Trypanosoma cruzi: analysis of the population dynamics of heterogeneous mixtures

Utilizing the previously reported inter-clonal differences in total DNA/organism, flow cytometry was used to analyze the population dynamics of Trypanosoma cruzi clone mixtures growing in liquid medium or vertebrate cells. The growth of clone mixtures in liquid medium can be described by unique parameters reflecting exponential growth rate (r), stationary phase population density (1/k), and the interaction between the clones (h). The relative numbers of each clone in the population change rapidly with time and the results are in quantitative agreement with mathematical models of competitive population growth. The relationship between the parameters for T. cruzi is such that, in general, there is no dynamic equilibrium with coexistence of clones with different growth rates; under all culture protocols, the faster growing clone will prevail. A computer simulation of the vertebrate cell cycle of T. cruzi suggests that clone mixtures grow relatively independently; the basic attributes of the model were substantiated experimentally. Although wide fluctuations in the proportion of each clone released occurred, the faster growing clone again predominated. Finally, these results underline the importance of working with well-defined clones in the laboratory to avoid inconsistencies and paradoxical results and stress the importance of the rapid isolation of single cell clones from clinical specimens when studying the relationship of the parasite to human disease.     

Trypanosoma cruzi: Biological Characterization of 19 Clones Derived from Two Chronic Chagasic Patients. I. Growth Kinetics in Liquid Medium1

Nineteen clones of Trypanosoma cruzi were obtained as single-cell isolates from Triatoma infestans. Ten of the clones were isolates from a patient with chronic Chagas' disease; nine clones were isolates from a dog infected with T. cruzi strain CA-I isolated originally from a chronic chagasic patient. The growth kinetics and peak modal Coulter volume of these clones were characterized. Significant inter- and intra-group differences between growth rates and peak modal volumes were found. These data indicate that subpopulations and, consequently, genetic heterogeneity of T. cruzi exist in chronic chagasic patients. All of the clones infected vertebrate cells in vitro.     

Trypanosoma cruzi: Biological Characterization of Clones Derived from Chronic Chagasic Patients. II. Quantitative Analysis of the Intracellular Cycle1

The complete intracellular cycle of five cloned stocks of Trypanosoma cruzi was quantified. Marked but stable interclonal differences were found in the length of the pre-replicative lag period (18.2-34.2 h), amastigote doubling lime (8.6-21.5 h), and duration of the complete intracellular cycle (96-215 h). Strong correlations were demonstrated between these characteristics as well as to the growth rate of the epimastigote stage of the same clones grown in liquid medium. These data demonstrate that the marked heterogeneity of the natural population of T. cruzi extends to the intracellular cycle of the parasite and has important implications for our understanding of Chagas’ disease.     

Trypanosoma cruzi: Quantification and Analysis of the Infectivity of Cloned Stocks1

The infection of bovine embryo skin and muscle cells by trypomastigotes of four Trypanosoma cruzi clones (CA-I/71, /72, Miranda/76, /80) was quantified. Stable and reproducible intra-isolate differences were observed; an almost 70-fold difference in infectivity occurred between clones. The CA-I/71 clone was not susceptible to N-acetyl-D-glucosamine at a concentration that inhibits the infection of vertebrate cells by Ernestina and Y-strain parasites. Eight other monosaccharides that are common constitutents of vertebrate cell surface glycoproteins also failed to inhibit the infection of vertebrate cells by the CA-I/71 clone.     

Proton nuclear magnetic resonance analysis of metabolic end products of the Bolivia strain of Trypanosoma cruzi and three of its clones

Proton nuclear magnetic resonance (¹H NMR) was used to study the in vivo metabolism of Trypanosoma cruzi, the pathogen causing American trypanosomiasis (Chagas' disease). Three clones were isolated from a strain of T. cruzi (Bolivia strain), The clones I, II and III and the original strain were characterized according to the spectra of their metabolic pathways to test the hypothesis that clonal evolution of T. cruzi has a major impact on biologically relevant properties of this parasite. T. cruzi (Bolivia strain) excreted acetate, alanine, glycerol, and succinate as major end products, in the proportion 6:4:2:2. Comparing the spectra of T. cruzi clones with the original Bolivia strain revealed both quantitative, as well as qualitative differences in the metabolites excreted: the clones I and II, as opposed to the Bolivia strain and clone III, excreted significant quantities of ethanol.     

