Giardia lamblia: ultrastructural study of the in vitro effect of benzimidazoles.

Axenically grown Giardia lamblia trophozoites treated with low concentrations of the benzimidazole carbamates albendazole and mebendazole detach from glass culture tubes and lose viability. Scanning electron microscopic observations revealed that these drugs produce grotesque modifications of the cell shape of the parasite and disassembly of the adhesive disc. Transmission electron microscopy showed several stages of the fragmentation of adhesive discs with dispersion of microtubules and microribbons in the cytoplasm. Flagella appeared undamaged. In drug-treated trophozoites electron-dense precipitates were selectively deposited on microtubules and microribbons. The results indicate that the antigiardial effect of benzimidazoles is the result of binding to microtubules and subsequent alterations of the cytoskeleton. The electron microscopic observations also suggest that the drugs may bind to microribbon components of the adhesive disc, possibly giardin proteins.     

Giardia lamblia: biochemical characterization of an ecto-ATPase activity

In this work, we describe the ability of living trophozoites of Giardia lamblia to hydrolyze extracellular ATP. In the absence of any divalent cations, a low level of ATP hydrolysis was observed (0.78 ± 0.08 nmol Pi × h⁻¹ × 10⁻⁶ cells). The ATP hydrolysis was stimulated by MgCl₂ in a dose-dependent manner. Half maximum stimulation of ATP hydrolysis was obtained with 0.53 ± 0.07 mM. ATP was the best substrate for this enzyme. The apparent K_m for ATP was 0.21 ± 0.04 mM. In the pH range from 5.6 to 8.4, in which cells were viable, this activity was not modified. The Mg²⁺-stimulated ATPase activity was insensitive to inhibitors of intracellular ATPases such as vanadate (P-ATPases), bafilomycin A₁ (V-ATPases), and oligomycin (F-ATPases). Inhibitors of acid phosphatases (molybdate, vanadate and fluoride) or alkaline phosphatases (levamizole) had no effect on the ecto-ATPase activity. The impermeant agent DIDS and suramin, an antagonist of P2 purinoreceptors and inhibitor of some ecto-ATPases, decreased the enzymatic activity in a dose-dependent manner, confirming the external localization of this enzyme. Besides ATP, trophozoites were also able to hydrolyse ADP and 5´ AMP, but the hydrolysis of these nucleotides was not stimulated by MgCl₂. Our results are indicative of the occurrence of a G. lamblia ecto-ATPase activity that may have a role in parasite physiology.     

Giardia lamblia: evaluation of the in vitro effects of nocodazole and colchicine on trophozoites

Giardia lamblia is the most commonly detected parasite in the intestinal tract of humans and other mammals causing giardiasis. Giardia presents several cytoskeletal structures with microtubules as major components such as the ventral adhesive disk, eight flagella axonemes, the median body and funis. Many drugs have already been tested as antigiardial agents, such as albendazole and mebendazole, which act by specifically inhibiting tubulin polymerization and hence microtubule assembly. In the present work, we used the microtubule inhibitors nocodazole and colchicine in order to investigate their direct and indirect effects on Giardia ultrastructure and attachment to the glass surface, respectively. Axenically grown G. lamblia trophozoites were treated with nocodazole or colchicine for different time intervals and analyzed by light and electron microscopy. It was observed that trophozoites became completely misshapen, detached from the glass surface and failed to complete cell division. The main alterations observed included disc fragmentation, presence of large vacuoles, and appearance of electrondense deposits made of tubulin. The cytokinesis was blocked, but not the karyokinesis, and membrane blebs were observed. These findings show that Giardia behavior and cytoskeleton are clearly affected by the commonly used microtubule targetting agents colchicine and nozodazole.     

Antigenic variation in Giardia lamblia

Clones of the WB isolate of Giardia lamblia were exposed to cytotoxic mAb 6E7 which reacts with a 170-kDa surface Ag. Surviving progeny occurred at a frequency of about 1 in 1000 and were resistant to the effects of mAb 6E7. Analysis of progeny and clones of these progeny by surface radiolabeling, surface immunofluorescence, and Western blotting failed to detect the 170-kDa Ag. Loss of this Ag was associated with the appearance of a series of new surface Ag. A cytotoxic mAb (5C1) was produced to one of the newly appearing antigens (approximately equal to 64 kDa) and Giardia resistant to the cytotoxic effects of 5C1 isolated. Neither the approximately equal to 64 kDa nor the 170 kDa Ag were present and were replaced by a second series of new Ag. These studies clearly establish the loss and subsequent replacement of two antigenically distinct epitopes on Giardia derived from a single organism.     

