D. Doel Soejarto

Traditional herbal drugs of Southern Uganda, II: literature analysis and antimicrobial assays

Continuing field interviews brought the total species used for disease treatment by herbalists of the majority Baganda Tribe of southern Uganda to 168. Literature searches provided support for the ethnomedical claims for a number of these species, and provided criteria for the species classification into four categories of use validation. They also helped guide the selection of species for recollection, for chemical extraction and further testing in laboratories of the Uganda Ministry of Health and the University of Illinois at Chicago. Many species proved active against microorganisms in several susceptibility assays conducted in Uganda and the US.

Factors in Maintaining Indigenous Knowledge Among Ethnic Communities of Manus island

Factors in Maintaining Indigenous Knowledge among Ethnic Communities of Manus Island. Economic Botany 59(4):356-365, 2005. Despite the fact that Manus Province is the most geographically isolated province of Papua New Guinea, research shows that the acculturation process, common among minority indigenous groups around the globe, has had detrimental effects on maintaining knowledge and customs. Analysis of ethnobotanical knowledge among the indigenous population of Manus was undertaken in an attempt to compare, contrast, and draw conclusions regarding factors in maintaining indigenous knowledge of the local flora. Four levels of knowledge (plants recognized, identified, identified as useful, and identified as medicinally useful) were used to examine the relationships between knowledge of the local flora and physical, geographical, and social variables of informants. Results showed significant differences in ethnobotanical knowledge based on informant gender, age, cultural subclass, and habitation locality. Low levels of medicinal plant knowledge were found among the Manus due to acculturation, supporting the theory that medicinal plant knowledge is particularly vulnerable to loss.

Discovery of anticancer agents of diverse natural origin.

A collaborative multidisciplinary research project is described in which new natural product anticancer drug leads are obtained from a diverse group of organisms, constituted by tropical plants, aquatic cyanobacteria, and filamentous fungi. Information is provided on how these organisms are collected and processed. The types of bioassays are indicated in which crude extracts of these acquisitions are tested. Progress made in the isolation of lead bioactive secondary metabolites from three tropical plants is discussed.

Antimalarial Agents from Plants II. Decursivine, A New Antimalarial Indole Alkaloid from Rhaphidophora decursiva

Antimalarial bioassay-directed fractionation led to the isolation of a new active indole alkaloid, decursivine (1), from the leaves and stems of Rhaphidophora decursiva Schott (Araceae). In addition, a leaf sample yielded the structurally-related compound serotobenine (2), previously reported from a taxonomically unrelated family, which was not active against Plasmodium falciparum. The structure of 1 was elucidated by spectroscopic means, and its antimalarial activity was observed with IC 50 values of 3.93 and 4.41µg/ml against the D6 and W2 clones of Plasmodium falciparum, respectively.

3β-(3,4-dihydroxycinnamoyl)-erythrodiol and 3β-(4-hydroxycinnamoyl)-erythrodiol from Larrea tridentata

Abstract From the stems of Larrea tridentata two new triterpenoids have been obtained, whose stereostructures have been elucidated on the basis of chemical and physical evidence.

Sweetening agents of plant origin: phenylpropanoid constituents of seven sweet-tasting plants

Field inquiries and organoleptic tests for sweet taste led to the procurement of samples ofPiper marginatum (dried leaves),Tagetes filicifolia (fresh whole plants),Osmorhiza longistylis (fresh roots),Foeniculum vulgare (fresh aerial parts),Myrrhis odorata (fresh whole plants),Ocimum basilicum (fresh aerial parts), andIllicium verum (dried fruits). Follow-up laboratory studies of the leaves ofPiper marginatum demonstrated that trans-anethole (a phenylpropanoid) was the major sweet constituent of this species. In the remaining six species, GC/MS analysis also enabled us to demonstrate that sweetness is attributable, in each case, to the presence of high concentrations of the phenylpropanoids, trans-anethole and estragole, either alone or in combination.ResumenEntrevistas y busqueda en el campo seguidas por pruebas organolépticas para detectar el sabor dulce nos dirigieron a la adquisición de muestras dePiper marginatum (hojas secas),Tagetes filicifolia (plantas enteras secas), Osmorhiza longistylis (raices frescas),Foeniculum vulgare (partes aéreas frescas),Myrrhis odorata (plantas enteras frescas),Ocimum basilicum (partes aéreas frescas), eIllicium verum (frutas secas). Estudios de laboratorio posterioresde las hojas dePiper marginatum demostraron quetrans-anetol (un fenilpropanoide) fué el principio edulcorante mayor de esta especie. En las seis especies restantes, el análisis por medio de la cromatografía gaseosa y espectrometría de masa nos permitieron a demostrar que el sabor dulce se debe tambien, en cada caso, a la presencia de altas concentraciones de fenilpropanoides, a sabertrans-anetol y estragol, tanto sólo como en conjunto.

Diterpenoids from Caesalpinia pulcherrima

Abstract Three new furanoditerpenoids of the caesalpin-type have been isolated from the roots of Caesalpinia pulcherrima . The structures of these compounds, vouacapen-5α-ol, 6β-cinnamoyl-7β-hydroxy-vouacapen-5α-ol and 8,9,11,14-didehydrovouacapen-5α-ol, were elucidated through interpretation of their spectral data. Sitosterol was also obtained.