LIFE‐HISTORY EVOLUTION AND DENSITY‐DEPENDENT GROWTH IN EXPERIMENTAL POPULATIONS OF YEAST

We studied the evolution of the correlation between growth rate r and yield K in experimental lineages of the yeast Saccharomyces cerevisiae. First, we isolated a single clone every approximately 250 generations from each of eight populations selected in a glucose‐limited medium for 5000 generations at approximately 6.6 population doublings per day (20 clones per line × 8 lines) and measured its growth rate and yield in a new, galactose‐limited medium (with ～1.3 doubling per day). For most lines, r on galactose increased throughout the 5000 generations of selection on glucose whereas K on galactose declined. Next, we selected these 160 glucose‐adapted clones in the galactose environment for approximately 120 generations and measured changes in r and K in galactose. In general, growth rate increased and yield declined, and clones that initially grew slowly on galactose improved more than did faster clones. We found a negative correlation between r and K among clones both within each line and across all clones. We provide evidence that this relationship is not heritable and is a negative environmental correlation rather than a genetic trade‐off.     

Variation in the growth and biosynthetic activity of cloned cell cultures of Capsicum frutescens and their response to an exogenously supplied elicitor

Twenty clones established from single cells of a suspension culture of Capsicum frutescens were maintained as callus and in suspension over a sixteen week culture period. These clones exhibited marked differences in growth, chlorophyll and chloroform-soluble phenolic content which became more apparent with increasing time in culture. Clones in suspension exhibited a more rapid change in morphology and biosynthetic activity than those cultured as callus. Elicitation increased PAL activity, reduced the incorporation of L-[U-¹⁴C] phenylalanine into the chloroform-soluble fraction of the culture medium and increased incorporation into the methanol-soluble fraction of the cells in ten suspension clones. Differences to elicitation were observed among clones; in particular the faster growing isolates incorporated more radioactive label into soluble phenolics that remain in the cells than those that are released into the medium. The implications of these results are discussed.Abbreviations SH Schenk & Hildebrandt - PAL phenylalanine ammonia-lyase - RGR relative growth rate - TCC total chlorophyll content - HPLC high performance liquid chromatography     

Trypanosoma cruzi: Biological characterization of lineages I and II supports the predominance of lineage I in Colombia

The causes of the particular distribution of both Trypanosoma cruzi lineages throughout the American continent remain unknown. In Colombia, T. cruzi I is the predominant group in both domestic and sylvatic cycles. Here, we present the biological characterization of T. cruzi parasites belonging to both T. cruzi I and T. cruzi IIb groups. Our results show the inability of the T. cruzi IIb clones to infect mammalian cells, produce trypomastigotes and replicate in Rhodnius prolixus, the main vector species in this country. Moreover, this result was confirmed when other species from the same genus, such as R. pallescens and R. robustus, were infected with the same TcIIb clone and its parental strain, while the infection in other genera such as Triatoma and Panstrongylus was successful. Furthermore, the growth kinetics and duplication time in vitro suggest that the high prevalence of T. cruzi I in Colombia results from more successful interactions between parasite lineage, vector, and host species. This type of study may help to understand the factors influencing the particular epidemiological patterns of Chagas disease transmission in different endemic regions.     

PEG-tolerant cell clones of chili pepper: Growth,osmotic potentials and solute accumulation

Cell cultures of chili pepper (Capsicum annuum L.) were established from callus tissue inoculated in MS liquid medium supplemented with 6.25 M 2,4-d and 0.44 M BA. Cell clones were isolated by plating the cell suspension on filter paper discs supported by polyurethane foam that were bathed with culture medium containing 15% PEG. The cell clones T6 and T7 were chosen based on their characteristics of growth and friability. These cell clones were established as cell suspensions in the presence of 15% PEG and subsequently subcultured in increasing concentrations of osmoticum. By this approach the cell clones T7 and T6 were capable of growing in the presence of 20 and 25% PEG, respectively. The cell clone T7 was found to grow better in the presence of 5–10% PEG after a period of subculturing in the absence of osmoticum indicating that the tolerance trait was stable. The tolerant cell clones exhibited a 3 to 3.5-fold decrease in the osmotic potentials in comparison with the nonselected cells suggesting that osmotic adjustment occurred. K⁺ was the major contributing solute to the osmotic potential in all the cell cultures among those tested and was found to be higher in concentration in the PEG-tolerant clones (1.3–3 times higher than nonselected cells). Proline and glycine betaine levels showed a positive correlation with the degree of tolerance to water deficit in the PEG-tolerant cell clones. The levels of proline in the cell clone T7 subcultured in the absence of PEG in the culture medium decreased to values similar to those of nonselected cells, whereas the contents of glycine betaine in the same conditions were maintained at high levels.Abbreviations BA benzyladenine - 2,4-d 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog medium - PEG polyethylene glycol     

