In vitro and in vivo activity of new rhodium (III) complexes against Leishmania donovani.

The activities of 17 new rhodium drug complexes were determined against Leishmania donovani promastigotes. The five most active salts were selected: [Rh(III)(2-amino-6-ethoxybenzothiazole)(4)Br(2)](+)Br(-); [Rh(III)(2-bromothiazole)(4)(Br)(2)](+)Br(-); [Rh(III)(mefloquine)(4)(Cl)(2)](+)Cl(-); [Rh(III)(2-mepacrine)(4)(Cl)(2)](+)Cl(-), and [Rh(III)(oxamniquine)(4)(Cl)(2)](+)Cl(-), which induced growth-inhibition rates of more than 50% at 24 h of treatment and at the maximum dosage tested. The cytotoxicity assays on the macrophage cell line J-774 showed high cytotoxicity for the salts [Rh(III) (mefloquine)(4)(Cl)(2)](+)Cl(-), [Rh(III)(2-mepacrine)(4)(Cl)(2)](+)Cl(-) and [Rh(III)(oxaminquine)(4)(Cl)(2)](+)Cl(-) with a percentage of specific (15)Cr release of 49.3, 64.8 and 53.2% at 24 h of incubation and 100 microg/ml. Meanwhile, assays of the other compounds showed practically no cytotoxicity. The ultrastructural studies in the flagellates treated with the salt [Rh(III)(2-amino-6-ethoxybenzothiazole)(4)Br(2)](+)Br(-) showed some alterations in the nucleus of the parasites with a very condensed chromatin and an electrodense endosome. This compound showed a high in vivo activity in parasitized Wistar rats.

In vitro and in vivo activity of two Pt(IV) salts against leishmania donovani.

The activities of 8 platinum drug complex salts were determined against Leishmania donovani promastigotes. The three most active salts were selected: [PtIVBr6]H2 (pentamidine); [PtIVBr6]H2 (stilbamidine), and [PtIVCl6]H2 (2-piperazinyl(1) ethyl amine), which induced growth-inhibition rates of more than 50% at 24 h of treatment and at the maximum dosage tested. The cytotoxicity assays on the macrophage cell line J-774 showed high cytotoxicity for the salt [PtIVBr6]H2 (stilbamidine) with a percentage of specific 51Cr release of 58.2% at 24 h of incubation and 100 microg/ml. Meanwhile, assays of the other compounds showed practically no cytotoxicity. The salt [PtIVBr6]H2 (pentamidine) notably inhibited the incorporation of 3H-thymidine in the treated parasites. The ultrastructural alterations observed in the flagellates treated with the salts [PtIVCl6]H2 (2-piperazinyl(1)ethyl amine) and [PtIVBr6]H2 (pentamidine) suggest that both act preferentially at the nuclear level and at the kinetoplast-mitochondrion complex. Both compounds showed a high in vivo activity in parasitized Wistar rats.

Action of new organometallic complexes against Leishmania donovani.

The action of 16 newly synthesized metal complexes having the general structure cis-Pt-(II)-Xn-Ln have been tested in vitro against the promastigote forms of Leishmania donovani. The metal complexes at 24 h and maximum dosages inhibited growth from 0%, e.g. in cis-Pt-nifurtimox, to 100%, e.g. in cis-Pt-(2,3,4,5,6-pentafluoroaniline)2Br2 or cis-Pt-pentamidine-I2. A study of the cytotoxicty of these latter complexes on the phagocytic cell line J-774 showed neither high cytotoxicity nor cytolysis. At the maximum dosage after 24 h of permanent contact with the cells (extreme, non-physiological conditions), cytolysis did not exceed 30%. For most of the compounds, cytolysis ranged from 0%, for cis-Pt-oxamniquine-Cl2 to 27.7%, for cis-Pt-pentamidine-I2. The compound cis-Pt-(2,3,4,5,6-pentafluoroaniline)2-Br2 caused up to 1.4% cytolysis under the above conditions. Parasites exposed to cis-Pt-pentamidine-I2 showed notably reduced DNA, RNA and protein synthesis, unlike those exposed to other compounds. Parasites examined by electron microscopy showed effects mainly on the nucleus, though in some cases the mitochondria were affected, altering the internal membranes of the cytoplasmic organelles. The in-vivo activity of the complex cis-Pt-guanethidine-Cl2 was evaluated in parasitized Wistar rats, in which the number of amastigotes per gram of spleen was reduced by 75% compared with controls.

In vitro activity and biochemical effectiveness of new organometallic complexes of osmium(III) against Leishmania donovani and Trypanosoma cruzi.

In the present paper, the in vitro activities of 10 osmium(III) complexes with [OSIII(L)] degrees structure against promastigote forms of Leishmania donovani and epimastigote forms of Trypanosoma cruzi haven been assayed. The complexes OSIII-2,4dinitroimidazole dithiocarbamate, OSIII-4-nitroimidazole dithiocarbamate, OSIII-benznidazole dithiocarbamate and OSIII-2-amino-6-Br-benzothiazole dithiocarbamate induced high percentages of growth inhibition in the parasites. The four compounds showed moderate cell toxicity. The inhibitory effects of these complexes on macromolecule synthesis have been evaluated using [3H]-thymidine, [3H]-uridine and [3H]-leucine incorporation. These metal-drug complexes clearly inhibit the DNA, RNA and protein synthesis, as well as the enzymatic activities of succinate dehydrogenase, malate dehydrogenase and pyruvate kinase.

