Effects of Promastigote Growth Phase,Frequency of Subculture,and Host Age on Promastigote-initiated Infections with Leishmania donovani in the Golden Hamster*†

Promastigotes of Leishmania donovani, 3S strain, were cultured from homogenized infected hamster spleen incubated at 25 C in a particle-free modification of Tanabe's (1923) medium, and were subcultured in this medium from 1 to 4 times. Promastigotes were inoculated intracardially to golden hamsters (Mesocricetus auratus). Promastigotes that were subcultured frequently by transfer from log phase of growth retained their infectivity for hamsters, as assayed by numbers of amastigotes in the liver at 16 days post infection. Promastigotes that were subcultured infrequently by transfer from stationary phase declined in infectivity. The extent of the decline was roughly proportional to the length of the incubation periods of the primary culture plus 1st subculture. Promastigotes harvested from log phase of growth were significantly less infective for hamsters than those harvested from stationary phase of growth, in that numbers of amastigotes found in the liver after 16 days were lower, and times to death longer, when log phase organisms were used to infect hamsters. The age of the hamster at the time of inoculation was found to affect the apparent infectivity of promastigotes from a 1st or 2nd subculture. When weanling (age 4 weeks), juvenile (age 8 weeks) and adult (age 24 to 32 weeks) hamsters received the same numbers of promastigotes, the weanlings had the highest numbers of liver amastigotes at 16 days, and shortest times to death, of the 3 groups; juveniles were intermediate between weanlings and adults; and adults had the lowest numbers of parasites and longest times to death of the host. Differences were statistically significant only between weanlings and adults. Responses of weanling and adult hamsters to infection with promastigotes could be rendered indistinguishable if the promastigotes were inoculated on the basis of 10⁵ promastigotes per g of host body weight.     

Infectivity and virulence of Leishmania donovani promastigotes: a role for media,source, and strain of parasite

Transformation of promastigotes of Leishmania donovani strain AG83 from amastigotes derived from an infected animal was studied in three media, Schneider's Drosophila medium (SDM), Medium 199 (M199), and biphasic M199 (B-M199) with 10% fetal bovine serum. The media, SDM and B-M199, both supported a more efficient transformation of promastigotes in comparison with M199. Infectivity studies in hamsters and BALB/c mice showed that promastigotes isolated in B-M199 were several folds more infective than those obtained from M199. Comparison of the infectivity and virulence of promastigotes of AG83, with a recent isolate of kala-azar, SL94, harvested under similar conditions, revealed greater infectivity of SL94 for both macrophages and animal models. The present study demonstrates that the medium used for the conversion of amastigotes to promastigotes plays a major role in determining the infectivity of the freshly transformed L. donovani promastigotes in hamsters and BALB/c mice. The source and the strain of the parasite also influence the outcome of L. donovani infection.     

The change of behaviour of two strains of Leishmania after cultivation in a defined medium

Attempts have been made to characterize two strains of Leishmania that became infective to golden hamsters only after they had been maintained for several years in a chemically defined culture medium. Observations were made on the growth rates of promastigotes in vitro, course of infection in hamsters, morphology of amastigotes, and electrophoretic mobility patterns of eight isoenzymes. Information was obtained about the buoyant densities of n-DNA and k-DNA, and one strain was tested against monoclonal antibodies. The identity of both strains remains obscure.     

Laboratory transmission of an Asian strain of Leishmania tropica by the bite of the southern European sand fly Phlebotomus perniciosus

