Differential susceptibility of filarial and human erythrocyte glutathione reductase to inhibition by the trivalent organic arsenical melarsen oxide

The glutathione reductases (GR) from two cattle filariae (Setaria digitata and Onchocerca gutturosa) have been isolated and their properties have been compared to those of human erythrocyte GR. In general, the enzymes appear to be very similar with respect to substrate-specificity for glutathione disulfide and NADPH, molecular mass (97 kDa vs. 98 kDa) and oligomeric organisation (subunit size of 51 kDa vs. 50 kDa). However, studies on the inhibition of the enzymes by the trivalent melaminophenyl arsenical melarsen oxide revealed that the human GR is less susceptible to inhibition by the arsenical than the filarial enzymes. Further, it was found that the mechanism of inactivation differs for the host and filarial enzymes. The human enzyme is inhibited by melarsen oxide in a competitive manner with a Ki of 23.7 microM, whereas the filarial GRs are inhibited in two stages: an immediate partial inactivation followed by a time-dependent stage with saturable pseudo-first-order kinetics. Ki values for the S. digitata and O. gutturosa GRs are 38.3 microM and 4.5 microM, respectively, with maximum second-stage inactivation rates of 1.0 x 10(-4) s-1 and 24.3 x 10(-4) s-1, respectively. These differences between host and parasite enzyme might reflect differences in the primary and secondary structure of the proteins which might be exploitable for the design of new specific macrofilaricidal drugs.

[Antimalarial active 10 H-indolo(3,2-b)quinolin-11-yl-amine. 2. Chloroquine analogs]

The quinolones 1b and 1c react with tosylisocyanate to yield the tosylamino quinolines 2b and 2c, while 1a under the same conditions gives the carbamate 5. Decarboxylation of 5 affords 2a. The mono and bis alkylated products 3 and 6 are received from 2b. The N-tosyl derivatives 2b and 3 rearrange to form the C-tosyl compounds 7 by heating with polyphosphoric acid (PPA) while 2c is hydrolized to 8c. 8 are isolated either from 2 using sulfuric acid 90% or from the 11-chloro-quinolines 9 melting in a mixture of ammonium chloride and acetate. The chloroquine analogues 4 are obtained from the 9-hydrochlorides with the dihydrochloride of the novaldiamine base. The quaternary salt 10 prepared by methylation of 9b reacts with the base in ethanol to yield 11. 4c inhibits the multi-resistant Plasmodium falciparum strain K-1 stronger than chloroquine.

A novel type of glutathione S-transferase in Onchocerca volvulus

Onchocerca volvulus is a pathogenic human filarial parasite which, like other helminth parasites, is capable of evading the host's immune responses by a variety of defense mechanisms which are likely to include the detoxification and repair mechanisms of the enzyme glutathione S-transferase (GST). In this study, we show that one of the previously described GSTs from O. volvulus appears to possess the characteristics of a secreted enzyme. When the complete O. volvulus GST1 (OvGST1) sequence presented here is compared with those of other GSTs, 50 additional residues at the N terminus are observed, the first 25 showing characteristics of a signal peptide. This is consistent with the N-terminal sequence data on the native mature enzyme which begins at amino acid 26, based on the deduced protein sequence from the cDNA. The native protein, without the signal peptide sequence, possesses a 24-amino-acid extension not present in other GSTs. The deduced amino acid sequence of the OvGST1 cDNA clone was shown to possess four potential N-glycosylation sites. Digestion of O. volvulus homogenate with endoglycosidase, followed by detection of OvGST1 with specific antibody, indicated that the enzyme possesses at least two N-linked oligosaccharide chains. Gel filtration of the Escherichia coli-produced recombinant OvGST1 showed that it is enzymatically active as a nonglycosylated dimer. OvGST1 is found in the media surrounding adult worms maintained in culture, indicating that, in vitro, this enzyme is released from the worm. The strongest immunostaining for OvGST1 was observed in the outer cellular covering of the adult worm body, the syncytial hypodermis, especially in the interchordal hypodermis, where the peripheral membrane forms a series of lamellae which run into the outer zone of the hypodermal cytoplasm.