Aldo‐keto reductase and alcohol dehydrogenase contribute to benznidazole natural resistance in Trypanosoma cruzi

The improvement of Chagas disease treatment is focused not only on the development of new drugs but also in understanding mechanisms of action and resistance to drugs conventionally used. Thus, some strategies aim to detect specific changes in proteins between sensitive and resistant parasites and to evaluate the role played in these processes by functional genomics. In this work, we used a natural Trypanosoma cruzi population resistant to benznidazole, which has clones with different susceptibilities to this drug without alterations in the NTR I gene. Using 2DE‐gel electrophoresis, the aldo‐keto reductase and the alcohol dehydrogenase proteins were found up regulated in the natural resistant clone and therefore their possible role in the resistance to benznidazole and glyoxal was investigated. Both genes were overexpressed in a drug sensitive T. cruzi clone and the biological changes in response to these compounds were evaluated. The results showed that the overexpression of these proteins enhances resistance to benznidazole and glyoxal in T. cruzi. Moreover, a decrease in mitochondrial and cell membrane damage was observed, accompanied by a drop in the intracellular concentration of reactive oxygen species after treatment. Our results suggest that these proteins are involved in the mechanism of action of benznidazole.     

Characterization of protoplasts prepared from the edible fungus, Stropharia rugoso-annulata

Protoplast preparation and regeneration conditions of the edible fungus, Stropharia rugoso-annulata Farlow apud Murrill were studied, and the regenerated progenies were characterized in this study. The optimal condition for protoplast preparation was incubation of young mycelia with gentle shaking in 1.5%(w/v) Lywallzyme at 30 °C for 3 h. PGPM (potato/glucose/peptone/mannitol) was the most suitable regeneration medium. Served as osmotic stabilizer, sugars (mannitol and sucrose) were better than inorganic salts (MgSO₄) for clone development and growth. Pre-incubation of protoplasts in liquid regeneration medium resulted in a significantly decreased regeneration rate. Both dikaryotic isolates and monokaryotic isolates could be identified from protoplast-regenerated progenies, with a much higher frequency of monokaryotic isolates identified from the early-developed and fast-growing regenerated clones. Two parental mating types were also identified from protoplasted monokaryotic isolates, but not segregated by 1:1. The mycelial growth rate of protoplasted monokaryotic isolates showed a mating type-dependent model when cultured at different incubation temperatures and pH values, with A2B2 mating type monokaryotic isolates growing faster than those of A1B1 mating type monokaryotic isolates.     

High forskolin production in hairy roots of Coleus forskohlii

Hairy roots of Coleus forskohlii were induced by infection with the Agrobacterium rhizogenes MAFF 03-01724 strain. Growth and forskolin production of two hairy root clones cultured in various liquid media were examined. Hairy root clone B9 grew well in woody plant liquid medium and showed a high forskolin yield (ca. 1.3 mg/ 100 ml flask) after 5 weeks of culture. The time course of growth and forskolin production of the clone B9 cultured in woody plant liquid medium was also examined. Rapid growth started at week 2 and continued until week 5. The highest forskolin yield (ca. 1.6 mg/100 ml flask) was obtained at week 5. Productivity was much higher than that previously reported. Received: 19 June 1997 / Revision received: 6 October 1997 / Accepted: 18 October 1997     

The identification of two Trypanosoma cruzi I genotypes from domestic and sylvatic transmission cycles in Colombia based on a single polymerase chain reaction amplification of the spliced-leader intergenic region

A single polymerase chain reaction (PCR) reaction targeting the spliced-leader intergenic region of Trypanosoma cruzi I was standardised by amplifying a 231 bp fragment in domestic (TcI_DOM) strains or clones and 450 and 550 bp fragments in sylvatic strains or clones. This reaction was validated using 44 blind coded samples and 184 non-coded T. cruzi I clones isolated from sylvatic triatomines and the correspondence between the amplified fragments and their domestic or sylvatic origin was determined. Six of the nine strains isolated from acute cases suspected of oral infection had the sylvatic T. cruzi I profile. These results confirmed that the sylvatic T. cruzi I genotype is linked to cases of oral Chagas disease in Colombia. We therefore propose the use of this novel PCR reaction in strains or clones previously characterised as T. cruzi I to distinguish TcI_DOMfrom sylvatic genotypes in studies of transmission dynamics, including the verification of population selection within hosts or detection of the frequency of mixed infections by both T. cruzi I genotypes in Colombia.     