Imported cases of anthroponotic cutaneous leishmaniasis due to Leishmania tropica are increasingly documented in Europe. We investigated the ability of Phlebotomus perniciosus, a competent vector of Leishmania infantum widespread in southwestern Europe, to support the growth and transmissibility of an Asian strain of L. tropica recently isolated from a refugee. Parasite growth behavior was investigated in laboratory-reared sand flies fed artificially with promastigotes as well as in sand flies infected after biting on footpad lesions induced in hamsters by promastigote inoculation. The evolution of infection was checked by gut microscopy and quantitative real-time PCR, and it was found to be similar between promastigote- and amastigote-initiated infections. In 80% of infected sand flies, despite survival and flourishing growth of promastigotes after blood digestion and defecation, either the parasites died, or failed to migrate to the foregut and/or to mature into infective forms. However, in the remaining 20% L. tropica developed into abundant metacyclic promastigotes. The quantitative real-time PCR assay detected variable loads of gut promastigotes irrespective of morphological evidence of viability or progressive/final death. Parasite transmissibility was investigated by exposing naive hamsters to P. perniciosus previously infected on chronic lesions induced in hamsters which survived to take a second blood meal. Two months post exposure, lesions developed in skin sites bitten by sand flies confirmed to harbor metacyclic promastigotes; in the following months, the presence of viable and transmissible L. tropica parasites in lesions was demonstrated by xenodiagnosis assays. Our findings support the hypothesis that, in particular epidemiological situations, P. perniciosus may play the role of an occasional L. tropica vector.     

Leishmania (Viannia) braziliensis metacyclic promastigotes purified using Bauhinia purpurea lectin are complement resistant and highly infective for macrophages in vitro and hamsters in vivo

In this study we characterised metacyclogenesis in axenic culture of Leishmania (Viannia) braziliensis, the causative agent of mucocutaneous leishmaniasis in the New World. Metacyclogenesis of other species of Leishmania has been shown by morphological changes as well as molecular modifications in the lipophosphoglycan, the major cell surface glycoconjugate of the promastigotes. In order to obtain metacyclic forms of L. braziliensis we tested a panel of different lectins. Our results showed that Bauhinia purpurea lectin facilitated the purification of metacyclic promastigotes from stationary-phase culture by negative selection. The B. purpurea non-agglutinated promastigotes had a slender short cell body and long flagella, typical of metacyclic morphology. The ultrastructural analysis showed that B. purpurea non-agglutinated promastigotes have a dense and thicker glycocalyx. They are resistant to complement lysis, and highly infective for macrophage in vitro and hamsters in vivo. Contrary to procyclic promastigotes, B. purpurea non-agglutinated forms were poorly recognised by sand fly gut epithelial cells. These results suggest that the B. purpurea non-agglutinated promastigotes are the metacyclic forms of L. braziliensis.     

An Effective Diaryl Derivative Against Leishmania amazonensis and its Influence on the Parasite X Macrophage Interaction

The activity of several diarylheptanoid derivatives (curcuminoids) was previously evaluated against Leishmania amazonensis promastigotes and among them the most active compound was 5-hydroxy-7- (4-hydroxy-3-methoxyphenyl)-1-(4-methoxyphenyl)-1,4,6-heptatrien-3-one. This study was carried out to investigate the influence of this diaryl derivative on the infective promastigotes and Balb/c mice peritoneal macrophage interaction. The potential in?vitro toxicity was also evaluated. Promastigotes pretreated for 24?hours with the compound had their infective capacity significantly decreased. When the infection of Balb/c macrophage by L.?amazonensis promastigotes was already installed, addition of the drug resulted in a diminishing of the infection rate. It was demonstrated that the compound was not toxic to the host macrophage in a concentration equivalent to the LD₅₀/24?h from the previous in?vitro experiment.     

Isolation of infective promastigotes of Leishmania major from long-term culture by cocultivation with macrophage cell line