Characterization of enzymatically active Onchocerca volvulus Cu/Zn superoxide dismutase expressed in Escherichia coli

The Onchocerca volvulus superoxide dismutase was expressed in Escherichia coli, using a protocol designed to produce the native enzyme rather than a fusion protein. The recombinant O. volvulus superoxide dismutase (rOVSOD) was found in the cytosol of the disrupted bacteria and represented > 10% of the total bacterial protein. The enzyme was purified to homogeneity using DEAE-Sepharose chromatography, followed by phenyl-Sepharose chromatography. The rOVSOD was enzymatically active which was demonstrated by its reactivity with O2.- produced either by the xanthine-xanthine oxidase system or by stimulated eosinophils. The specific activity was determined to be 4668 U mg-1. This activity could be blocked by rabbit antiserum raised against the rOVSOD. The maximal activity was obtained upon supplementation of the bacterial growth media and enzyme buffer with copper and zinc ions. Activity characteristics in the presence of inhibitors was also characteristic of a Cu/Zn superoxide dismutase. The rOVSOD has an apparent subunit molecular mass of 16,000 in SDS-PAGE. The active enzyme behaves as a dimer of 32 kDa as determined by gel filtration.

[Antimalarial 10 H-indolo(3,2-b)quinolin-11-yl-amines. 1. Phenol-Mannich-bases of the amodiaquine and cycloquine type]

The 11-chloro-quinoline derivatives 3 react with 4-aminophenol and the mono- and bis-phenol-Mannich-bases 6 to yield the 10H-indolo[3,2-b]quinoline-11-yl-amines 4 and 7. The amodiaquine analogue 7a as the best of all compounds shows a comparable activity with choroquine and inhibits a multiresistant Plasmodium falciparum strain at the same concentration. Compound 7e from the cycloquine-type was selected for an in vivo antitumor screening programme.

The Onchocerca volvulus mRNAs for a hsp70, a collagen-like protein and a ribosomal protein possess a 5' spliced leader sequence

To detect and analyse Onchocerca volvulus mRNAs possessing a spliced leader (SL) sequence, a SL cDNA library was constructed from O. volvulus RNA using a PCR method. Three of the sixty cDNAs analysed displayed significant homology to a known sequence. These cDNAs encode a hsp70, a collagen-like protein and a 60S ribosomal protein. The remaining cDNAs analysed either encoded proteins with no apparent homology to known sequences or they appeared to be generated from RNAs with an internal SL and did not possess an open reading frame.

Biogenic-amine acetylation: an additional function of the N-acetyltransferase from Fasciola hepatica

The previously described polyamine N-acetyltransferase from Fasciola hepatica has been observed to have an additional function, the acetylation of biogenic amines. The activities for biogenic amines, diamines and polyamines were in a constant ratio throughout the purification process. Biogenic amines found to be substrates for the enzyme included tyramine, tryptamine, beta-phenylethylamine and histamine, with Km values of 0.12 mM, 0.26 mM, 0.30 mM and 0.76 mM respectively. Octopamine, 5-hydroxytryptamine and alpha-phenylethylamine were also acceptable as substrates, though to a lesser degree. The optimum pH for biogenic-amine acetylation was 7.5, and CoA was inhibitory to the process, with a Ki of 5.5 microM. N-Acetylation appears to play a major role in the amine metabolism of this trematode. We presume that acetylation represents the process by which the parasite inactivates excess amines.

Reversal of chloroquine resistance in Plasmodium falciparum by CDR 87/209 and analogues

The spreading of resistance towards chloroquine has diminished its value as a potent and safe drug in malaria endemic areas. Recent reports on the reversal of chloroquine resistance in the malaria parasite Plasmodium falciparum in vitro and in vivo by verapamil, desipramine and other Ca(2+)-channel blockers and antidepressants has initiated a strategy for chemotherapy by treatment with chloroquine in combination with a drug resistance modulator. Described here is a class of modulators of distinct structure which reverse chloroquine resistance in a different manner. Contrary to verapamil and desipramine, CDRI 87/209, the most potent compound of this new class and used as a chemical lead, did not restore chloroquine accumulation in the resistant parasites, thereby indicating that besides the proposed blockade of drug efflux other mechanisms are vulnerable targets for a chemotherapeutic approach towards drug resistance. Similar to the former modulators, CDRI 87/209 showed only weak intrinsic plasmodicidal activity and the increase of drug susceptibility was restricted to resistant plasmodia.

Purification and characterization of polyamine oxidase from Ascaris suum

The interconversion of polyamines in the parasite nematode Ascaris suum by a novel type of polyamine oxidase was demonstrated. The nematode enzyme was clearly distinguishable from monoamine and diamine oxidases as well as from the mammalian polyamine oxidase, as shown by the use of the specific inhibitors pargyline, aminoguanidine and MDL 72527 respectively. All three inhibitors had no effect on the parasite polyamine oxidase, and the enzyme did not accept diamines such as putrescine, cadaverine or histamine as substrates. The parasite polyamine oxidase selectively oxidizes spermine and spermidine but not N-acetylated polyamines, whereas the mammalian tissue-type polyamine oxidase shows preference for the N-acetylated polyamines. These results suggest a regulatory function of the nematode polyamine oxidase in the degradation and interconversion of polyamines in parasite nematodes. The enzyme was purified to homogeneity by gel filtration, preparative isoelectric focusing and subsequent affinity chromatography on spermine- and berenil-Sepharose 4B. With respect to reaction type, the prosthetic group FAD, the molecular mass (66 kDa) and the contents of thiol and carbonyl groups, the polyamine oxidase from A. suum is similar to the isofunctional enzyme of mammalian tissue.

