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.

Antitrypanosomal properties of cis-platinum-pentamidine bromide, thiocyanate and seleniocyanate on Trypanosoma brucei brucei mouse and sheep models.

Three organometallic complexes derived from pentamidine were evaluated for their trypanocidal effect on in vivo Trypanosoma brucei brucei models in comparison to pentamidine isethionate as reference compound. On the T. b.brucei mouse model, the most active compound was cis-platinum-pentamidine bromide. This compound was active when subcutaneously administered at the single dose of 1.5 micromol/kg and its chemotherapeutic index was 200 whereas pentamidine isethionate was active at 6 micromol/kg with a chemotherapeutic index of 13, when administered in the same conditions. Cis-platinum-pentamidine bromide was active at 1 mg/kg (1.44 mmoles/kg), in a single dose by subcutaneous route against the early stage of the T. b.brucei Antat 1-9 sheep model. Platinum kinetics in serum showed a Cmax of 0.2 mg/l reached 80 h after the treatment at this dose. Cis-platinum-pentamidine bromide, cis-platinum-pentamidine seleniocyanate, and cis-platinum-pentamidine thiocyanate were distributed in the deep compartment according to a monocompartmental model. In all cases, platinum was eliminated from the serum 700 hours post-treatment. All data obtained from these models show activity on the early stage of the disease and justify further investigations on the late stage of the disease.

In vivo antileishmanial action of Ir-(COD)-pentamidine tetraphenylborate on Leishmania donovani and Leishmania major mouse models.

Ir-(COD)-pentamidine tetraphenylborate which has previously been studied on promastigote forms of Leishmania, was investigated for its antileishmanial properties compared with pentamidine used as reference compound. In vitro, the iridium complex had the same IC50 value on intracellular forms of Leishmania as pentamidine (15 microM). In vivo, the compound could not be injected intravenously due to the DMSO excipient so that the treatments were performed intraperitoneally or subcutaneously. On the L. donovani LV9/Balb/C mouse model, the iridium complex was not toxic after intraperitoneal treatment at 232 mg/kg/day x 5 or 147 mumoles/kg/day x 5, whereas all the mice died within five days when treated at the same dose with pentamidine isethionate. However, only 23% of parasite suppression was observed with the iridium complex. On a L. major MON 74/Balb/C mouse model, susceptible to intravenously administered pentamidine at 6.7 mumoles/kg/day x 5 (54% of parasite suppression), the iridium complex exhibited 32% of parasite suppression after a treatment at 76 mumoles/kg/day x 5 administered subcutaneously. This slight activity is of interest since pentamidine isethionate is not active under these conditions. Transmission electron microscopy of amastigotes from infected and treated mice show aggregation of ribosomal material, distension of the nuclear membrane and kDNA depolymerization. The mechanism of action therefore involves several targets: membranes, ribosomes and kDNA. According to our results, the Iridium complex is a suitable candidate to be encapsulated in drug carriers such as liposomes or nanoparticles.

In vitro antifilarial activity of organometallic complexes against infective larvae of Molinema dessetae and adult females of Brugia pahangi.

New organometallic complexes having protozoocidal properties were evaluated for their in vitro antifilarial activity using two models: infective larvae of Molinema dessetae and adult females of Brugia pahangi. The compound most active on the M. dessetae model was Ir(I)-COD-pentamidine tetraphenylborate with an EC50 = 6 +/- 1 microM after 7-day-incubation. In the 2-aminobenzothiazole series, Ruthenium was more potent than Iridium for antifilarial activity. A dithiocarbamate function significantly enhanced the antifilarial activity. The compounds derived from benzimidazole were inactive whatever the metal (Iridium or Rhodium). The other compounds exhibited EC50 ranging from 10 to 31 microM. On adult female Brugia pahangi in vitro, Pt-DDH-N-acetylleucine, Pt-diminazene and Pd-Cl4-piperazine at 20 microM began to kill both microfilariae and the developing embryos within the mothers on day 2. The compounds, except for Pd-Cl4-piperazine, killed the adults after 5 days. Rh-Cl-2-chloropyridine caused obvious slowing of the adults from day 3 onward but did not affect the viability of adults, microfilariae or developing embryos. In vivo antifilarial investigations are necessary to appreciate the real advantage of heavy metal complexes in the experimental treatment of filariasis.

Uptake into leishmania donovani promastigotes and antileishmanial action of an organometallic complex derived from pentamidine.