Research on Leishmania–macrophage interaction is mainly focused on the impact of the parasite on macrophages and several known virulent factors have been described. Furthermore, studies on macrophage revealed several defense mechanisms including various cytokines which are released by macrophages to defend against parasite. In the present study, a new aspect of this interaction was evaluated: parasite characteristics, which emerge when they were cocultivated with macrophage. Two promastigote characteristics, survival at high temperature (32 °C) and infectivity rate were the focus of this study. In this study, an in vitro coculture model for promastigotes with macrophage cell line, J774 A1, was introduced using a cell culture chamber system which separates both cell types by a microporous polycarbonate membrane. After 5–7 days of coculturing at 32 °C, a few promastigotes survived longer than control group. Once this population of parasite was cultured at optimal temperature (26 °C), the emerged new clone was much more infective for J774 A1 cell line in comparison with the original one. Having this system and using the new clone of promastigotes, parasite infectivity rate was raised from 1–2% of original clone to 35–45%. Using this new introduced technique, infective promastigotes were isolated from 9 month old frequently sub-cultured clone of Leishmania major. This coculturing system allows investigators to prepare infective promastigotes from the frequently cultured parasites. Molecular and biochemical mechanisms of this phenomenon need to be investigated.     

Effects of Long-Term in Vitro Cultivation on Leishmania donovani Promastigotes

Promastigotes of Leishmania donovani that had been subcultued in modified Tobie's medium for 2 to 3 years showed decreased infectivity and lack of virulence for hamsters and mice compared to newly transformed promastigotes. Amastigotes derived from these long-term promastigote cultures decreased in number rapidly in hamsters, but only slightly in mice, over a 48-day period. In cultured mouse and hamster macrophags infected in vitro, amastigotes derived from long-term cultures rapidly decreased to low numbers, which persisted. The same pattern was seen in macriphages treated with catalase, an inhibitor of the oxygen-dependent killing mechanism of the macrophage. Promastigotes from long-term cultures also differed from virulent first-passage promastigotes in size, growth patterns in Tabie's medium, and in the quantities of some of their antigens.     

The midgut microbiota plays an essential role in sand fly vector competence for Leishmania major

For many arthropod vectors, the diverse bacteria and fungi that inhabit the gut can negatively impact pathogen colonization. Our attempts to exploit antibiotic treatment of colonized Phlebotomus duboscqi sand flies in order to improve their vector competency for Leishmania major resulted instead in flies that were refractory to the development of transmissible infections due to the inability of the parasite to survive and to colonize the anterior midgut with infective, metacyclic stage promastigotes. The parasite survival and development defect could be overcome by feeding the flies on different symbiont bacteria but not by feeding them on bacterial supernatants or replete medium. The inhibitory effect of the dysbiosis was moderated by lowering the concentration of sucrose (<30% w/v) used in the sugar feeds to maintain the colony. Exposure of promastigotes to 30% sucrose was lethal to the parasite in vitro. Confocal imaging revealed that the killing in vivo was confined to promastigotes that had migrated to the anterior plug region, corresponding to the highest concentrations of sucrose. The data suggest that sucrose utilization by the microbiota is essential to promote the appropriate osmotic conditions required for the survival of infective stage promastigotes in vivo.     

Trypanothione Reductase Activity is Prominent in Metacyclic Promastigotes and Axenic Amastigotes of Leishmania amazonesis. Evaluation of its Potential as a Therapeutic Target

The activity of trypanothione reductase in Leishmania amazonensis was evaluated and it was demonstrated that TR is expressed in the soluble fractions of infective promastigotes and amastigotes, while non-infective promastigotes expressed the enzyme at basal levels. This data allows an association of enzyme activity and the infective capacity of the parasite. We have also previously demonstrated that amidine compounds (N, N′-diphenyl-4-methoxy-benzamidine and pentamidine) were active against this parasite. Here, experiments concerning the effect of these compounds on TR activity, showed that both compounds significantly inhibited the enzyme. However, against glutathione reductase, only pentamidine showed a significant inhibitory action, suggesting an association with the toxic effects of this drug used in the clinic for the treatment of leishmaniasis.     

