Kai Lüersen scite author profile

To elucidate the function of Omega class glutathione transferases (GSTs) (EC 2.5.1.18) in multicellular organisms, the GSTO-1 from Caenorhabditis elegans (GSTO-1; C29E4.7) was investigated. Disc diffusion assays using Escherichia coli overexpressing GSTO-1 provided a test of resistance to long-term exposure under oxidative stress. After affinity purification, the recombinant GSTO-1 had minimal catalytic activity toward classic GST substrates but displayed significant thiol oxidoreductase and dehydroascorbate reductase activity. Microinjection of the GSTO-1-promoter green fluorescent protein construct and immunolocalization by electron microscopy localized the protein exclusively in the intestine of all postembryonic stages of C. elegans. Deletion analysis identified an approximately 300-nucleotide sequence upstream of the ATG start site necessary for GSTO-1 expression. Site-specific mutagenesis of a GATA transcription factor binding motif in the minimal promoter led to the loss of reporter expression. Similarly, RNA interference (RNAi) of Elt-2 indicated the involvement of this gut-specific transcription factor in GSTO-1 expression. Transcriptional up-regulation under stress conditions of GSTO-1 was confirmed by analyzing promoter-reporter constructs in transgenic C. elegans strains. To investigate the function of GSTO-1 in vivo, transgenic animals overexpressing GSTO-1 were generated exhibiting an increased resistance to juglone-, paraquat-, and cumene hydroperoxide-induced oxidative stress. Specific silencing of the GSTO-1 by RNAi created worms with an increased sensitivity to several prooxidants, arsenite, and heat shock. We conclude that the stress-responsive GSTO-1 plays a key role in counteracting environmental stress.

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3-Aminooxy-1-Aminopropane and Derivatives Have an Antiproliferative Effect on Cultured Plasmodium falciparum by Decreasing Intracellular Polyamine Concentrations

Gupta

Krause-Ihle

Bergmann

et al. 2005

Antimicrob Agents Chemother

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The intraerythrocytic development of Plasmodium falciparum correlates with increasing levels of the polyamines putrescine, spermidine, and spermine in the infected red blood cells; and compartmental analyses revealed that the majority is associated with the parasite. Since depletion of cellular polyamines is a promising strategy for inhibition of parasite proliferation, new inhibitors of polyamine biosynthesis were tested for their antimalarial activities. The ornithine decarboxylase (ODC) inhibitor 3-aminooxy-1-aminopropane (APA) and its derivatives CGP 52622A and CGP 54169A as well as the S-adenosylmethionine decarboxlyase (AdoMetDC) inhibitors CGP 40215A and CGP 48664A potently affected the bifunctional P. falciparum ODC-AdoMetDC, with K i values in the low nanomolar and low micromolar ranges, respectively. Furthermore, the agents were examined for their in vitro plasmodicidal activities in 48-h incubation assays. APA, CGP 52622A, CGP 54169A, and CGP 40215A were the most effective, with 50% inhibitory concentrations below 3 M. While the effects of the ODC inhibitors were completely abolished by the addition of putrescine, growth inhibition by the AdoMetDC inhibitor CGP 40215A could not be antagonized by putrescine or spermidine. Moreover, CGP 40215A did not affect the cellular polyamine levels, indicating a mechanism of action against P. falciparum independent of polyamine synthesis. In contrast, the ODC inhibitors led to decreased cellular putrescine and spermidine levels in P. falciparum, supporting the fact that they exert their antimalarial activities by inhibition of the bifunctional ODC-AdoMetDC.

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The spermidine synthase of the malaria parasite Plasmodium falciparum: Molecular and biochemical characterisation of the polyamine synthesis enzyme

Haider

Eschbach

Dias

et al. 2005

Molecular and Biochemical Parasitology

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In the Human Malaria Parasite Plasmodium falciparum,Polyamines Are Synthesized by a Bifunctional Ornithine Decarboxylase,S-Adenosylmethionine Decarboxylase

Müller¹,

Da’dara²,

Lüersen³

et al. 2000

Journal of Biological Chemistry

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The polyamines putrescine, spermidine, and spermine are crucial for cell differentiation and proliferation. Interference with polyamine biosynthesis by inhibition of the rate-limiting enzymes ornithine decarboxylase (ODC) and S-adenosylmethionine decarboxylase (AdoMetDC) has been discussed as a potential chemotherapy of cancer and parasitic infections. Usually both enzymes are individually transcribed and highly regulated as monofunctional proteins. We have isolated a cDNA from the malaria parasite Plasmodium falciparum that encodes both proteins on a single open reading frame, with the AdoMetDC domain in the N-terminal region connected to a C-terminal ODC domain by a hinge region. The predicted molecular mass of the entire transcript is 166 kDa. The ODC/ AdoMetDC coding region was subcloned into the expression vector pASK IBA3 and transformed into the AdoMetDC-and ODC-deficient Escherichia coli cell line EWH331. The resulting recombinant protein exhibited both AdoMetDC and ODC activity and co-eluted after gel filtration on Superdex S-200 at ϳ333 kDa, which is in good agreement with the molecular mass of ϳ326 kDa determined for the native protein from isolated P. falciparum. SDS-polyacrylamide gel electrophoresis analysis of the recombinant ODC/AdoMetDC revealed a heterotetrameric structure of the active enzyme indicating processing of the AdoMetDC domain. The data presented describe the occurrence of a unique bifunctional ODC/ AdoMetDC in P. falciparum, an organization which is possibly exploitable for the design of new antimalarial drugs.Polyamines are ubiquitous and play a pivotal role in cell growth and differentiation (1, 2). The biosynthesis of polyamines depends on the decarboxylation of ornithine to putrescine and the subsequent attachment of aminopropyl groups to its terminal amino substituents to form spermidine and spermine, respectively. Ornithine decarboxylase (ODC, 1 EC 4.1.1.17)and S-adenosylmethionine decarboxylase (AdoMetDC, EC 4.1.1.50), the latter provides the aminopropyl group, are ratelimiting enzymes in this pathway. Usually the level and the activities of both of these enzymes are individually regulated on the transcriptional, translational as well as the post-translational level (3-6).Plasmodium falciparum is the causative agent of severe malaria. The rapidly spreading resistance against existing drugs has led to an urgent need for the development of new antimalarials, which attack novel targets in the metabolism of P. falciparum.In previous studies it was shown that inhibition of polyamine biosynthesis as well as the use of polyamine analogues that interfere with polyamine functions have antitumor and antiparasitic effects (7-9). The specific ODC inhibitor difluoromethylornithine blocks the erythrocytic schizogony of P. falciparum in culture and reduces the parasitemia in Plasmodium berghei-infected mice (10 -13). Likewise, inhibition of AdoMetDC by MDL 73811 has a plasmodicidal effect in vitro (14). A combination of difluoromethylornithine and bis(benzyl)polyamines were curative in rode...

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Kai Lüersen

Oxidative stress inCaenorhabditis elegans: protective effects of the Omega class glutathione transferase (GSTO‐1)

3-Aminooxy-1-Aminopropane and Derivatives Have an Antiproliferative Effect on Cultured Plasmodium falciparum by Decreasing Intracellular Polyamine Concentrations

The spermidine synthase of the malaria parasite Plasmodium falciparum: Molecular and biochemical characterisation of the polyamine synthesis enzyme

In the Human Malaria Parasite Plasmodium falciparum,Polyamines Are Synthesized by a Bifunctional Ornithine Decarboxylase,S-Adenosylmethionine Decarboxylase

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