Iridium (Ir)-(COD)-pentamidine tetraphenylborate (CAS 225-75-4) was selected from a primary screening to be evaluated in vitro on three Leishmania (L.) strains comparatively to pentamidine used as reference compound. The IC50 values obtained from in vitro evaluation on promastigotes of L. major CRE 26, L. donovani DD8 and L. donovani LV9 were 3.9, 23.5, and 3.3 mumol/l for Ir-(COD)-pentamidine tetraphenylborate and 1.6, 7.7, and 3.9 mumol/l for pentamidine isethionate, respectively. Cytotoxicity on mouse peritoneal macrophages led to determine a chemotherapeutic index of 1.7 for Ir-(COD)-pentamidine tetraphenylborate and 4 for pentamidine. Considering L. donovani DD8, the uptake of iridium complex by the promastigotes was shown to be saturable with a Km value of 17.4 mumol/l and Vmax of 1.3 nmol/mg protein/2 h. After 2 and 4 h incubation of treated promastigotes in drug free medium the absence of Ir-complex efflux is in favour of intracellular drug binding. As a matter of fact iridium complex was shown to bind ribosomal subunits in vitro, with no effect on macromolecular biosynthesis.

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.

Trypanocidal effect of Ir-(COD)-pentamidine tetraphenylborate on Trypanosoma brucei and T. b. gambiense rodent models and serum kinetics in sheep.

Pentamidine di-(iridium cyclo-octadiene)tetraphenylborate, called Ir-(COD)-pentamidine tetraphenylborate, was selected from a primary screening as a promising trypanocidal compound. The compound was evaluated against three isolates: Trypanosoma brucei brucei CMP, T.b. brucei GVR 35 and T.b. gambiense Feo. On the T.b. brucei GVR 35 murine CNS model, no mouse was cured when the treatment was commenced 21 days post-infection whatever the treatment regimen. Nevertheless, in vitro the compound killed the trypomastigote forms of T. b. gambiense Feo at 0.6 microM. In vivo, the compound cured all mice infected 1 hour previously with T. b. gambiense Feo after a 10 mg/kg (6.3 mumol/kg) treatment subcutaneously administered in a single dose. Moreover, the compound was active at 1 mg/kg (0.6 mumol/kg) in a single dose against the early stage of the T. b. brucei Antat 1-9 sheep model. Serum kinetics data showed that pentamidine di-(iridium cyclo-octadiene) tetraphenylborate was distributed within deep compartment according to a monocompartmental model. The maximum iridium serum concentration was 198 micrograms/l corresponding to 1 mumol/kg of iridium derivative and this value remained stable for 30-50 hours post-treatment. Iridium was completely eliminated from the serum 700 hours post-treatment. all data obtained from these models are in favour of an activity in the early stage of the disease but indicate that the compound could not cross the blood-brain barrier despite its lipophilicity. Although iterative treatments with the compound rapidly induced the selection of iridium derivative refractory populations, the compound could be studied on pentamidine refractory strains.

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.

Trypanosoma brucei brucei: antitrypanosomal evaluation of stilbamidinium hexachloroiridiate on the murine CNS model and iridium serum kinetics in infected sheep.

Stilbamidinium hexachloroiridiate was found trypanocidal in vitro against Trypanosoma brucei brucei IPP at 600 microM after a 1 h incubation period and 30 microM after 24 h. This activity was confirmed in mice with a subcutaneous treatment at 20 mg/kg in a single dose. It was then evaluated on T.b. brucei murine CNS model. At the early stage, a subcutaneous treatment at 2 mg/kg/day x 5 cured 50% mice where-as one single dose at 10 mg/kg was completely inactive. Higher doses failed to cure the mice. Nevertheless, hexachloroiridiate salt of stilbamidine was 3.3 fold less toxic than dihydrochloride salt. Although the compound appeared inactive at the late stage of the murine trypanosomiasis, the difference of toxicity justified its evaluation on the early stage of sheep trypanosomiasis. The compound was trypanocidal at 2 mg/kg in a single dose when administered 8 days after infection. The study of iridium serum kinetic showed that stilbamidinium hexachloroiridiate was distributed rapidly according to a monocompartmental model. Moreover, iridium persisted in serum for a long time. The compound in aqueous suspension with 1% carboxymethylcellulose acted therefore as a controlled release system with a bioavailability allowing its trypanocidal action at the early stage.

The anti Z-DNA reactivity of Z-DNA forming sequences is affected by platinum antitumor drugs.