Infective stages of Leishmania in the sandfly vector and some observations on the mechanism of transmission

Infective stages of Leishmania (Leishmania) amazonensis, capable of producing amastigote infections in hamster skin, were shown to be present in the experimentally infected sandfly vector Lutzomyia flaviscutellata 15, 25, 40, 49, 70, 96 and 120 hours after the flies had received their infective blood-meal. Similarly, infective stages of Leishmania (L.) chagasi were demonstrated in the experimentally infected vector Lu. longipalpis examined 38, 50, 63, 87, 110, 135, 171 and 221 hours following the infective blood-meal, by the intraperitoneal inoculation of the flagellates into hamsters. The question of whether or not transmission by the bite of the sandfly is dependent on the presence of "metacyclic" promastigotes in the mouthparts of the vector is discussed.     

Characterization of Populations of Promastigotes of Leishmania donovani1

Promastigotes of Leismania donovani cultured for either 3 or 10 days in vitro and inoculated intracardially into golden hamsters with an equal number of organisms from either population showed a 7-fold difference in infectivity when compared at both 10 to 16 days post-infection. Reproducible histochemical staining for the promastigote enzymes glucose-6-phosphate dehydrogenase (G6PDH) and peptidase after polyacrylamide gel electrophoresis showed two isoelectric variants of G6PDH (Bands 1 and 2) that displayed a 45% decrease (Band 1) and a 60% increase (Band 2) in total activity when 3- and 10-day-old promastigores were compared. Peptidase activity, present in a single band, increased 7-fold in 10-day-old promastigotes. A decrease in the lectin-induced agglutination of promastigotes by castor bean agglutinin (RCA₆₀), specific for D-galactose and N-acetyl-D-galactosamine, was seen when 3- and 10-day-old promastigotes are compared. Antisera raised against sonicated 10-day-old promastigotes showed a unique precipitin band between the antiserum and sonicated 10-day-old promastigotes not found between the antiserum and sonicated 3-day-old promastigotes.     

Comparative real-time kinetic analysis of human complement killing of Leishmania infantum promastigotes derived from axenic culture or from Phlebotomus perniciosus

Although Leishmania metacyclic promastigotes are generally considered resistant to human complement, studies of in vitro-cultured axenic stationary promastigotes using serum concentrations that approximate physiological plasma conditions indicate complement sensitivity. Natural Leishmania infection is caused by sand fly-inoculated promastigotes, whose complement resistance has not been analyzed systematically. We compared Leishmania susceptibility to human complement in L. infantum promastigotes derived from in vitro cultures and from sand flies. Phlebotomus perniciosus sand flies were fed with axenic promastigotes, L. infantum-infected U-937 cells, or spleen cells from L. infantum-infected hamsters. On selected days post-feeding, flies were dissected and promastigotes isolated; in addition, axenic promastigotes were obtained from culture at equivalent days of growth. In near-physiological serum concentration and temperature conditions, measurement of real-time kinetics of propidium iodide uptake showed that 90% of axenic- and sand fly-derived promastigotes were rapidly killed by complement. We found no substantial differences between promastigotes from axenic culture, those isolated from flies on different post-feeding days, or those generated in flies fed with distinct inocula. The results indicate that Leishmania susceptibility to human complement is independent of promastigote developmental stage in the sand fly mid-gut and in axenic culture.     

Cell surface nanoanatomy of Leishmania major as revealed by fracture-flip. A surface meshwork of 44 nm fusiform filaments identifies infective developmental stage promastigotes

Fracture-flip (Anderson-Forsman and Pinto da Silva, J. Cell Sci. 90, 531-541; 1988) was used to reveal the nanoanatomy of the surface of Leishmania major promastigotes. Over the cell surface of infective metacyclic promastigotes we identify a meshwork of 44 nm long, fusiform filaments. These filaments are not seen in noninfective stages of the parasite. Replica-staining immunocytochemistry with monoclonal antibody against infective metacyclic lipophosphoglycan shows a uniform distribution of protein A-colloidal gold complexes over the cell surface. Thin sections show that acquisition of the high molecular weight lipophosphoglycan is reflected in a thicker glycocalyx. Conventional freeze-fracture shows that in infective metacyclic promastigotes there is a reversal of the partition of intramembrane particles--an additional morphological marker for the infective developmental stage. We hypothesize that the fusiform filaments represent metacyclic developmental lipophosphoglycan.     

