Christoph G. Grevelding

A stress-responsive glutathione S-transferase confers resistance to oxidative stress in Caenorhabditis elegans

Previous studies demonstrated that the Caenorhabditis elegans GST-p24 is upregulated at the steady state mRNA level in response to oxidative stress. A transcriptional upregulation was confirmed in the current study by analyzing Ce-GST-p24 promoter-reporter constructs in transgenic C. elegans strains CL2166 and CL3166. The transgenic strain BL1, which overexpresses the Ce-GST-p24 enzyme (as a GFP fusion protein controlled by its own promoter), was generated to investigate the function of this enzyme in vivo. Stress experiments with BL1 demonstrated an increased resistance to intracellularly induced oxidative stress, as compared to wild type. The consequences of a decrease in the Ce-GST-p24 enzyme concentration were examined by RNAi-treatment of BL1 C. elegans to silence both the endogene and the transgene Ce-GST-p24 and by the analysis of the K08F4.7 homozygous deletion mutant. In both cases, the reduced Ce-GST-p24 enzyme level resulted in a significant decrease in the stress resistance of the nematodes. These results clearly demonstrate a direct correlation between the concentration of Ce-GST-p24 and the resistance to oxidative stress. We have demonstrated for the first time that manipulation of the expression of a single GST can modulate the organismal response to oxidative stress. The enzymatic activity of this detoxification enzyme was examined with various substrates, giving emphasis to lipid peroxidation products. The Ce-GST-p24 was also localized in BL1 C. elegans by confocal laser-scanning microscopy, revealing a wide-spread distribution profile.

Diagnosing Schistosomiasis by Detection of Cell-Free Parasite DNA in Human Plasma

Introduction Schistosomiasis (bilharzia), one of the most relevant parasitoses of humans, is confirmed by microscopic detection of eggs in stool, urine, or organ biopsies. The sensitivity of these procedures is variable due to fluctuation of egg shedding. Serological tests on the other hand do not distinguish between active and past disease. In patients with acute disease (Katayama syndrome), both serology and direct detection may produce false negative results. To overcome these obstacles, we developed a novel diagnostic strategy, following the rationale that Schistosoma DNA may be liberated as a result of parasite turnover and reach the blood. Cell-free parasite DNA (CFPD) was detected in plasma by PCR. Methodology/Principal Findings Real-time PCR with internal control was developed and optimized for detection of CFPD in human plasma. Distribution was studied in a mouse model for Schistosoma replication and elimination, as well as in human patients seen before and after treatment. CFPD was detectable in mouse plasma, and its concentration correlated with the course of anti-Schistosoma treatment. Humans with chronic disease and eggs in stool or urine (n = 14) showed a 100% rate of CFPD detection. CFPD was also detected in all (n = 8) patients with Katayama syndrome. Patients in whom no viable eggs could be detected and who had been treated for schistomiasis in the past (n = 30) showed lower detection rates (33.3%) and significantly lower CFPD concentrations. The duration from treatment to total elimination of CFPD from plasma was projected to exceed one year. Conclusions/Significance PCR for detection of CFPD in human plasma may provide a new laboratory tool for diagnosing schistosomiasis in all phases of clinical disease, including the capacity to rule out Katayama syndrome and active disease. Further studies are needed to confirm the clinical usefulness of CFPD quantification in therapy monitoring.

The Syk kinase SmTK4 of Schistosoma mansoni is involved in the regulation of spermatogenesis and oogenesis.

The signal transduction protein SmTK4 from Schistosoma mansoni belongs to the family of Syk kinases. In vertebrates, Syk kinases are known to play specialized roles in signaling pathways in cells of the hematopoietic system. Although Syk kinases were identified in some invertebrates, their role in this group of animals has not yet been elucidated. Since SmTK4 is the first Syk kinase from a parasitic helminth, shown to be predominantly expressed in the testes and ovary of adult worms, we investigated its function. To unravel signaling cascades in which SmTK4 is involved, yeast two-/three-hybrid library screenings were performed with either the tandem SH2-domain, or with the linker region including the tyrosine kinase domain of SmTK4. Besides the Src kinase SmTK3 we identified a new Src kinase (SmTK6) acting upstream of SmTK4 and a MAPK-activating protein, as well as mapmodulin acting downstream. Their identities and colocalization studies pointed to a role of SmTK4 in a signaling cascade regulating the proliferation and/or differentiation of cells in the gonads of schistosomes. To confirm this decisive role we performed biochemical and molecular approaches to knock down SmTK4 combined with a novel protocol for confocal laser scanning microscopy for morphological analyses. Using the Syk kinase-specific inhibitor Piceatannol or by RNAi treatment of adult schistosomes in vitro, corresponding phenotypes were detected in the testes and ovary. In the Xenopus oocyte system it was finally confirmed that Piceatannol suppressed the activity of the catalytic kinase domain of SmTK4. Our findings demonstrate a pivotal role of SmTK4 in gametogenesis, a new function for Syk kinases in eukaryotes.

Stable T-bet(+)GATA-3(+) Th1/Th2 hybrid cells arise in vivo, can develop directly from naive precursors, and limit immunopathologic inflammation.

The stable lineage commitment of naïve T helper cells to a hybrid Th1/2 phenotype reveals the cell-intrinsic reconciliation of two opposing T cell differentiation programs and provides a self-limiting mechanism to dampen immunopathology.