Antileishmanial action of organometallic complexes of Pt(II) and Rh(I)

The three organometallic complexes [(Cis-PtII (DDH) (2,5-Dihidroxibenzensulfonic)2, RhI (CO)2 Cl(2-Aminobenzothiazole) and RhI (CO)2 Cl(5-Cl-2-Methilbenzothiazole) used in this study had been previously found to have a high in vitro activity against promastigote and amastigote like forms of Leishmania donovani. Here, the cytotoxic effect of these new organometallic complexes on the J-774 macrophages were studied. Only the RhI(CO)2 Cl(2-Aminobenzothiazole) complex induced substantial toxicity in the cells. Also, we assayed the effect of this complex on the parasite's biosynthesis of macromolecules. The RhI(CO)2 Cl (5-Cl-2-Methylbenzothiazole) complex inhibitied DNA, RNA, and protein synthesis. On the other hand, the two other compounds tested did not inhibit the incorporation of radioactive precursors. Finally important ultrastructural alterations in the parasites treated with the two non-cytotoxic complexes were observed.

Antileishmanial action of organometallic complexes of Pt(II) and Rh(I).

The three organometallic complexes [(Cis-PtII (DDH) (2,5-Dihidroxibenzensulfonic)2, RhI(CO)2Cl(2-Aminobenzothiazole) and RhI(CO)2Cl(5-Cl-2-Methilbenzothiazole)] used in this study had been previously found to have a high in vitro activity against promastigote and amastigote like forms of Leishmania donovani. Here, the cytotoxic effect of these new organometallic complexes on the J-774 macrophages were studied. Only the RhI(CO)2Cl(2-Aminobenzothiazole) complex induced substantial toxicity in the cells. Also, we assayed the effect of this complex on the parasite's biosynthesis of macromolecules. The RhI(CO)2Cl(5-Cl-2-Methylbenzothiazole) complex inhibited DNA, RNA, and protein synthesis. On the other hand, the two other compounds tested did not inhibit the incorporation of radioactive precursors. Finally important ultrastructural alterations in the parasites treated with the two non-cytotoxic complexes were observed.

Activity and mode of action of acridine compounds against Leishmania donovani.

In the present work, we have assayed both the in vitro and in vivo action of two acridine compounds against Leishmania donovani. As part of this effort, we have studied the possible action mechanism of these compounds at the ultrastructural and biochemical levels and in relation to the synthesis of macromolecules. The two acridinones inhibit the in vitro growth of the promastigote forms of L. donovani at the highest concentration assayed (100 micrograms/ml). The in vivo results indicate that both compounds reduce the number of amastigotes per gram of spleen, and decrease parasitism, by more than 40%. With respect to the action mechanism, both compounds inhibit the incorporation of [3H]thymidine, inducing alterations at the ultrastructural level in the DNA and mitochondria. Alterations are also caused in the enzymes of the Krebs cycle.

In vitro action of new organometallic compounds against Trypanosomatidae protozoa.

The effects of 10 newly synthesized organometallic rhodium complexes (5 of Rh(I), 4 of Rh(III) and one of Rh(IV) complex salt) and 2 antimony (III) complexes against epimastigote forms of Trypanosoma cruzi and promastigote forms of Leishmania donovani have been studied in vitro. Of the 10 rhodium complexes tested three proved 100% efficient in inhibiting the growth of the epimastigote forms of T. cruzi while only one worked against the promastigote forms of L. donovani. The two antimony complexes inhibited the growth of L. donovani totally and were fairly successful against T. cruzi.

1,4-Dimethoxy-9(10H)-acridinone derivatives. Synthesis, DNA binding studies and trypanocidal activity.

New acridinonic derivatives, which are hydroxy- and methoxy-substituted in positions 1, 4, and 1,4 were prepared with a view to obtain antiparasitic drugs. These compounds were tested against Trypanosoma cruzi strains and their capability of interacalation into DNA was determined. Nucleus substitutions, DNA binding, and trypanocidal activities have been correlated.

In vitro action of platinum (II) and platinum (IV) complexes on Trypanosoma cruzi and Leishmania donovani.

The in vitro activities of 22 neutral Pt(II) complexes, 4 Pt(IV) complex salts, and one Pt(II) complex salt on epimastigote forms of Trypanosoma cruzi and promastigote forms of Leishmania donovani were studied. Only 2 out of the 18 complexes with cis-Pt(DDH)Xn structure completely inhibited the growth of the epimastigote forms of T. cruzi and the promastigote of L. donovani. Against T. cruzi the cis-Pt(L)n(Cl)2 complexes showed no activities, but the complex in which the (L) ligand was stilbamidine did show a limited activity against L. donovani. Of the Pt(IV)complex salts, [Pt X6]H2(L) were very active against the epimastigote forms of T. cruzi. However, the Pt(II) complex salt [cis-Pt Cl4]H2 (pentamidine) showed no activity. The actions of the Pt(IV) complex salts on the promastigote forms of L. donovani were different and only those salts in which the (L) ligand was pentamidine or stilbamidine induced parasite growth inhibition. The one Pt(II) salt tested showed no antiparasitic activity. At the same time, the known antiparasitic activities of the nifurtimox and pentamidine molecules were confirmed.