Polyamine N-acetyltransferase from Fasciola hepatica

A cytosolic polyamine N-acetyltransferase which catalyses polyamine and diamine acetylation has been partially purified from the liver fluke Fasciola hepatica. The enzyme has an apparent Mr of 50,000 and unlike the corresponding mammalian liver counterpart is capable of putrescine acetylation. Among the substrates tested, spermidine had the highest reaction rate but putrescine had a lower Km value. The Km values for spermidine, spermine, norspermidine, putrescine, cadaverine and 1,3-diaminopropane were 20 microM, 1.30 mM, 20 microM, 7 microM, 10 microM and 50 microM, respectively. Acetylated polyamines were also substrates for the trematode acetylase, but histones were inactive. The partially purified enzyme had no deacetylase activity. The Km for acetyl-CoA was 4.4 microM. Coenzyme A was strongly inhibitory with a Ki value of 5.3 microM. Bis(benzyl)polyamine analogue MDL 27695 was a potent competitive inhibitor of the enzyme with a Ki of 22 microM. Inhibition by 1,4-dimethyl-putrescine was non-competitive and had a Ki value of 15 microM. The trematode acetylase is highly dependent on sulfhydryl groups for its activity. As had been reported in nematodes, polyamine acetylation could represent a process by which trematodes convert excess polyamines to forms suitable for transport and excretion. On the other hand, this could be the regulatory step of a functional interconversion pathway in these parasites.

Polyamine oxidase from Acanthamoeba culbertsoni specific for N8-acetylspermidine

Polyamine oxidase plays a key role in the catabolism of polyamines and regeneration of spermidine and putrescine. The mammalian enzyme utilises N1-acetylspermidine, and N8-acetylspermidine, although formed in the mammals, is not catabolised further. We have characterised an enzyme from Acanthamoeba culbertsoni which acts preferentially on N8-acetylspermidine. The highly unstable enzyme was stabilised in the presence of glycerol or dimethylsulphoxide together with spermine and purified 400-fold by a combination of DEAE-cellulose, CM-cellulose, spermine-Sepharose and Sephacryl S-300 chromatography. The enzyme has a pH optimum of 8 and a temperature optimum of 45 degrees C. The relative activities on different substrates are: N8-acetylspermidine 100%, N1-acetylspermine 40%, N1-acetylspermidine 1%, N1,8-diacetylspermidine 1% and N1,12-diacetylspermine 15%. Free polyamines and substrates of monoamine oxidase were not attacked. The enzyme yielded diaminopropane as an end product of catabolism and could be involved in the biosynthesis of this unusual polyamine present in large amounts in this organism.

Identification of circulating parasite acetylcholinesterase in human and rodent filariasis

In the present study, the enzyme acetylcholinesterase (AChE) from filarial parasites was identified in sera from humans infected with Onchocerca volvulus as well as in Mastomys natalensis infected with Brugia pahangi. The enzyme was present in immune complexes precipitated with cold 4% polyethylene glycol. The infected sera showed 3-4 times more AChE activity than did normal sera, and enzyme activity could be demonstrated in 5% polyacrylamide gels by specific staining. The enzyme from infected serum showed 3 times more activity when acetylthiocholine was used as the substrate as compared with butyrylthiocholine, whereas the enzyme activity present in normal serum was low and did not show this substrate specificity. Immunoprecipitation assays confirmed the presence of anti-AChE antibodies in the infected serum. The enzyme was further analysed by enzyme-linked immunosorbent assay and immunoblotting with rabbit antibodies to B. malayi AChE. Immunoblotting of the B. pahangi-infected serum revealed two closely located bands at about 200 kDa and one 95-kDa band, whereas in O. volvulus-infected serum, only one specific band was observed at about 200 kDa. The identification of parasite AChE may be particularly useful for diagnosis of the disease or for the study of the involvement of this enzyme in the host-parasite relationship.