Effects of size and growth rate on vegetative reproduction in Typha

Summary The objective of this study was to separate the effects of plant biomass and growth rate on vegetative reproduction in two species of cat-tail, Typha latifolia and T. angustifolia. Replicate clones of both species were grown under conditions of 100%, 42%, 24%, and 9% full sunlight with harvests at 41, 70, and 91 days after shading. T. angustifolia produced most of its vegetative offspring before the first harvest and increased biomass over the remainder of the experiment by increasing the size of its ramets. In contrast, T. latifolia produced vegetative offspring gradually throughout the experiment adding new ramets only after existing clones were of mature size. As a result of these differences in the cloning process, T. angustifolia showed little correlation between vegetative reproduction and clone size while T. latifolia showed a strong correlation between gegetative reproduction and clone size at the three highest light intensities. Growth rates, average clone size and vegetative reproduction were all reduced by reductions in light intensity for both species. However, no effect of growth rate on the relationship between clone size and vegetative reproduction in T. latifolia could be detected. T. latifolia showed greater survivorship and more biomass production under 9% light than T. angustifolia indicating a greater shade tolerance.     

Involvement of STI1 protein in the differentiation process of Trypanosoma cruzi

The protozoan Trypanosoma cruzi is a parasite exposed to several environmental stressors inside its invertebrate and vertebrate hosts. Although stress conditions are involved in its differentiation processes, little information is available about the stress response proteins engaged in these activities. This work reports the first known association of the stress-inducible protein 1 (STI1) with the cellular differentiation process in a unicellular eukaryote. Albeit STI1 expression is constitutive in epimastigotes and metacyclic trypomastigotes, higher protein levels were observed in late growth phase epimastigotes subjected to nutritional stress. Analysis by indirect immunofluorescence revealed that T. cruzi STI1 (TcSTI1) is located throughout the cell cytoplasm, with some cytoplasmic granules appearing in greater numbers in late growing epimastigotes and late growing epimastigotes subjected to nutritional stress. We observed that part of the fluorescence signal from both TcSTI1 and TcHSP70 colocalized around the nucleus. Gene silencing of sti1 in Trypanosoma brucei did not affect cell growth. Similarly, the growth of T. cruzi mutant parasites with a single allele sti1 gene knockout was not affected. However, the differentiation of epimastigotes in metacyclic trypomastigotes (metacyclogenesis) was compromised. Lower production rates and numbers of metacyclic trypomastigotes were obtained from the mutant parasites compared with the wild-type parasites. These data indicate that reduced levels of TcSTI1 decrease the rate of in vitro metacyclogenesis, suggesting that this protein may participate in the differentiation process of T. cruzi.     

Trypanosoma cruzi: defined medium for continuous cultivation of virulent parasites.

A liquid medium was developed for the continuous cultivation of Trypanosoma cruzi. Among the several highly purified macromolecules tested only bovine liver catalase, horseradish peroxidase, lactoperoxidase, and bovine hemoglobin supported the continuous growth, at high yield, of mice-virulent Trypanosoma cruzi; other hemoproteins were inactive. Bovine liver catalase showed optimal Trypanosoma cruzi growth-promoting activity, parasites reaching 20 × 10⁶ parasites/ml (95% epimastigotes) at about 10 days in most of the 45 subpassages to date. Furthermore, this protein in the incubation medium provided all the amino acid requirements of actively growing parasites, thus eliminating the need for exogeneous free amino acids. Additional experiments revealed that the hemoprotein's growth-promoting activity was independent of any enzymatic activity and that reconstituting the exact protein composition by means of exogeneous amino acids did not support parasite multiplication, suggesting the importance of the primary structure of the active proteins for growth-promoting activity. These active macromolecules supported the multiplication of five different strains of Trypanosoma cruzi, but did not support Leishmania brasiliensis or Leishmania mexicana proliferation, suggesting species specificity.     