Cytotoxic clerodane diterpenes from Polyalthia barnesii.

Three cytotoxic clerodane diterpenes were purified from an ethyl acetate-soluble extract of the stem bark of Polyalthia barnesii, namely, 16 alpha-hydroxycleroda-3,13(14)Z-dien-15,16-olide, a known compound, and two novel compounds, 3 beta, 16 alpha-dihydroxycleroda-4(18),13(14)Z-dien-15,16-olide and 4 beta, 16 alpha-dihydroxyclerod-13(14)Z-en-15,16-olide. These compounds were found to exhibit broad cytotoxicity against a panel of human cancer cell lines.

Biological screening of rain forest plot trees from Palawan Island (Philippines).

Study plots totaling 0.2 Ha were established in primary forest in the highlands of central Palawan Island, Philippines. Samples of various anatomical parts [typically leaf + twig (If/tw), stem bark (sb), and root (rt)] were collected from all tree species represented within the plots by individuals having a diameter at breast height > or = 10 cm. In all, 211 distinct samples were obtained from 68 tree species, representing 35 families (not including samples from 4 indeterminate species). Methanol extracts of these samples were tested in in vitro antiplasmodial, brine shrimp toxicity, and cytotoxicity assays. The following samples showed an IC50 < or = 10 microg/mL against either chloroquine-sensitive or chloroquine-resistant clones of Plasmodium falciparum: Acronychia laurifolia (sb), Agathis celebica (lf/tw), Aglaia sp. 1 (sb), Aglaia sp. 2 (lf/tw, rt), Bhesa sp. 1 (rt), Cinnamomum griffithii (lf/tw), Croton leiophyllus (rt), Dysoxylum cauliflorum (rt), Garcinia macgregorii (sb), Lithocarpus sp. 1 (rt, sb), Meliosma pinnata ssp. macrophylla (lf/tw, rt), Myristica guatteriifolia (lf/tw), Ochrosia glomerata (rt, sb), Swintonia foxworthyi (lf/tw), Syzygium sp. 1 (rt), Turpinia pomifera (rt), and Xanthophyllum flavescens (sb). Secondly, those samples which displayed > or = 50% immobilization of brine shrimp at 100 microg/mL were: Acronychia laurifolia (lf/tw/fruit, rt, sb), Agathis celebica (lf/tw, sb), Aglaia sp. 1 (lf/tw), Alphonsea sp. 1 (rt), Ardisia iwahigensis (lf/tw), Arthrophyllum ahernianum (lf/tw, rt, sb), Castanopsis cf. evansii (rt), Cinnamomum griffithii (lf/tw, rt), Croton argyratus (lf/tw), C. leiophyllus (lf/tw, rt), Dysoxylum cauliflorum (fruit, lf/tw, rt), Euonymus javanicus (rt), Glochidion sp. 1 (rt), Polyosma sp. 1 (rt), Symplocos polyandra (rt), Timonius gammillii (sb), and Xanthophyllum flavescens (rt). Lastly, samples which exhibited an IC50 < or = 20 microg/mL against one or more of the cancer cell lines employed (LU1, KB, KB-V1, P-388, LNCaP, or ZR-75-1) include: Acronychia laurifolia (lf/tw/fruit, rt, sb), Aglaia sp. 1 (sb), Aglaia sp. 2 (rt), Alphonsea sp. 1 (rt), Ardisia iwahigensis (lf/tw, rt, sb), Astronia cumingiana (sb), Croton argyratus (lf/tw, rt, sb), C. leiophyllus (lf/tw, rt), Dimorphocalyx murina (lf/tw, rt, sb), Lithocarpus caudatifolius (rt, sb), Litsea cf. sibuyanensis (rt), Syzygium cf. attenuatum (rt, sb), S. confertum (sb), Ternstroemia gitingensis (rt), and Ternstroemia sp. 1 (rt, sb).

Ethnobotanical approach versus random approach in the search for new bioactive compounds: Support of a hypothesis

Context: Whether natural product drug discovery programs should rely on wild plants collected “randomly” from the natural environment, or whether they should also include plants collected on the basis of use in traditional medicine remains an open question. Objective: This study analyzes whether plants with ethnomedical uses from Vietnam and Laos have a higher hit rate in bioassay testing than plants collected from a national park in Vietnam with the goal of maximizing taxonomic diversity (“random” collection). Materials and Methods: All plants were extracted and subjected to bioassay in the same laboratories. Results of assays of plant collections and plant parts (samples) were scored as active or inactive based on whether any extracts had a positive result in a bioassay. Contingency tables were analyzed using χ2 statistics. Results: Random collections had a higher hit rate than ethnomedical collections, but for samples, ethnomedical plants were more likely to be active. Ethnomedical collections and samples had higher hit rates for tuberculosis, while samples, but not collections, had a higher hit rate for malaria. Little evidence was found to support an advantage for ethnomedical plants in HIV, chemoprevention and cancer bioassays. Plants whose ethnomedical uses directly correlated to a bioassay did not have a significantly higher hit rate than random plants. Discussion: Plants with ethnomedical uses generally had a higher rate of activity in some drug discovery bioassays, but the assays did not directly confirm specific uses. Conclusions: Ethnomedical uses may contribute to a higher rate of activity in drug discovery screening.