Codon Usage in Giardia lamblia

ABSTRACT A codon usage table for the intestinal parasite Giardia lamblia was generated by analysis of the nucleotide sequences of eight genes comprising 3,135 codons. Codon usage revealed a biased use of synonomous codons with a preference for NNC codons (42.1%). The codon usage of G. lamblia more closely resembles that of the prokaryote Halobacterium halobium (correlation coefficient r = 0.73) rather than that of other eukaryotic protozoans, i.e. Trypanosoma brucei ( r = 0.434) and Plasmodium falciparum ( r =–0.31). These observations are consistent with the view that G. lamblia represents the first line of descent from the ancestral cells that first took on eukaryotic features.     

Antigenic variation in Giardia lamblia

Giardia lamblia undergo surface antigenic variation in vitro and in vivo. The presence of variant trophozoites can be detected in clones after exposure to cytotoxic monoclonal antibodies. Surviving Giardia (progeny) no longer possess the initial major surface antigen which is replaced by new antigens. Exposure of a clone from one progeny to another cytotoxic mAb specific to one newly appearing surface antigen resulted in the loss of this antigen and replacement by another set of antigens. The frequency of change was rapid (1:100-1:1000) and was dependent upon the isolate. The presence of variant populations in clones was confirmed by direct and indirect immunofluorescence using mAbs to major surface antigens of subsequent progeny. The putative amino acid sequence of a portion of one antigen revealed a cysteine-rich composition which was confirmed in this variant protein as well as others by preferential uptake of [35S]cysteine. The mechanism(s) responsible most likely involves genomic rearrangements since Southern blots revealed a family of related genes which changed frequently compared to other areas of the genome. However, expression-linked copies have not been detected. Loss and gain of surface antigens have also been found in gerbils and humans infected with defined clones, but there does not appear to be cyclical appearance of variant populations. The biological importance of antigenic variation is not known but it may contribute to chronic and/or repeated infections.     

Chromosome rearrangements in Giardia lamblia

Recent studies have shown that the genome of Giardia lamblia is plastic. Clinical isolates exhibit extensive karyotypic heterogeneity and chromosome rearrangements occur frequently, in vitro. In this review, Sylvie Le Blancq looks at genome organization and the impact of DNA rearrangement events.     

Giardia lamblia: Characterization of ecto-phosphatase activities

Ecto-phosphatase activities of Giardia lamblia were characterized in intact cells, which are able to hydrolyze the artificial substrate p-nitrophenylphosphate (p-NPP) to p-nitrophenol (p-NP) at a rate of 8.4 ± 0.8 nmol p-NP/h/10⁷ cells. The ecto-phosphatase activities were inhibited at high pH as well as by classical inhibitors of acid phosphatases, such as sodium fluoride and sodium molybdate and by inorganic phosphate, the final product of the reaction. Experiments using a classical inhibitor of phosphotyrosine phosphatase, sodium orthovanadate, also showed that the ecto-phosphatase activity was inhibited in a dose-dependent manner. Different phosphorylated amino acids were used as substrates for the G. lamblia ecto-phosphatase activities the highest rate of phosphate release was achieved using phosphotyrosine. Not only p-NPP hydrolysis but also phosphotyrosine hydrolysis was inhibited by sodium orthovanadate. Phosphotyrosine but not phospho-serine or phospho-threonine inhibited the p-nitrophenylphosphatase activity. We also observed a positive correlation between the ecto-phosphatase activity and the capacity to encystation of G. lamblia trophozoites.     

Circannual incidence of Giardia lamblia

A circannual rhythm of Giardia lamblia positive stools was found by examination of records from three clinical laboratories in central Arkansas for the period 1980-1986. Cosinor analysis of monthly Giardia incidence based on stool specimen records from approximately 12,000 patients over the 7-year period revealed a circannual rhythm (P less than 0.001) on the basis of percent positive patients/month, with a computive acrophase occurring in late summer and minimum values in the winter. Patients involved in the study were primarily from the central Arkansas metropolitan areas, southern delta regions and northern mountainous regions of the state. Analysis of the data on the basis of total positive Giardia patients/month also revealed a circannual rhythm with the acrophase again occurring in late summer. The overall mean for percent positive stool specimens for the 7-year period was 5.3%, compared with the national average of 3.8% for G. lamblia positive stools. The data indicate that there may be a "Giardia season" in Arkansas since they could not be explained on the basis of day-care age distribution, or geographic origin. Awareness by epidemiologists, public health officials and other health care professionals of this circannual incidence of giardiasis is important for the prevention, diagnosis and treatment of this infectious disorder.     