A STATISTICAL CHARACTERIZATION OF GROWTH AMONG CLONES OF SYNURA PETERSENII (SYNUROPHYCEAE)1

Each of four clones from the Synura petersenii complex was grown at different pHs (5.5, 6.5, 7.5, 8.5) in batch culture experiments. Growth response curves and exponential growth rates were compared among clones and pH treatments in order to examine growth trend variation among the clonal groups. The clones were isolated from geographically distant North American localities. The clonal groups represented distinct mating types, an isolate and its subisolate, and S. petersenii- and S. glabra-like scale morphologies. No consistent relationship existed between growth response curve, and culture medium pH. Additionally, the trends across time differed according to clone and pH combination. Pairwise comparisons of linear trends from transformed growth response curves indicated two distinct clonal associations. Although the clonal associations corresponded with the final cell density of the cultures, growth response curves did not correspond with mating type, the parent-isolate and subisolate, or scale morphology. Clones with glabra-like scales had greater growth rates than the clone with petersenii-like scales. The conflicting results generated from growth response curve and growth rate analyses support the concept that S. petersenii and S. glabra form a highly variable, homogeneous grouping.     

Analysis of mycorrhizal associations formed by Cistus incanus transformed root clones with Terfezia boudieri isolates

One clone (M-2), out of several Agrobacterium rhizogenes transformed root clones of Cistus incanus, formed ecto- or endomycorrhiza in vitro with two isolates of Terfezia boudieri collected in Israel. All other clone-fungal isolate combinations formed ectomycorrhiza. The endomycorrhiza-forming isolate secreted smaller amounts of auxin than an ectomycorrhiza-forming isolate. Addition of 2,4-dichlorophenoxyacetic acid (2,4-D) led to ectomycorrhiza formation by the M-2 clone on low P medium. Endomycorrhizas were formed by both M-2 and a control clone with the same T. boudieri isolates on high P medium with 2,4-D. The M-2 clone of C. incanus exhibited greater sensitivity to exogenous auxins (IAA and 2,4-D) than other clones, and clonal sensitivity to auxin was increased tenfold under low P conditions. Results are discussed in relation to phosphate and auxin influence on T. boudieri–C. incanus interaction.     

Theileria parva: cell culture analysis of clones of macroschizont-infected bovine lymphoblastoid cells

Three clones (H7, D7, and C5) were established from single cells of a bovine lymphoblastoid cell line (IR.TPM.1) infected with macroschizonts of the protozoan parasite Theileria parva. The cloning efficiency using feeder layers was 0.3–0.4. The mean parasite size (the number of parasite nuclei per cell) was different in each clone and was correlated to the growth rate. The fast growing clone, C5 (population doubling time 24 hr), contained smaller (mean parasite nuclear number, 12) parasites than a slow growing clone, D7 (population doubling time, 73 hr; mean number of parasite nuclei per cell, 35.3). The third clone, H7, had an intermediate growth rate (population doubling time, 49 hr) and parasite size (mean nuclei number, 18.1). There was variation in the incidence of microschizonts among the clones but microschizont-free clones were not isolated. When the clones were subjected to 4.3 × 10^?7M aminopterin, 20–25% of the cell population of clones H7 and C5 and the uncloned parent line lost their parasites in 4 days, while it took 7 days to reach a similar result (31% parasite-free cells) in clone D7. We were unable to isolate parasite-free clones from cells treated with aminopterin. Hydroxyurea (4 × 10^?4M) inhibited the growth of clone C5, but the macroschizonts continued to proliferate, and the incidence of cells with microschizonts increased. The size profile analysis showed that most of the aminopterin-treated cells were 9.0 μm, the hydroxyurea-treated cells 14.7 μm, and the untreated cells 10.8 μm in diameter.     

ISOZYME VARIABILITY IN TRYPANOSOMA CRUZI,THE AGENT OF CHAGAS' DISEASE: GENETICAL,TAXONOMICAL, AND EPIDEMIOLOGICAL SIGNIFICANCE

A genetic interpretation of the zymograms of 524 Trypanosoma cruzi stocks from various hosts and representing a broad geographical range (United States to Southern Brazil) reveals high genetic variability (only one monomorphic locus out of 15) and suggests that this parasite has a diploid structure. The data do not give any indication of Mendelian sexuality, although many opportunities are present for genetic exchange between extremely different genotypes. The population structure of T. cruzi appears to be multiclonal and complex. The natural clones evidenced by isozyme analysis are numerous (43 different ones are recorded among 121 stocks assayed at 15 gene loci) and exhibit a large range of genotypes, in a nonhierarchical structure; it is not possible to cluster them into a few strictly delimited groups which could represent natural taxa. The available data suggest that the genetic variability of T. cruzi reflects the long separate evolution of multiple clones. It is suggested that long clonal evolution may explain the present biological and medical variability of the causative agent of Chagas' disease.