Discovery of trypanocidal thiosemicarbazone inhibitors of rhodesain and TbcatB

Human African trypanosomiasis (HAT) is caused by the protozoan parasite Trypanosoma brucei. The cysteine proteases of T. brucei have been shown to be crucial for parasite replication and represent an attractive point for therapeutic intervention. Herein we describe the synthesis of a series of thiosemicarbazones and their activity against the trypanosomal cathepsins TbcatB and rhodesain, as well as human cathepsins L and B. The activity of these compounds was determined against cultured T. brucei, and specificity was assessed with a panel of four mammalian cell lines.     

Expression of alternative oxidase inhibits programmed cell death-like phenomenon in bloodstream form of Trypanosoma brucei rhodesiense

Trypanosoma brucei rhodesiense is one of the causative agents of African Trypanosomiasis. Programmed cell death (PCD) is fundamental in the development, homeostasis and immune mechanisms of multicellular organisms. It has been shown that, other than occurring in multicellular organisms, the PCD phenomenon also takes place in unicellular organisms. In the present study, we have found that under high-density axenic culture conditions, bloodstream form of T. b. rhodesiense depicts a PCD-like phenomenon. We investigated the association of the PCD-like phenomenon with expression of trypanosome alternative oxidase (TAO) under low-temperature stress conditions. We observed that bloodstream form of T. b. rhodesiense did not show any PCD but had up-regulated expression of TAO. Inhibition of TAO by the addition of ascofranone caused the development of PCD in bloodstream T. b. rhodesiense under low-temperature stress, implying that expression of TAO may contribute to the inhibition of PCD.     

Studies on Trypanosoma vivax: The infectivity of cyclically and mechanically transmitted ruminant infections for mice and rats

The infection of laboratory rodents by cyclically established Trypanosoma vivax infections in ruminants was only successful for a period up to 4 weeks after the first fly feed on the ruminants; rats and mice were equally susceptible. Similar results were obtained when ruminants were inoculated by syringe with infected blood from the early stage of a cyclically transmitted T. vivax infection. The development of antibodies, as measured by fluorescence, in the ruminants had no influence on the outcome of the rodent-inoculations.

When blood was inoculated into susceptible oxen from the later chronic stage of a cyclically and from a mechanically established bovine infection, subsequent rodent infections were achieved only occasionally; parasitaemia in the rodents was low and the patent period short. It was concluded that the infectivity of T. vivax for rodents was predominantly a characteristic of the isolate and not of the donor or recipient mammalian species. The value of blood inoculation of rodents in epidemiological studies for detecting early infections of T. vivax is emphasized.     

Major acute phase response of haptoglobin and serum amyloid-P following experimental infection of mice with Trypanosoma brucei brucei

Investigation of the pathophysiological role of the systemic cytokines, including interleukin-1, interleukin-6 and tumour necrosis factor , in the host response to infection with African trypanosomes is hampered by the low and transient concentrations of these cytokines in plasma. One of the actions of these cytokines is the stimulation of hepatocyte production of acute phase proteins such as serum amyloid-P and haptoglobin. These acute phase proteins are more stable in the circulation than the cytokines and can be measured as a means of assessing the systemic cytokine response in the trypanosome-infected host. The plasma concentrations of serum amyloid-P and haptoglobin were measured in an experimental mouse model of Trypanosoma brucei brucei infection. Both serum amyloid-P and haptoglobin, increased markedly following infection. Peak concentrations of serum amyloid-P at 125 μg/ml and haptoglobin at 2 g/l were attained 10 to 12 days after infection. Thereafter, serum amyloid-P concentration decreased to approximately 40 μg/ml while the haptoglobin concentration remained elevated at approximately 1.5 g/l. The reactions of the serum amyloid-P and haptoglobin following experimental Trypanosoma brucei brucei infection in mice demonstrate that a major acute phase response has occurred indicating that the systemic cytokine network has been activated. Further studies are required to identify whether the response is stimulated by the parasite or indirectly by tissue damage.     

Antitrypanosomal activities and cytotoxicity of 5-nitro-2-furancarbohydrazides

A series of 5-nitro-2-furancarbohydrazides were synthesized. In vitro antitrypanosomal activities of these compounds were determined against the closely related protozoa Trypanosoma cruzi Trypanosoma brucei and discussed in relation to potential targets.     