HSP70-controlled GFP expression in transiently transformed schistosomes☆

Among the parasitic helminths schistosomes are of high medical and economic importance. Despite of the world-wide relevance of this parasite, very little is known about the cellular mechanisms controlling its development and concerning the host-parasite interaction. Within the last decade a great effort has been made in this blood fluke to identify genes which play important roles during these processes. However, molecular analysis was limited by the fact, that neither function nor regulation of candidate genes could be investigated in this organism due to the lack of transformation protocols. Here, we present the strategy of ballistic gene transfer to introduce and characterize transgenes in different schistosome life stages. As a transformation vector, the heat shock protein 70 (hsp70) gene promoter and terminator from Schistosoma mansoni were cloned and fused to the green fluorescent protein (GFP) reporter gene. In a first attempt, the hsp70--GFP vector was successfully tested in a eukaryotic cell line. Thereafter, adult male schistosomes and sporocysts were transformed with this vector, and GFP expression was demonstrated using molecular and microscopical methods. PCR, reverse transcriptase-polymerase chain reaction (RT-PCR) and Western blot analyses confirmed the presence, transcription and translation of the transgene in adults. Confocal laser scanning microscopy revealed GFP-activity at various sites along the surface of the worms after hs induction and within sporocysts. These results suggest diverse roles for hsp70 during the development of schistosomes. Furthermore, the results demonstrate the feasibility of this method and open the perspective to analyze a variety of molecular functions in schistosomes.

Schistosoma mansoni: signal transduction processes during the development of the reproductive organs.

Among the topics of considerable interest concerning our understanding of the unusual biology of schistosomes is the sexual maturation of the female. The identification of genes coding for signal transduction proteins controlling essential steps of the pairing-dependent differentiation of the reproductive organs, vitellarium and ovary will help to substantiate our knowledge about this unique parasite. Furthermore, such signalling proteins could be potential targets to interfere with the development of this parasite to combat schistosomiasis since its pathology is caused by the eggs. This review summarises first post-genomic steps to elucidate the function of gonad-specific signalling molecules which were identified by homology-based cloning strategies, by in silico identification or by yeast two-hybrid interaction analyses, using a combination of novel techniques. These include the in vitro culture of adult schistosomes, their treatment with chemical inhibitors to block enzyme activity, the use of RNAi to silence gene function post-transcriptionally, and confocal laser scanning microscopy to study the morphological consequences of these experimental approaches. Finally, we propose a first model of protein networks that are active in the ovary regulating mitogenic activity and differentiation. Some of these molecules are also active in the testes of males, probably fulfilling similar roles as in the ovary.

The PAC protein affects the maturation of specific chloroplast mRNAs in Arabidopsis thaliana.

Abstract The pale cress (pac) mutation arrests chloroplast development at an early stage in Arabidopsis thaliana and leads to a white phenotype. Chlorophyll fluorescence measurements demonstrated that the photosynthetic apparatus was impaired. The mutation did not reduce transcription of nuclear genes with photosynthetic function. However, distinct chloroplast-encoded transcripts were affected. The mutation mainly changed the maturation pattern, but the abundance of specific transcripts was also reduced. The defects observed imply a specific role for PAC in chloroplast mRNA maturation. PAC is encoded by a nuclear gene and is transported into the chloroplast. Therefore PAC may be one of the nucleus-encoded factors that function in plastid mRNA maturation and accumulation.

Imatinib has a fatal impact on morphology, pairing stability and survival of adult Schistosoma mansoni in vitro

Schistosomes cause bilharzia (schistosomiasis), one of the most prevalent parasitic diseases for human and animals worldwide. Praziquantel (PZQ) is the only widely used drug for treatment and control of this parasitemia. Since a vaccine is not yet available, and in light of emerging resistance against PZQ, the search for alternatives has high priority. Here we present that Imatinib, a compound used in human cancer therapy (Gleevec; STI-571), significantly affected schistosome morphology and physiology in vitro. Besides its negative effect on gonad development and pairing stability, Imatinib led to pathological alterations of the gastrodermis, which finally caused the death of the parasite.

Female-specific gene expression in Schistosoma mansoni is regulated by pairing

Gene expression studies in adult females of Schistosoma mansoni cultured in vitro revealed that the transcription of female-specifically expressed genes is influenced by pairing. In contrast, the activity of genes that are expressed in both genders was not affected by contact with the male. The transcription of genes was monitored in paired, separated and remated females. The transcript level of female-specifically expressed genes decreases within a few days following separation from males. Remating of uncoupled females with males leads to the reinitiation of transcription. These results provide strong evidence for the influence of the male on gene transcription in the female and contribute a molecular basis for the classical histological observation that the maturation of females is male dependent. The data also show that the culture system is suitable to monitor gene expression and, furthermore, they indicate de novo RNA synthesis in vitro.

Characterisation of the cysteine protease ER60 in transgenic Schistosoma mansoni larvae.

Proteinases have been found to play important roles in parasites. They are involved in developmental processes and facilitate invasion of host tissues as well as the digestion of host molecules for nutrition. The cysteine protease ER60 from Schistosoma mansoni, originally characterised in adults to be expressed in excretory organs, was analysed in larval stages. Transcripts were found in miracidia, in vitro generated mother sporocysts and cercariae. After cloning the promoter and terminator of the ER60 gene, a transformation vector was constructed containing the green fluorescent protein reporter gene flanked by the regulatory elements. The ER60-green fluorescent protein vector was used for transfection experiments of COS-7 cells demonstrating the functionality of the promoter in the heterologous system. To analyse the expression pattern of ER60-green fluorescent protein in larval S. mansoni, in vitro generated mother sporocysts were transformed by particle bombardment, a method which allows gene transfer into schistosomes. Molecular analyses demonstrated transcription and translation of the transgene. Furthermore, confocal laser scanning microscopy revealed ER60-induced green fluorescent protein fluorescence within the larvae. Inside primary sporocysts, tissue-specific activity was localised in the gland cells, protonephridia and several cytons. These results suggest that ER60 is expressed in the ES system of larvae and, amongst other functions, may play a role in penetration and migration processes.