The effect of binding of platinum antitumor drugs, cis-diamminedichloroplatinum (II) (cis-DDP) and Pt-pentamidine, on the Z-DNA reactivity of potential Z-DNA forming sequences has been studied by enzyme-linked immunosorbent assay. The results indicate that cis-DDP and Pt-pentamidine increase the Z-DNA reactivity of plasmids containing a (dG-dC)16 insert (pUCZ8) and a native Z-DNA forming sequence of Drosophila hydei (pF18). The molar ratio of platinum bound to nucleotides (rb) to produce 50% of Z-DNA reactivity was 0.10 for cis-DDP:pF18, 0.15 for Pt-pentamidine:pF18, and 0.10 for cis-DDP:pUCZ8 and Pt-pentamidine:pUCZ8. The efficacy of Pt-pentamidine to provoke Z-DNA reactivity is 2.5-fold higher than that of cis-DDP. While Pt-pentamidine was capable of inducing Z-DNA reactivity in a GC-rich DNA sequence of the hsp 70 protein of Trypanosoma cruzi (p2M4EO3) and in sequences of pUC8, cis-DDP suppresses Z-DNA reactivity. CD spectra of poly(dG-me5dC).poly(dG-me5dC) modified by the drugs suggest that the increase in Z-DNA reactivity observed in plasmids upon drug binding may be due to shifting towards Z-DNA or a Z-DNA like conformation.

Binding of Pt-pentamidine to nucleosomal DNA. Studies of the antiproliferative activity of the drug against human cancer cells.

In the present paper we present data showing that the effect of the binding of the antitumour drug Pt-pentamidine to nucleosomal DNA is the opposite to that of the cis-DDP compound since it causes strong stabilization of the double helix to heat denaturation and because in nucleosome:Pt-pentamidine complexes the nucleosomal denatured DNA is able to reassociate at 71 degrees C. Upon binding, the pentamidine ligand, by itself, also produces stabilization of the nucleosomal DNA but the effect is lower than that induced by Pt-pentamidine. It seems that in Pt-pentamidine:nucleosome complexes about 50% of the adducts are formed during the first hour of incubation of the nucleosomes with the drug since the increase in Tm of the DNA of these complexes is 53% of the total increase in Tm of the DNA of the Pt-pentamidine:nucleosome complexes formed in 48 h. The 'in vitro' screening of the antiproliferative activity of Pt-pentamidine against 60 tumour cell lines indicated that this antitumour compound shows higher antiproliferative activity against small cell lung, non-small cell lung and melanoma cancer lines than against the rest of the cell lines.

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.

Trypanocidal activity and platinum plasma kinetics of cis-Pt pentamidine iodide in Trypanosoma brucei sheep model.

The trypanocidal properties of cis-Pt pentamidine iodide have been studied on the T. b. brucei sheep model. The compound was evaluated on the lymphatic-plasma phase of the disease and appeared to be active on the circulating parasites. Cis-Pt pentamidine iodide was active at 5 mgl.kg-1 in one single dose both in mouse and sheep trypanosomiasis models. The chemotherapeutic index was about 200 in the mouse. As we observed previously with the chloride derivative, platinum plasma values for cis-Pt pentamidine iodide were rather constant between 24 and 48 hours. The nature of the salt associated to cis-Pt pentamidine had a direct effect on the compound kinetics. The iodide compound was distributed quickly and largely within deep compartments according to a monocompartmental model. The theoretical volume of distribution was 6.41.kg-1 for a 100% absorbed fraction. The two iodide ions of the complex probably played an important role in the compound kinetics mainly due to the extended release effect. The iodide salt of cis-Pt pentamidine could therefore be used in chemoprophylaxis of African trypanosomiasis.

Pharmacomodulations on new organometallic complexes of Ir, Pt, Rh, Pd, Os: in vitro and in vivo trypanocidal study against Trypanosoma brucei brucei.

New organometallic complexes have been synthesized by association of an active organic molecule with a metallic element such as Pt, Rh, Ir, Pd, Os. Their trypanocidal activity was studied in vitro and in vivo against T. b. brucei. The more active compounds were pentamidine derivatives. The Ir- COD-pentamidine complex, and Iridium (I) cationic and organometallic complex showed and in vitro activity at 60 micrograms/l. Moreover, all infected mice were cured by this compound subcutaneously administered in a single dose at 0.5 mg/kg (0.317 mumol/kg). In the same conditions, pentamidine cured all the mice at 5 mumol/kg. Ir-COD-pentamidine (or P1995) was 16 fold more efficient than pentamidine. Since the chemotherapeutic index of this molecule was 7.5 fold higher than those of pentamidine, P1995 can be considered as a potential trypanocidal drug of the future.