Pathogenic and nonpathogenic Entamoeba histolytica: identification and molecular cloning of an iron-containing superoxide dismutase

Superoxide dismutase (SOD) activity was determined in the cell lysate of the axenically cultured Entamoeba histolytica isolate HM-1:IMSS. Under anaerobic culture conditions, 18.7 (+/- 4.9) units SOD activity (mg protein)-1 were found. By inhibition studies the activity was attributed to an iron-containing type of SOD (FeSOD). Using degenerate oligonucleotide primers derived from regions highly conserved in prokaryotic FeSOD sequences, a genomic DNA fragment was amplified by the polymerase chain reaction. The fragment was used to isolate FeSOD specific cDNA clones from a pathogenic and a nonpathogenic E. histolytica isolate. A comparison of the 2 sequences revealed 5% nucleotide differences resulting in a single amino acid exchange. The primary structure showed the characteristics of an iron-containing type of SOD with a homology of approximately 55% with other FeSOD sequences. The enzyme was found to be encoded by single copy genes in both the pathogenic and the nonpathogenic E. histolytica, but restriction fragment lengths differed between the 2 groups. In 5 isolates studied, no correlation was found between pathogenic behavior of the amebae and the expression of FeSOD-related mRNA.

N-acetylglucosaminyltransferase from Ascaris suum

The occurrence of N-acetylglucosaminyltransferase, the initial step in the synthesis of the carbohydrate moiety of N-linked glycoproteins, is demonstrated in the microsomal fraction of the nematode Ascaris suum. Phosphatidylglycerol stimulated enzyme activity three- to six-fold without affecting the Km values of either substrates, uridinediphospho-N-acetylglucosamine or dolichylphosphate. The Km values were determined to be about 12 microM and 100 micrograms ml-1, respectively. The enzyme activity was strongly inhibited by tunicamycin acting as a competitive inhibitor with respect to the substrate uridinediphospho-N-glucosamine.

Characterization and molecular cloning of a Cu/Zn superoxide dismutase from the human parasite Onchocerca volvulus

Evidence suggests that the helminth antioxidant enzyme superoxide dismutase (SOD) may play a role in parasite's defense against the cellular immune mechanisms of the host. In order to investigate this for the human parasite Onchocerca volvulus, the enzyme activity was characterized, the release of SOD by the parasite was examined, and a complete cDNA encoding the O. volvulus SOD was identified. The SOD activity in adult O. volvulus was found to be 8.1 +/- 4.2 U/mg of protein. A Cu/Zn-containing enzyme was demonstrated by its sensitivity towards cyanide, azide, and hydrogen peroxide. Isoelectric focusing, combined with an enzyme activity assay, revealed two activities at pI 6.8 and 7.6, with both activities inhibited by KCN. Adult parasites, maintained in vitro, released SOD into the culture medium, which was detected by enzyme activity. In parallel, lactate production was measured to ensure the viability of the parasite. Oligonucleotides (based upon conserved sequences in the SOD genes of other organisms) and the polymerase chain reaction were used to identify a portion of the SOD gene from O. volvulus genomic DNA. A cDNA library was constructed in lambda unizapII and screened with the genomic polymerase chain reaction fragment. A complete cDNA encoding the Cu/Zn SOD was identified, and its nucleotide sequence was determined. Southern blot hybridization experiments indicated that the Cu/Zn SOD is encoded by a single-copy gene with at least one intron.

Hallucinogenic and neuroleptic drug interactions with potential neurotransmitter receptors in parasitic nematodes

Receptors potentially involved in neurotransmitting have been characterised in the muscle tissue and in whole worms of the nematodes Ascaris suum and Onchocerca volvulus, respectively. Binding studies revealed a high affinity for LSD with apparent KD values of 94 nM for A. suum and 120 nM for O. volvulus, whereas those of the neuroleptics haloperidol, spiperone and mianserin were found to be in the micromolar range. A variety of neurotransmitter antagonists, known to bind with high affinities either to mammalian D1/2 or to 5-HT1/2 receptors, were tested for their ability to bind to the nematode receptor. Results from these displacement experiments using tritiated LSD, mianserin, spiperone and haloperidol show distinct specificities of the nematode receptors compared to known receptor classes of mammals. With respect to this novel specificity, the nematode receptors seem to be unique and clearly distinct from those of the hosts.