Strain-specific difference in amino acid sequences of trypanosome alternative oxidase

Cyanide-insensitive trypanosome alternative oxidase (TAO) is the terminal oxidase of the respiratory chain of long slender bloodstream forms of the African trypanosome, which causes sleeping sickness in human and nagana in cattle. TAO has been targeted for the development of anti-trypanosomal drugs because it does not exist in the host. The cDNA for TAO has been cloned from Trypanosoma brucei brucei EATRO110 strain and has been used for further characterization. In this study, we found amino acid sequence of the C-terminal part of TAO from the strain that we are using, T. b. brucei TC221, is considerably different from that of the EATRO110 strain.     

Subcellular localization of a variable surface glycoprotein phosphatidylinositol-specific phospholipase-C in African trypanosomes

African trypanosomes contain a membrane-bound enzyme capable of removing dimyristylglycerol from the membrane-attached form of the variable surface glycoprotein (mfVSG; Ferguson, M. A. J., K. Halder, and G. A. M. Cross, 1985, J. Biol Chem., 260:4963-4968). Although mfVSG phospholipase-C has been implicated in the removal of the VSG from the trypanosome surface (Cardoso de Almeida, M. L., and M. J. Turner, 1983, Nature (Lond.)., 302:349-352; Ferguson, M. A. J., K. Halder, and G. A. M. Cross, 1985, J. Biol Chem., 260:4963-4968), its precise function and subcellular location have not been determined. We have developed a procedure for the separation of the cell fractions and organelles of Trypanosoma brucei brucei (and other trypanosome species) by differential sucrose and isopycnic PercollR centrifugation. These fractions were tested for mfVSG phospholipase activity using Trypanosoma brucei mfVSG labeled with 3H-myristic acid as substrate. The highest enzyme-specific activity was associated with the flagella and evidence is presented to suggest that it is localized in the flagellar pocket. Some activity was also associated with the Golgi complex. These results suggest that the mfVSG phospholipase is localized primarily in the membrane of the flagella pocket and possibly other membrane organelles derived from and associated with this structure, and may be part of the VSG-membrane recycling system in African trypanosomes. The activity of mfVSG phospholipase amongst various trypanosome species was determined. We show that, in contrast to the bloodstream forms of Trypanosoma brucei, cultured procyclic Trypanosoma brucei and bloodstream Trypanosoma vivax had little or no mfVSG phospholipase activity. The activity found in bloodstream forms of Trypanosoma congolense was intermediate between Trypanosoma vivax and Trypanosoma brucei.     

Further studies on difluoromethylornithine in African trypanosomes

DL-alpha-Difluoromethylornithine (DFMO), a specific enzyme-activated irreversible inhibitor of ornithine decarboxylase (ODC) was previously shown to cure mice infected with Trypanosoma brucei brucei, a parasite of game and cattle in Africa and Trypanosoma brucei rhodesiense, a human African Sleeping Sickness pathogen. Our studies now indicate that DFMO blocks ornithine decarboxylase and lowers trypanosome polyamine levels in vivo. Polyamine uptake in T.b. brucei also resembles that previously described for mammalian cells. The therapeutic potential of DFMO can now also be extended to another human pathogen, Trypanosoma brucei gambiense. Finally, DFMO acts synergistically with another drug, bleomycin, to cure acute trypanosome infections, and furthermore, this same drug combination provides a new approach to the treatment of trypanosomal infections of the central nervous system.     

Alternative oxidase (AOX) genes of African trypanosomes: phylogeny and evolution of AOX and plastid terminal oxidase families

To clarify evolution and phylogenetic relationships of trypanosome alternative oxidase (AOX) molecules, AOX genes (cDNAs) of the African trypanosomes, Trypanosoma congolense and Trypanosoma evansi, were cloned by PCR. Both AOXs possess conserved consensus motifs (-E-, -EXXH-). The putative amino acid sequence of the AOX of T. evansi was exactly the same as that of T. brucei. A protein phylogeny of trypanosome AOXs revealed that three genetically and pathogenically distinct strains of T. congolense are closely related to each other. When all known AOX sequences collected from current databases were analyzed, the common ancestor of these three Trypanosoma species shared a sister-group position to T. brucei/T. evansi. Monophyly of Trypanosoma spp. was clearly supported (100% bootstrap value) with Trypanosoma vivax placed at the most basal position of the Trypanosoma clade. Monophyly of other eukaryotic lineages, terrestrial plants + red algae, Metazoa, diatoms, Alveolata, oomycetes, green algae, and Fungi, was reconstructed in the best AOX tree obtained from maximum likelihood analysis, although some of these clades were not strongly supported. The terrestrial plants + red algae clade showed the closest affinity with an alpha-proteobacterium, Novosphingobium aromaticivorans, and the common ancestor of these lineages, was separated from other eukaryotes. Although the root of the AOX subtree was not clearly determined, subsequent phylogenetic analysis of the composite tree for AOX and plastid terminal oxidase (PTOX) demonstrated that PTOX and related cyanobacterial sequences are of a monophyletic origin and their common ancestor is linked to AOX sequences.     