Mitosis in Giardia lamblia: multiple modes of cytokinesis

Mitosis in Giardia is poorly understood. Until today, it is still controversial whether Giardia divides with a mirror-image symmetry (ventral-ventral or dorsal-dorsal) or in a dorsal-ventral mode. Here, we report the different modes by which cytokinesis takes place in Giardia lamblia. To determine how Giardia divides, video microscopy, scanning electron microscopy, semi-thick sections and freeze-fracture replicas were analyzed by transmission electron microscopy. Between 12 and 15% of the cells cultivated for 24-48 h were found in the process of division. Three types of cytokinesis were found: (1) ventral-ventral, where the discs face each other; (2) dorsal-dorsal, where the discs are in opposite directions; and (3) ventral-dorsal. Giardia divides with mirror-image symmetry either in ventral-ventral or dorsal-dorsal modes. During ventral-ventral type of division, Giardia becomes detached and swims freely in the culture medium, whereas, in the other modes of division, the cells can be found either adhered or swimming.     

Purine deoxynucleoside salvage in Giardia lamblia

Giardia lamblia is dependent on the salvage of preformed purines and pyrimidines, including deoxythymidine. Dependence on deoxynucleoside salvage is extremely unusual among eucaryotic cells (Moore, E. C., and Hurlbert, R. B. (1985) Pharmacol & Ther. 27, 167-196). The present study investigates the possibility that giardia lacks ribonucleotide reductase and depends entirely on deoxynucleoside salvage. A ribonucleotide reductase inhibitor, hydroxyurea, at concentrations up to 2 mM had no effect on the growth of giardia. This is 15-20 times the ED50 of hydroxyurea for the protozoans Trypanosoma cruzi, Trypanosoma gambiense, and Leishmania donovani. A lysate of giardia had no detectable ribonucleotide reductase. Although radiolabeled adenine, adenosine, guanine, and guanosine were readily incorporated into RNA by cultured cells, no adenine or adenosine and only trace amounts of guanine and guanosine were detectable in DNA. This is in contrast to deoxynucleosides, where 58% of deoxyadenosine and 10% of deoxyguanosine incorporated into nucleic acid were found in DNA. Phosphorylation of both deoxyadenosine and deoxyguanosine was catalyzed by a cell lysate of giardia when nucleoside kinase co-substrates were included in the assay but not when phosphotransferase co-substrates were present. The absence of detectable ribonucleotide reductase, the failure to incorporate purine nucleobases and nucleosides into DNA to any significant extent, the ready incorporation of deoxynucleosides into DNA, and the demonstration of a purine deoxynucleoside kinase suggest that giardia are dependent on the salvage of exogenous deoxynucleosides.     

Codon usage in Giardia lamblia.

A codon usage table for the intestinal parasite Giardia lamblia was generated by analysis of the nucleotide sequences of eight genes comprising 3,135 codons. Codon usage revealed a biased use of synonymous codons with a preference for NNC codons (42.1%). The codon usage of G. lamblia more closely resembles that of the prokaryote Halobacterium halobium (correlation coefficient r = 0.73) rather than that of other eukaryotic protozoans, i.e. Trypanosoma brucei (r = 0.434) and Plasmodium falciparum (r = -0.31). These observations are consistent with the view that G. lamblia represents the first line of descent from the ancestral cells that first took on eukaryotic features.     

Giardia lamblia: characterization of proteinase activity in trophozoites

The proteinase activity of Giardia lamblia trophozoites, Portland 1 strain, was characterized with respect to substrate specificities and inhibitor sensitivities. Proteinase activity with urea-denatured hemoglobin (UDH), alpha-N-benzoyl-DL-arginine-2-naphthylamide (BANA), and alpha-N-benzoyl-argininamide (BAA) as substrates exhibited pH optima of 5.8, 3.8, and 5.0, respectively. For BANA, the apparent Km was 0.20 mM and the Vmax was 2.56 microM. For BAA, the apparent Km was 4.0 mM and the Vmax was 8.69 microM. Dithiothreitol (DTT, 5 mM) enhanced proteinase activity threefold for UDH, fourfold for BAA, and fivefold for BANA. Iodoacetamide, L-tosylamide-2-phenylethyl chloromethyl ketone (TPCK), and N-alpha-p-tosyl-L-lysine chloromethyl ketone (TLCK), each at 1 mM, inhibited proteinase activity by greater than 90% with BANA and BAA. Iodoacetamide inhibited proteinase activity by 35% with UDH; TPCK and TLCK inhibited activity greater than 70% with UDH. Activity on BAA was inhibited by 91% with Zn2+ and activity on UDH was inhibited by 30% with Cu2+. Virtually complete inhibition of proteinase activity on BANA and BAA was obtained with leupeptin and chymostatin at 1 microgram/ml. Pepstatin A, chelators, and other heavy metals had no apparent effect on proteinase activity. Two polypeptide bands (ca. 105 and 40 kDa) indicative of proteinase activity were visualized by sodium dodecyl sulfate-gelatin polyacrylamide gel electrophoresis. The 105 kDa band was visible over the pH range of 4 to 7, but with greater intensity from pH 5 to 7. The 40 kDa band, while present at pH 5, was most intense at pH 6 and 7.(ABSTRACT TRUNCATED AT 250 WORDS)     