Infectivity of Trypanosoma brucei Cultivated at 28 C with Tsetse Fly Salivary Glands*

SYNOPSIS. When transformed procyclic noninfective trypanosomes of several unrelated stocks of Trypanosoma brucei were cultivated in T-30 Falcon flasks at 28 C in a liquid medium containing head-salivary gland explants of Glossina morsitans morsitans some of the organisms developed into forms infective for mice. Infective trypanosomes were detected 7 to 14 days after the cultures were prepared and they persisted for varying periods of up to 88 days when the cultures were terminated. A few of the salivary glands became invaded with parasites about the time infective organisms appeared in the cultures. Using T. brucei TREU 929, it was shown that trypanosomes grown with between 27 and 50 explants were capable of producing infections consistently for prolonged periods. On the other hand, trypanosomes cultivated with 25 or fewer explants rarely infected mice. Infectivity titrations on trypanosome suspensions from cultures of stocks TREU 1275 and TREU 929 revealed that the maximum number of infective organisms was present 26 to 50 days after initiation of the cultures. Control cultures of trypanosomes grown in medium alone were generally not infective but 2 of the 6 stocks gave rise to a few sporadic infections. A few epimastigote-like and metacyclic-like trypanosomes were seen in stained preparations of infective inocula.     

Changing surface carbohydrate configurations during the growth of Leishmania major.

Surface carbohydrates of leishmanial promastigotes change during their growth cycle. These changes were monitored in a cloned line of Leishmania major in 2 media. A freshly isolated virulent strain was also examined. Infectivity, surface sugar moieties, and released glycoconjugates (EF) were examined and compared during the growth cycle. When promastigotes of the same clone were grown in different media, their lectin-mediated agglutination profiles were dissimilar, and both quantitative and qualitative variation was seen in the antigenic glycoconjugates released into the media. When labeled with fluorescent lectins, the virulent strain showed no loss of galactose, an increase of N-acetylglucosamine, and a midcycle decrease of N-acetylgalactosamine. Promastigotes of this strain were infective to hamsters throughout the growth cycle. The results presented indicate that culture medium components regulate carbohydrate surface configurations and, thereby, antigenic expression. Infectivity of the virulent strain was not dependent on the expression of a single surface carbohydrate.     

Infectivity of Leishmania braziliensis promastigotes is dependent on the increasing expression of a 65,000-dalton surface antigen

Sequential development of Leishmania braziliensis promastigotes from a noninfective to an infective stage was demonstrated. The generation of infective forms was related to their growth cycle and restricted to stationary stage organisms. Using immunofluorescence techniques, we have noticed that the binding of a monoclonal antibody (mAb) against L. braziliensis (VD5/25) increased progressively as the promastigotes developed in culture and was maximal with the infective forms. This antigenic differentiation was not detected with an anti-L. braziliensis polyclonal rabbit antiserum, suggesting that only a few epitopes, including that recognized by VD5/25, have their expression effectively increased on the surface of infective promastigotes. Immunoprecipitation of lysates of surface-iodinated L. braziliensis promastigotes with this mAb revealed two proteins of apparent 65,000 and 50,000 Mr, the 50,000 Mr protein probably representing the unreduced form of the major surface glycoprotein described in several species of Leishmania (GP65). The increasing expression of this epitope was not found with L. chagasi promastigotes, but seems to occur with the parasites from the L. mexicana complex. Intracellular survival of L. braziliensis was completely inhibited when the infective promastigotes were treated with VD5/25. It appears, therefore, that the increasing expression of GP65 on the promastigote surface represents an essential mechanism of leishmania survival in the macrophage.     