Correlation between conformation and antibody binding: NMR structure of cross-reactive peptides from T. cruzi, human and L. braziliensis

The structure of peptides corresponding to the C-terminal residues from Trypanosoma cruzi (R13), human (H13) and Leishmania braziliensis (A13) ribosomal proteins were determined using nuclear magnetic resonance. Although there is only one amino acid difference between them, the peptides present distinct structures in solution: R13 adopts a random coil conformation while H13 and A13 form a bend. Interaction of these peptides with polyclonal antibodies from chronic Chagas’ disease patients and a monoclonal antibody raised against T. cruzi ribosomal P2β protein was probed by transferred NOE. The results show that the flexibility of R13 is fundamental for the binding to the antibody.     

Trypanosoma brucei: peptide mapping of partially homologous variable surface glycoproteins.

Antigenic variation in Trypanosoma brucei is caused by amino acid sequence changes in a major surface glycoprotein. Each trypanosome may contain between 100 and 1000 genes coding for this glycoprotein. Some of these genes are members of partially homologous gene families. In addition, segments of different genes may combine to form 'hybrid' or 'mosaic' genes. Thus, surface glycoproteins exist containing varying amounts of amino acid sequence homology. For investigations of molecular mechanisms of antigenic diversity it is important to identify sub-sets of trypanosomes expressing related surface glycoproteins. We describe here a simple method based on trypanosome surface labeling followed by peptide mapping to indicate homologous peptides present in one sub-set of T. brucei surface glycoproteins.     

Alkaloids from Narcissus angustifolius subsp. transcarpathicus (Amaryllidaceae)

Seven alkaloids have been isolated from fresh bulbs of Narcissus angustifolius subsp. transcarpathicus (Amaryllidaceae). Nangustine, reported here for the first time, is the first 5,11-methanomorphanthridine alkaloid with a C-3/C-4 substitution. The structure and stereochemistry of this new alkaloid, as well as those previously known, have been determined by physical and spectroscopic methods. Spectroscopic data of pancracine have been completed. The in vitro assay activity against the parasitic protozoa Trypanosoma brucei rhodesiense, Trypanosoma cruzi, Leishmania donovani and Plasmodium falciparum was carried out with the compounds nangustine and pancracine.     

In vitro antiprotozoal activity of the lipophilic extracts of different parts of Turkish Pistacia vera L.

Thirteen lipophilic extracts prepared with n-hexane from various parts of Pistacia vera L. tree (Anacardiaceae) growing in Turkey were screened for their in vitro activity against four parasitic protozoa, Trypanosoma brucei rhodesiense, Trypanosoma cruzi, Leishmania donovani and Plasmodium falciparum. Melarsoprol, benznidazole, miltefosine, artemisinin and chloroquine were used as reference drugs. The cytotoxic potentials of the extracts on rat skeletal myoblast (L6) cells were also assessed and compared to that of podophyllotoxin. The screening method employed was medium-throughput, where the extracts were tested at two concentrations, at 0.8 and 4.8 μg/ml (T. brucei rhodesiense, L. donovani and Plasmodium falciparum), or at 1.6 and 9.7 μg/ml (T. cruzi and L6 cells). At 4.8 μg/ml concentration, the branch extract of Pistacia vera (PV-BR) significantly inhibited (77.3%) the growth of L. donovani, whereas the dry leaf extract (PV-DL) was active against Plasmodium falciparum (60.6% inhibition). The IC₅₀ values of these extracts were determined as 2.3 μg/ml (PV-BR, L. donovani) and 3.65 μg/ml (PV-DL, Plasmodium falciparum). None of the extracts possessed cytotoxicity on mammalian cells.     

Crossed immunoelectrophoretic analyses of antigens from Trypanosoma lewisi and Trypanosoma musculi

Trypanosoma lewisi and Trypanosoma musculi were collected from immunosuppressed infected hosts and extracted with phosphate buffered saline. Antisera were obtained from rats repeatedly infected with T. lewisi or mice repeatedly infected with T. musculi. Cellular antigens (CAg) present in the extracts of the parasites were analyzed by microimmunodiffusion (MID), crossed immunoelectrophoresis (CIE) and tandem crossed immunoelectrophoresis (TCIE). Trypanosome extracts were absorbed with the heterologous hyperimmune antisera to examine shared and unique antigens of the parasites.