Giardia lamblia: autoradiographic analysis of nuclear replication

Giardia lamblia trophozoites, grown in axenic culture, were labeled for various periods of time with [3H]thymidine. After autoradiography, grains were counted over each of the two nuclei in each trophozoite. Analysis of the fraction of trophozoites labeled for each time period resulted in an estimate of a generation time of 15 hr. The DNA synthetic or S phase for a trophozoite in culture was calculated to be 1.8 hr. G1 and G2 periods were determined to be 8.5 and 3 hr, respectively. A comparison of the labeling density between the two nuclei indicated that replication takes place simultaneously in both nuclei for at least 70% of S period. The fraction of asymmetrically labeled trophozoites is consistent with a model in which the nuclei replicate out of phase by 15-30 min, but, due to the small diameter of the nuclei relative to the grain size, the possibility that replication takes place simultaneously in both nuclei of a trophozoite throughout the S phase cannot be ruled out.     

Circannual incidence of Giardia lamblia in Mexico

Giardia lamblia, once considered a harmless commensal organism, has become one of the most common pathogenic intestinal parasites. Evidence for various methods of transmission has accumulated and serious physiological and nutritional disturbances as a result of infestation with this parasite have been clinically documented. Giardia lamblia has now been identified as a causative agent of waterborne, foodborne and sexually transmitted infectious diarrhea. Preventive interventions by health education (especially in personal hygiene) are indicated to reduce its spread in the community. The timing of such educational endeavours may be adjusted to the changes in the incidence of giardiasis if such should be predictable insofar as they are rhythmic. Accordingly, monthly totals of positive detected cases of giardiasis reported in Mexico between 1977 and 1985 were first fitted by linear least-squares with a 1-yr cosine curve. Results indicate a predictable circannual variability of Giardia incidence (P less than 0.001), with a crest time situated on the third week of July and monthly means of detected cases above the yearly average incidence between May and September. The validity of this circannual rhythm was further checked by nonlinear least-squares. Results show a presumably 1-yr synchronized estimated period of 8715.1 hr, with a total predictable change (double amplitude of 1788 cases per month) of 43% the average monthly incidence. Moreover, circannual rhythm parameters computed separately for each consecutive year are similar in terms of acrophase (P = 0.771). Awareness of the thus detected circannual predictable variability in the incidence of giardiasis may be important in the prevention, diagnosis and treatment of this infectious disorder. According to the results here found, the timing of prevention interventions by health education should be a readily exploitable factor.     

Expression of tubulin polyglycylation in Giardia lamblia

By means of immunofluorescence, immunoelectron microscopy and immunoblotting, we show that polyglycylation, a posttranslational modification of tubulin widely spread among eukaryotes, is present in the diplomonad, Giardia lamblia, a putative ancestral cell possessing a highly developed microtubular cytoskeleton. This modification was recently discovered in the ciliated protist, Paramecium, and was not found in the Euglenozoa, a lineage considered as ancient. We used two monoclonal antibodies (mAbs), TAP 952 and AXO 49, specifically recognizing mono- and polyglycylated tubulin isoforms, to detect this modification in Giardia extracts and to localize it in the different classes of microtubules within the cell. The alpha- and beta-tubulin subunits were recognized by the two mAbs, indicating that both tubulin subunits are glycylated, in agreement with lately reported mass spectrometry results. Noticeably, Giardia tubulin was much more reactive with AXO 49 than with TAP 952. In situ, AXO 49 intensely labeled the microtubules present in the four pairs of flagella and the median body, and lightly decorated the microtubules from the adhesive disc. In contrast, TAP 952 intensely labeled only the microtubules of the median body. The results indicate a differential expression of glycylated isoforms within various microtubular structures of Giardia lamblia. They also suggest that the complete set of enzymes required for polyglycylation is expressed in very divergent eukaryotes.