Effect of bis(benzyl)polyamine derivatives on polyamine transport and survival of Brugia pahangi

A potent filaricidal effect of bis(benzyl)polyamine derivatives is reported; the addition of 1 microM MDL 27695 to Brugia pahangi maintained in vitro killed the worms within 1 week. Using the labelled derivative, MDL 27391 uptake was demonstrated and evidence was provided for an uptake system that is independent of and clearly distinguishable from those for polyamines. The Km value for the uptake of MDL 27391 was determined to be 2 microM, and that for putrescine, spermidine, and spermine was 4.9, 1.7, and 4.8 microM, respectively. The uptake of MDL 27391 was not affected by polyamines. In contrast, bis(benzyl)polyamines were shown to be strong inhibitors of both the putrescine and the spermidine/spermine uptake system. As shown for MDL 27391, bis(benzyl)polyamines are not metabolized after uptake by Brugia worms; therefore, it is expected that the filaricidal effect of the drug depends on its interaction with potential polyamine-binding sites.

Pyrimethamin-resistant Plasmodium falciparum lack cross-resistance to methotrexate and 2,4-diamino-5-(substituted benzyl) pyrimidines

Methotrexate resistance induced in cultured Plasmodium falciparum depends on an altered dihydrofolate reductase with decreased affinity for methotrexate as well as for pyrimethamine. In contrast, pyrimethamine-resistant field isolates of P. falciparum lack cross-resistance to methotrexate and 2,4-diamino-5-(substituted benzyl) pyrimidines. The structure of the latter class was optimized by the use of trimethoprim as a lead and the substitution of methoxy groups at the benzyl ring by 3-(4'-aminophenyl-4-sulfonylphenylamino)propoxy or by (4'-aminophenyl-4-sulfonylphenyl)methoxy, which resulted in antimalarials of high potency. The efficiency of these newly designed 2,4-diamino-5-(substituted benzyl) pyrimidines was confirmed by their strong inhibitory effect on plasmodial dihydrofolate reductase as well as by in vitro screening against drug-sensitive and -resistant strains of P. falciparum.

Putrescine N-acetyltransferase in Onchocerca volvulus and Ascaris suum, an enzyme which is involved in polyamine degradation and release of N-acetylputrescine

A novel type of N-acetyltransferase, clearly different from the nuclear and cytosolic polyamine N-acetyltransferases of mammals, was recently found in the intestinal nematode Ascaris suum. The occurrence of this putrescine N-acetylating enzyme has also been noted in the filarial parasite Onchocerca volvulus. The enzyme was partially purified from adults of O. volvulus and A. suum by chromatography on DEAE-cellulose and cadaverine-Sepharose. Substrate specificities of the filarial enzyme resemble those of the N-acetyltransferase from A. suum, with respect to its preference for putrescine and other diamines above polyamines and histones. Additionally, both nematode enzymes acetylated histamine, whereas dopamine and serotonin were not accepted as substrates. The activities of the N-acetyltransferase from O. volvulus and A. suum were potently inhibited by the drug berenil; the type of inhibition was competitive with respect to putrescine. The inhibition constants for berenil were determined as 4.2 and 1.2 microM for the enzymes of O. volvulus and A. suum, the Km values for putrescine were found to be 330 microM and 250 microM, respectively. Putrescine N-acetyltransferase is discussed as a regulatory step in the degradation of excessive polyamines via polyamine oxidase to putrescine. At this branching point, putrescine is retained in the cell for de novo synthesis of spermidine and spermine, catabolized via diamine oxidase or acetylated to a suitable transport product for excretion.

A novel type of putrescine (diamine)-acetylating enzyme from the nematode Ascaris suum

A cytosolic enzyme catalysing the acetylation of the diamines putrescine, cadaverine, 1,3-diaminopropane and 1,6-diaminohexane has been partially purified from reproductive tissue of the intestinal parasitic nematode Ascaris suum. The enzyme formed N-acetylated derivatives of the above diamines when incubated in the presence of acetyl-CoA. The Michaelis constants (Km) for the above diamines were 0.25 nM, 0.1 mM, 1.25 mM and 0.4 mM respectively, and the apparent Km for acetyl-CoA was 7.7 microM. sym-Norspermidine was also acetylated by this enzyme preparation, and, at a much lower rate, the enzyme acted on sym-norspermine. The common polyamines, spermidine and spermine, and histones were not substrates. Purification steps involved a freezing-and-thawing procedure to release enzyme activity from unknown inhibitors, DEAE-cellulose chromatography and affinity chromatography on cadaverine-Sepharose, from which the enzyme was eluted by increasing ionic strength. The enzyme exhibited an apparent Mr of about 38,000-40,000, and it consisted of at least two subunits, of which the catalytic one had an Mr of about 13,000. The partially purified enzyme showed no deacetylase activity, and its activity was competitively inhibited by the product N-acetylputrescine, but not by CoA. The name putrescine N-acetyltransferase is suggested for this enzyme, which may have an important function in the degradation of diamines of lower eukaryotes.