Extracts of T. lewisi formed four precipitin lines when reacted with hyperimmune rat antiserum and three precipitin lines were detected by mouse anti-T. musculi serum in MID analyses. T. musculi extract formed two precipitin lines with mouse hyperimmune serum and two precipitin lines with rat anti-T. lewisi serum in the MID tests. When T. lewisi was reacted with the homologous hyperimmune rat antiserum in CIE, 14 precipitin peaks developed, while T. musculi extract formed eight peaks with homologous mouse hyperimmune serum. Seven precipitin peaks developed when T. lewisi extract was reacted with the mouse antiserum and T. musculi extract formed eight peaks during its electrophoretic migration into rat anti-T lewisi serum. TCIE clearly showed that five T. lewisi CAg could not be detected in the T. musculi extract by the rat antiserum, while mouse anti-T. musculi serum formed six precipitin peaks with the T. lewisi extract and seven peaks with the homologous extract. One of the CAg present in the T. musculi extract was not found in the T. lewisi extract. Absorptions of the extracts with heterologous antisera and subsequent CIE against the homologous antisera indicated three of the CAg of T. lewisi were not shared by T. musculi, while a single antigen of T. musculi was not detected in T. lewisi. Although concentrations of antibodies in each of the antisera and CAg in the parasite extracts were not equivalent, the data indicated that a minimum of eight CAg are shared by these rodent trypanosomes and at least three antigens appeared to be unique to T. lewisi and a single antigen to T. musculi.     

Design, synthesis and trypanocidal activity of lead compounds based on inhibitors of parasite glycolysis

The glycolytic pathway has been considered a potential drug target against the parasitic protozoan species of Trypanosoma and Leishmania. We report the design and the synthesis of inhibitors targeted against Trypanosoma brucei phosphofructokinase (PFK) and Leishmania mexicana pyruvate kinase (PyK). Stepwise library synthesis and inhibitor design from a rational starting point identified furanose sugar amino amides as a novel class of inhibitors for both enzymes with IC₅₀ values of 23 μM and 26 μM against PFK and PyK, respectively. Trypanocidal activity also showed potency in the low micromolar range and confirms these inhibitors as promising candidates for the development towards the design of anti-trypanosomal drugs.     

VSG 117 gene is conservatively present and early expressed in Trypanosma evansi YNB stock

African trypanosomes, including Trypanosoma brucei and the closely related species Trypanosoma evansi, are flagellated unicellular parasites that proliferate extracellularly in the mammalian bloodstream and tissue spaces. They evade host immune system by periodically switching their variant surface glycoprotein (VSG) coat. Each trypanosome possesses a vast archive of VSGs with distinct sequence identity and different strains contain different archive of VSGs. VSG 117 was reported as a widespread VSG detected in the genomes of all the T. brucei strains. In this study, the presence and expression of VSG 117 gene was observed in T. evansi YNB stock by RT-PCR with VSG-specific primers. We further confirmed that this VSG tends to be expressed in the early stage of T. evansi infections (on day 12-15) by immuno-screening the previously isolated infected blood samples. It is possible that the VSG 117 gene evolved and spread through the African trypanosome population via genetic exchange, before T. evansi lost its ability to infect tsetse fly. Our finding provided an evidence of the close evolutionary relationship between T. evansi and T. brucei, in the terms of VSG genes.     

Toward a rational design of selective multi-trypanosomatid inhibitors: a computational docking study

Compound V7, a benzothiazole which was recently found as selective inhibitor of trypanosomal TIMs, was docked into TIMs from Trypanosoma cruzi, Trypanosoma brucei, Entamoeba histolytica, Plasmodium falciparum, yeast, and human. Structural analyses revealed the importance of the accessibility to the two aromatic clusters located at the dimer’s interface for the selective inhibition of trypanosomal TIMs. Thus, it was found that different accessibilities of the protein interface of TIMs plays an important role in the inhibitory activity of benzothiazoles. These findings will contribute to the rational development and improvement of benzothiazoles to be used as multi-trypanosomatid inhibitors.     

Identification, purification and properties of clone-specific glycoprotein antigens constituting the surface coat of Trypanosoma brucei.

