Subscribe to RSS
DOI: 10.1055/s-0034-1382994
Alchornedine, a New Anti-Trypanosomal Guanidine Alkaloid from Alchornea glandulosa
Publication History
received 23 April 2014
revised 24 June 2014
accepted 21 July 2014
Publication Date:
01 September 2014 (online)
Abstract
Bioactivity-guided fractionation of the MeOH extract from the leaves of Alchornea glandulosa afforded a new guanidine alkaloid named alchornedine, as well as two other inactive derivatives (pteroginine and pteroginidine). The structure of alchornedine, which shows a very rare ring system, was elucidated based on NMR, IR, and MS spectral analyses. This compound displayed antiprotozoal activity against Trypanosoma cruzi (Y strain). By using the MTT assay, the trypomastigotes showed an IC50 value of 93 µg/mL (443 µM), a similar effectiveness to the standard drug benznidazole. Alchornedine also showed activity against the intracellular amastigotes, with an IC50 value of 27 µg/mL (129 µM). Using benznidazole as a standard drug, this guanidine alkaloid was approximately 3-fold more effective against the intracellular form of T. cruzi. The mammalian cytotoxicity of alchornedine was verified against NCTC cells and demonstrated an IC50 of 50 µg/mL (237 µM), but this compound demonstrated a selective elimination of parasites inside macrophages without affecting the morphology of the host cells. Alchornedine was effective against both clinical forms of T. cruzi and could be used as a scaffold for future drug design studies against American trypanosomiasis.
-
References
- 1 Ventura-Garcia L, Roura M, Pell C, Posada E, Gascón J, Aldasoro E, Muñoz J, Pool R. Socio-cultural aspects of Chagas disease: a systematic review of qualitative research. PLoS Negl Trop Dis 2013; 7: e2410
- 2 Rivera G, Bocanegra-García V, Ordaz-Pichardo C, Nogueda-Torres B, Monge A. New therapeutic targets for drug design against Trypanosoma cruzi, advances and perspectives. Curr Med Chem 2009; 16: 3286-3293
- 3 Schmidt TJ, Khalid SA, Romanha AJ, Alves TM, Biavatti MW, Brun R, Da Costa FB, de Castro SL, Ferreira VF, de Lacerda MV, Lago JHG, Leon LL, Lopes NP, das Neves Amorim RC, Niehues M, Ogungbe IV, Pohlit AM, Scotti MT, Setzer WN, de N C Soeiro M, Steindel M, Tempone AG. The potential of secondary metabolites from plants as drugs or leads against protozoan neglected diseases – part I. Curr Med Chem 2012; 19: 2128-2175
- 4 Lopes FC, Calvo TR, Vilegas W, Carlos IZ. Inhibition of hydrogen peroxide, nitric oxide and TNF-alpha production in peritoneal macrophages by ethyl acetate fraction from Alchornea glandulosa . Biol Pharm Bull 2005; 28: 1726-1730
- 5 Conegero LS, Ide MS, Nazari AS, Sarragiotto MH, Filho BPD, Nakaruma CV, Carvalho JE, Foglio MA. Constituintes químicos de Alchornea glandulosa (Euphorbiaceae). Quím Nova 2003; 26: 825-827
- 6 Lopes FC, Rocha A, Pirraco A, Regasini LO, Siqueira JR, Silva DH, Bolzani VS, Carlos IZ, Soares R. Alchornea glandulosa ethyl acetate fraction exhibits antiangiogenic activity: preliminary findings from in vitro assays using human umbilical vein endothelial cells. J Med Food 2011; 14: 1244-1253
- 7 Calvo TR, Lima ZP, Silva JS, Ballesteros KV, Pellizzon CH, Hiruma-Lima CA, Tamashiro J, Brito AR, Takahira RK, Vilegas W. Constituents and antiulcer effect of Alchornea glandulosa: activation of cell proliferation in gastric mucosa during the healing process. Biol Pharm Bull 2007; 30: 451-459
- 8 Lopes FCM, Rocha A, Pirraco A, Regasini LO, Silva DHS, Bolzani VS, Azevedo I, Carlos IZ, Soares R. Anti-angiogenic effects of pterogynidine alkaloid isolated from Alchornea glandulosa. BMC Compl Alt Med 2009; 9: 15-25
- 9 Rea A, Tempone AG, Pinto EG, Mesquita JT, Rodrigues E, Silva LG, Sartorelli P, Lago JHG. Soulamarin isolated from Calophyllum brasiliense (Clusiaceae) induces plasma membrane permeabilization of Trypanosoma cruzi and mytochondrial dysfunction. PLoS Negl Trop Dis 2013; 7: e2556
- 10 Tempone AG, de Oliveira CM, Berlinck RG. Current approaches to discover marine antileishmanial natural products. Planta Med 2011; 77: 572-585
- 11 Bolzani VS, Gunatilaka AAL, Kingston DGI. Bioactive guanidine alkaloids from Pterogyne nitens . J Nat Prod 1995; 58: 1683-1688
- 12 Cho SY, Kang SK, Ahn JH, Ha JD, Choi JK. Scandium(III) triflate–TMSCl promoted cyclization of aziridin-1-yl oximes to 5, 6-dihydro-4H-[1, 2, 4]oxadiazines. Tetrahedron Lett 2006; 47: 9029-9033
- 13 Hua HM, Peng J, Fronczek FR, Kelly M, Hamann MT. Crystallographic and NMR studies of antiinfective tricyclic guanidine alkaloids from the sponge Monanchora unguifera . Bioorg Med Chem 2004; 12: 6461-6464
- 14 Hua HM, Peng P, Dunbar DC, Schinazi RF, Andrews AGC, Cuevas C, Garcia-Fernandez LF, Kelly M, Hamann MT. Batzelladine alkaloids from the caribbean sponge Monanchora unguifera and the significant activities against HIV-1 and AIDS opportunistic infectious pathogens. Tetrahedron 2007; 63: 11179-11188
- 15 Takishima S, Ishiyama A, Iwatsuki M, Otoguro K, Yamada H, Omura S, Kobayashi H, van Soest RWM, Matsunaga S. Merobatzelladines A and B, anti-infective tricyclic guanidines from a marine sponge Monanchora sp. Org Lett 2009; 11: 2655-2658
- 16 Laville R, Thomas OP, Berrué F, Marquez D, Vacelet J, Amade P. Bioactive guanidine alkaloids from two Caribbean marine sponges. J Nat Prod 2009; 72: 1589-1594
- 17 Patil AD, Kumar NV, Kokke WC, Bean MF, Freyer AJ, De Brosse C, Mai S, Truneh A, Faulkner DJ, Carte B, Breen AL, Hertzberg RP, Johnson RK, Westley JW, Potts BCM. Novel alkaloids from the sponge Batzella sp.: inhibitors of HIV gp120-human CD4 binding. J Org Chem 1995; 60: 1182-1188
- 18 Corrêa DS, Tempone AG, Reimão JQ, Taniwaki NN, Romoff P, Fávero OA, Sartorelli P, Mecchi MC, Lago JHG. Anti-leishmanial and anti-trypanosomal potential of polygodial isolated from stem barks of Drimys brasiliensis Miers (Winteraceae). Parasitol Res 2011; 109: 231-236
- 19 Reimão JQ, Scotti MT, Tempone AG. Anti-leishmanial and anti-trypanosomal activities of 1,4-dihydropyridines: In vitro evaluation and structure-activity relationship study. Bioorg Med Chem 2010; 18: 8044-8053