of Vernonia amygdalina (7,8,18,19). There is no chemical evidence to suggest a role of secondary compounds correlated with the leaf-swallowing behavior: more likely there is a mechanical effect of the surface of the whole rough hispid leaves leading to the expulsion of parasites. Instead of a physical effect, the benefit of bitter pith chewing is pharmacologically based on the activity of steroid glucosides (10,14). In order to provide new information about self-medicative behavior of chimpanzees (Pan troglodytes schweinfurthii) and the phytochemistry of the plants ingested, field studies were conducted in Kanyawara, Kibale National Park, Uganda. The survey included behavioral data collection, as well as fecal and urine analysis of samples coming from identified chimpanzees. Particular attention was focused on sick individuals and unusual or occasional feeding behaviors. We report herein the bioassaydirected fractionation of the crude extracts of the plant leaves of Trichilia rubescens and elucidation of the structure of two limonoids, namely trichirubines A and B, which possess a significant anti-Plasmodium activity.The study was conducted in the Kibale National Park (766 km 2 between 0°13 to 0°41ЈN and 30°19Ј to 30°22ЈE) in western Uganda. Data were collected between December 2000 and March 2001 (dry season) and in October 2001 (rainy season). The area contains mid-altitude moist forest, secondary forest, grassland, swamps, and plantations of Eucalyptus and pines, and it includes elements of lowland tropical rainforest, montane rainforest, and mixed deciduous rainforest. The elevation is between 800 and 1,500 m, and the rainfall averages 1,700 mm per year.The Kanyawara community of wild chimpanzees (P. troglodytes schweinfurthii), including about 50 individuals, was observed. Feeding behaviors were recorded by 10-min focal-animal sessions and ad libitum observations (1). Health state was monitored daily by noninvasive methods consisting of clinical observations, coprological study of 252 stool samples, and urinalysis of 76 samples. We focused our behavioral observations on ill chimpanzees and u...

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“…1 H and 13 C NMR data (Tables 1 and 2) showed resonances for four distinctive tertiary methyl groups δH 1.23 (H-19), 1.68 (H-18), 1.58 (H-29), 1.28 (H-30) on carbons at δC 16.4 (q), δC 12.8 (q), δC 17.1 (q), δC 17.5 (q), respectively. The positions of these methyl groups were assigned by analysis of HMBC spectrum.…”

Section: Resultsmentioning

confidence: 99%

“…The biological activities of A. indica have been widely attributed to the presence of limonoids; modified triterpenes with or derived from a precursor with a 4, 4,8-trimethyl-17-furanylsteroid skeleton. Crude extracts of some of the limonoids constituents of the A. indica have been shown to exhibit antimalarial activities against chloroquine resistant K1 strain of Plasmodium falciparum (Bray et al, 1990). We now report the structures of three new limonoids that were isolated from the leaves of A. indica and their activities against T. b. rhodesiense.…”

Section: Introductionmentioning

confidence: 95%

New antitrypanosomal tetranotriterpenoids from <i>Azadirachta Indica</i>

Githua¹,

Hassanali²,

Keriko³

et al. 2010

Afr. J. Trad. Compl. Alt. Med.

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Organic extracts of the leaves of Azadirachta indica A. Juss. yielded ten antitrypanosomal terpenoids. Three of these (1 -3), are novel and are derivatives of nimbolide and nimbin. They were extracted from chloroform fraction of methanol extract. These compounds were found to exhibit strong antitrypanosomal activities against Trypanosoma brucei rhodesiense with MIC values ranging of 6.9, 15.6 and 7.8 µg/ml respectively and were more active than Cymerlarsan ( a standard drug), which had an MIC value of 187.5 µg/ml when tested against T. b. rhodesiense The structures were elucidated by spectroscopic methods including; NMR, MS, UV and IR.

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Plants as sources of antimalarial drugs. Part 7. Activity of some species of meliaceae plants and their constituent limonoids

Cited by 136 publications

References 21 publications

Antimalarial activity in crude extracts of some Cameroonian medicinal plants

Antimalarial activity in crude extracts of some Cameroonian medicinal plants

Novel Antimalarial Compounds Isolated in a Survey of Self-Medicative Behavior of Wild Chimpanzees in Uganda

New antitrypanosomal tetranotriterpenoids from <i>Azadirachta Indica</i>

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