Real-time technology eliminates many of the pitfalls of diagnostic PCR, but this method has not been applied to differentiation of Leishmania organisms so far. We have developed a real-time PCR that simultaneously detects, quantitates, and categorizes Leishmania organisms into three relevant groups causing distinct clinical pictures. The analytical sensitivity (detection rate of >95% at 94.1 parasites/ml of blood) was within a range that has been determined previously to facilitate the confirmation of visceral leishmaniasis from peripheral blood. Parasites were successfully detected in 12 different clinical samples (blood, bone marrow, skin, and liver). The Leishmania donovani complex, the Leishmania brasiliensis complex, and species other than these could be clearly discriminated by means of distinct melting temperatures obtained with fluorescence resonance energy transfer probes (melting points, 72.7, 67.1, and 65.0°C, respectively). All three groups could be quantified within equal ranges. As in other real-time PCRs, the variability in the quantification of DNA was small (coefficient of variation [CV], <2%). However, human samples containing low levels of parasites (100 parasites per ml of blood) showed higher variation (CV, 60.89%). Therefore, despite its superior analytical performance, care must be taken when real-time PCR is utilized for therapy monitoring.
Blowflies are the primary facultative agent in causing myiasis of domestic sheep in the whole world and, at the same time, it is an important tool for forensic medicine. Surprisingly, and in contrast to its importance, almost no data regarding the embryology and molecular markers are known for this insect. In this report, we present a detailed description of the blowfly Lucilia sericata embryogenesis and of imaginal disc development. The embryogenesis of Lucilia strongly resembles that of Drosophila, despite their apparent size difference. Moreover, imaginal disc development appears to be equally well conserved. Through cloning, expression, and functional studies, we show that the Lucilia Wingless (Wg) protein is highly conserved between the two species. We further show that parasegments are established in Lucilia, however, engrailed expression shows a more dynamic expression pattern than expected in comparison to Drosophila. Over-expression of Lucilia Wingless in Drosophila shows wingless-like wing phenotypes, suggesting that Lucilia Wingless blocks the signalling activity of Drosophila Wingless. Upon injection of wg dsRNA, we observe a "lawn of denticle" phenotype, closely resembling that of Drosophila. Due to the large size of the insect, the distance over which Wingless exerts signalling activity is up to three times larger than in Drosophila, yet the consequences are very similar. Our data demonstrate long-range wingless signaling mechanisms adapted for patterning large domains of naked cuticle and suggest signaling properties of Lucilia Wingless that are distinct from those of Drosophila Wingless. Developmental Dynamics 235:347-360, 2006.
To elucidate the role of complement-mediated uptake in Leishmania major infection in vivo, transgenic BALB/c mice that express the cobra venom factor (CVF) under control of the alpha1-antitrypsin promoter were infected. CVF expression in these mice leads to a continuous activation and subsequent consumption of complement C3 in the serum. In contrast to susceptible non-transgenic BALB/c mice, CVF-transgenic mice are highly resistant to L. major infection and show a significantly reduced parasite dissemination. Transient depletion of C3 in wild-type BALB/c mice delays progression of lesions for some days. Both CVF-transgenic and non-transgenic mice exhibit similar T cell responses upon infection. However, in CVF-transgenic mice, no infiltration of neutrophils, which were the prominent infiltrating cells at the site of infection in normal susceptible mice, could be detected. We conclude that C3 cleavage is required for the attraction of neutrophils that participate in parasite dissemination.
We have employed a genetic complementation screening to identify genetic markers of heat stress tolerance and visceralisation of Leishmania infection. Leishmania major, which has a low thermotolerance and which causes cutaneous lesions, was transfected with a cosmid library of L. donovani DNA. The recombinant parasites were then screened either for thermotolerance or selected by repeated passage in BALB/c mice. Cosmids which conferred selective advantage were isolated. Several strategies were tested to identify the gene(s) within the cosmids responsible for the observed selective advantages. Of the approaches tested, the complete sequence analysis of the cosmids and subsequent screening of defined candidate ORFs proved to be the method of choice. Other approaches, such as creation of sub-libraries or transposon insertion strategies proved to be unsuccessful.
"Structural conservation of the salivary gland-specific slalom gene in the blowfly Lucilia sericata."Dev Genes Evol. 2005 Oct;215(10):537-44Publisher: Springer Verlag.Use of alternative location to go to the published version of the article requires journal subscription. Glycosylation and sulfation are two of the essential post-translational modifications of proteins. The slalom gene encodes a PAPS transporter, a conserved protein found in organisms as diverse as plants and humans and required for sulfation of proteins. In Drosophila, slalom is exclusively expressed in salivary glands, which is unexpected, taken into account the general function for sulfation of proteins. In this paper, we present a detailed description of the slalom gene in a large insect, the blowfly Lucilia sericata. Our data demonstrates that the slalom gene structure, the protein and the expression pattern are highly conserved between Lucilia and Drosophila. Lucilia slalom promoter analysis, using transgenic Drosophila, demonstrates that the Lucilia slalom promoter can faithfully mimic the expression pattern of both Lucilia and Drosophila slalom in salivary glands. Taken together, this data shows the structure and the transcriptional cis-regulatory elements of the slalom gene to be unchanged during evolution, despite the 100 Mio. years of divergence between the two insects. Moreover, it suggests that the salivary gland-specific expression of slalom bears an important and conserved function for sulfation of specific macromolecules.
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