Application of the most probable number method to estimations of entomopathogenic nematode populations in soil

The calculation of most probable numbers (mpn) was used for the estimation of numbers of infective entomopathogenic nematodes in soil. The mpn concept was first introduced in bacteriology as a means of estimating numbers of organisms in a substrate without a direct count, in cases where direct enumeration could not be applied. In the work reported here, soil samples infested with infective juveniles (IJs) of Heterorhabditis megidis (isolate HF85) were diluted with uninfested soil and the diluted soils were baited with mealworm larvae (Tenebrio molitor). The mpn of infective units of IJs in the undiluted soil was calculated. The mpn calculation was found to be applicable to entomopathogenic nematodes in soil under particular conditions. It could be successfully applied to data for the response of soil units but not to the data based on the response of individual insects, as the latter did not confirm to a Poisson series. The calculated mpn represented between 2.9 and 7.1% of the initial inoculum of IJs. It was suggested that IJs might act as a group in infecting an insect host. Using the data for Tenebrio mortality on parasitisation, the mpn based on quantal response of the mealworms would therefore not give the true density of IJs in the soil sample but the effective density, or the quantity of infective units. Although the biological significance of the infective unit needs further clarification, mpn was found to be a useful parameter for use in comparative experiments.     

Cell surface carbohydrate of Leishmania mexicana amazonensis: differences between infective and non-infective forms

The cell surface carbohydrates of Leishmania mexicana amazonensis (amastigotes and promastigotes, both infective and non-infective forms) were comparatively analyzed by agglutination assay employing 28 highly purified lectins, and by binding assay using 125I-labeled lectins. Among the D-GalNAc binding lectins, Bandeiraea simplicifolia-I, Dolichos biflorus, Phaseolus vulgaris and Glycine max were highly specific for the amastigotes, while that from Maclura aurantiaca selectively agglutinated promastigotes. The lectins from Wistaria floribunda, Phaseolus lunatus (D-GalNAc), Arachis hypogaea (D-Gal) and Triticum vulgaris (D-GlcNAc) were selective for the infective forms (both amastigotes and promastigotes), not reacting with the non-infective ones. Conversely, no parasite agglutination occurred with the L-fucose binding lectins Lotus tetragonolobus and Ulex europaeus-I. Binding studies with 125I-labeled lectins from Wistaria floribunda, Triticum vulgaris and Arachis hypogaea were performed to find whether unagglutinated non-infective promastigotes might have receptors for these lectins, in which case absence of agglutination could be due to a peculiar arrangement of the receptors. These assays essentially confirmed the selectivity, demonstrated in the agglutination assays of these lectins for the infective promastigotes.     

Identification of a protein kinase A regulatory subunit from Leishmania having importance in metacyclogenesis through induction of autophagy

cAMP‐mediated responses act as modulators of environmental sensing and cellular differentiation of many kinetoplastidae parasites including Leishmania. Although cAMP synthesizing (adenylate cyclase) and degrading (phosphodiesterase) enzymes have been cloned and characterized from Leishmania, no cAMP‐binding effector molecule has yet been identified from this parasite. In this study, a regulatory subunit of cAMP‐dependent protein kinase (Ldpkar1), homologous to mammalian class I cAMP‐dependent protein kinase regulatory subunit, has been identified from L. donovani. Further characterization suggested possible interaction of LdPKAR1 with PKA catalytic subunits and inhibition of PKA activity. This PKA regulatory subunit is expressed in all life cycle stages and its expression attained maximum level in stationary phase promastigotes, which are biochemically similar to the infective metacyclic promastigotes. Starvation condition, the trigger for metacyclogenesis in the parasite, elevates LdPKAR1 expression and under starvation condition promastigotes overexpressing Ldpkar1 attained metacyclic features earlier than normal cells. Furthermore, Ldpkar1 overexpression accelerates autophagy, a starvation‐induced cytological event necessary for metacyclogenesis and amastigote formation. Conditional silencing of Ldpkar1 delays the induction of autophagy in the parasite. The study, for the first time, reports the identification of a functional cAMP‐binding effector molecule from Leishmania that may modulate important cytological events affecting metacyclogenesis.