Soluble glycoproteins have been purified from a series of clones of Trypanosoma brucei 427. Each clone yielded a characteristic predominant glycoprotein which induced clone-specific immunity to trypanosome infection in mice. These glycoproteins were shown by specific labelling and enzyme digestion of cells to be the major components of the trypanosome surface coat. Each glycoprotein consisted of a single polypeptide chain having an apparent molecular weight of 65 000 (as measured by SDS-polyacrylamide gel electrophoresis) and containing around 600 amino acid and 20 monosaccharide residues. Preliminary structural studies indicated large changes in amino acid sequence dispersed over a considerable length of the polypeptide chain. Proteolytic activity was demonstrated in semi-purified trypanosome extracts, providing one reason for the heterogeneity sometimes observed in surface glycoprotein antigen preparations.     

The evolutionary expansion of the trypanosomatid flagellates

The trypanosomatids combine a relatively uniform morphology with ability to parasitise a very diverse range of hosts including animals, plants and other protists. Along with their sister family, the biflagellate bodonids, they are set apart from other eukaryotes by distinctive organisational features, such as the kinetoplast-mitochondrion and RNA editing, isolation of glycolysis enzymes in the glycosome, use of the flagellar pocket for molecular traffic into and out of the cell, a unique method of generating cortical microtubules, and bizarre nuclear organisation. These features testify to the antiquity and isolation of the kinetoplast-bearing flagellates (Kinetoplastida). Molecular sequencing techniques (especially small subunit ribosomal RNA gene sequencing) are now radically reshaping previous ideas on the phylogeny of these organisms. The idea that the monogenetic (MG) trypanosomatids gave rise to the digenetic (DG) genera is losing ground to a view that, after the bodonids, the African trypanosomes (DG) represent the most ancient lineage, followed by Trypanosoma cruzi (DG), then Blastocrithidia (MG), Herpetomonas (MG) and Phytomonas (DG), with Leptomonas (MG), Crithidia (MG), Leishmania (DG) and Endotrypanum (DG) forming the crown of the evolutionary tree. Vast genetic distances (12% divergence) separate T. brucei and T. cruzi, while the Leishmania species are separated by very short distances (less than 1% divergence). These phylogenetic conclusions are supported by studies on RNA editing and on the nature of the parasite surface. The trypanosomatids seem to be able to adapt with ease their energy metabolism to the availability of substrates and oxygen, and this may give them the ability to institute new life cycles if host behaviour patterns allow. Sexual processes, though present in at least some trypanosomatids, may have played only a minor part in generating diversity during trypanosomatid evolution. On the other hand, the development of altruistic behaviour on the part of some life cycle stages may be a hitherto unconsidered way of maximising fitness in this group. It is concluded that, owing to organisational constraints, the trypanosomatids can undergo substantial molecular variation while registering very little in the way of morphological change.     

Experimental American leishmaniasis and Chagas'' disease in the Brazilian squirrel monkey: cross immunity and electrocardiographic studies of monkeys infected with Leishmania braziliensis and Trypanosoma cruzi

, and 1988. Experimental American leishmaniasis and Chagas' disease in the Brazilian squirrel monkey: cross immunity and electrocardiographic studies of monkeys infected with Leishmania braziliensis and Trypanosoma cruzi. International Journal for Parasitology 18: 1053–1059. Adult, laboratory-bred squirrel monkeys (Saimiri sciureus) previously infected with either Leishmania braziliensis braziliensis or L. b. panamensis were challenge infected with blood-form trypomastigotes of Trypanosoma cruzi (Brazil strain). Monkeys previously infected with T. cruzi were challenged with stationary phase promastigote forms of L. b. braziliensis. Monkeys were examined during the course of challenge for evidence of infection, electrocardiographic alterations and parasite-specific antibody responses. T. cruzi epimastigotes were cultured from the blood of monkeys up to 3 months after challenge with this parasite. Unulcerated cutaneous lesions appeared and persisted in monkeys challenged with L. b. braziliensis. The formation of satellite lesions was observed in one monkey. Increased QRS intervals were not observed in T. cruzi challenged monkeys without prior cardiac irregularities and QRS left axis shifts were observed in only two of these monkeys. Elevated titers of parasite binding IgM and IgG specific for both T. cruzi and L. braziliensis were observed in all monkeys following challenge. These results indicate that prior infection with T. cruzi or L. braziliensis does not protect against heterologous challenge infection with these organisms. However, prior infection with Leishmania parasites may provide some protection against chagasic cardiopathies.