Svenja Beckmann’s research while affiliated with University of Giessen and other places

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Publications (53)


Author Correction: Arylmethylamino steroids as antiparasitic agents
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July 2019

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3 Citations

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Esther Jortzik

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Alice-Anne Goetz

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[...]

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An amendment to this paper has been published and can be accessed via a link at the top of the paper.

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Figure 3 | Effect of compound 1o on P. berghei multiplication in mice and on parasite transmission to mosquitoes. (a) Naive mice were injected i.v. with infected blood and treated daily for 3 days starting 24 h post passage with compound 1o (100 mg kg À 1 ), with methylene blue (MB, 15 mg/kg), or with vehicle (Tw80) as positive and negative controls, respectively. Parasitemia was monitored daily and the mean± s.d. of three independent experiments are plotted. Groups of mosquitoes were fed on mice 24 h after each treatment. (b) Prevalence (percentage of infected mosquitoes) and (c) infection intensity (mean number of parasites per infected midgut) were determined 7 days post infectious blood feeding. The results of four independent experiments were pooled, and the mean ± s.e. of the mean is shown (b,c). Significance for differences between treatments was calculated using generalized linear models with treatment, time, and repeats as variables, ***P value o0.001 (a-c). n, number of mosquitoes. (d) Effects of compound 1o on early, mid, and late stage P. falciparum gametocytes. Representative data sets are given (4.5% gametocytaemia) out of three independent experiments. Survival of treated gametocytes was calculated for each concentration relative to parasites exposed to vehicle.
Figure 4 | Morphological effects on adult S. mansoni in vitro. Compounds 1o, 2o, and 1c (5 mM each) were administered over 6–13 days before effects were investigated via confocal laser scanning microscopy. (a–c) Untreated schistosome couples exhibiting a smooth tegumental surface with tubercles. (a) The testes are composed of lobes containing spermatogonia and differentiated spermatozoa accumulating in the sperm vesicle. (b) The gut lumen is surrounded by the gastrodermis. (c) The ovary of the female exhibits a bulb-like structure with mature oocytes at the broader, posterior part and immature oocytes at the narrow, anterior part. (d,e) The ootype is the egg-forming organ. (d–i) 1o (9-day treatment); swellings and invaginations occurred at the tegument. Arrows mark aggregates of degradation products of the gastrodermis within the gut lumen. (f) The number of mature oocytes was reduced, some occurred within the anterior part of the ovary, which normally only contains immature oocytes. (g,h) After 13-day treatment, swellings, invaginations and the size of the aggregates increased. (i) No more immature oocytes occurred. (j–o) 2o (5 mM; 6-day treatment); (j) the diameter of the testicular lobes was reduced, the ovary was disorganized. (k,l; arrows) Oedema-like swellings, gastrodermis degradation, and aggregate formation were visible. (m) After 9-day treatment, diameter of the testicular lobes and number of spermatozoa within the seminal vesicle were reduced. (n) The morphology of the ovary was disturbed, (o) and eggs were deformed. (p–u) 1c (5 mM; 9-day treatment); (p) diameter of the testicular lobes and ovary appeared normal, number of mature oocytes was smaller. (p,q) Aggregate-like degradation products of the gastrodermis occurred within the gut lumen; size of aggregates was larger in males (p,q) than in females (r). Gut swelling and tegument invaginations were not obvious. (s) After 13-day treatment, the diameter of the testicular lobes was reduced. (t,u) Gut swelling and tegument invagination appeared. Morphology of ovary was disturbed and number of mature oocytes reduced. (s–u) Degradation aggregates appeared within gut lumen and oesophagus area. After 9 days, precipitates were larger in males (s,t) compared with females (u). E, egg; F, female; G, gut; Ga, gastrodermis; Gy, gynecophoral canal; Hs, head sucker; M, male; T, testis; Te, tegument; Tu, tubercle: O, ovary; Oe, oesophagus; mO, mature oocytes; iO, immature oocytes; Oo, ootype; Sv, seminal vesicle; Vs, ventral sucker. Scale bars, 100 mm, except d (400 mm) and o (50 mm).  
Figure 5 | Working hypothesis for the mode of action and optimization of R. (a) Ortho-hydroxylated arylmethyl amines exhibit the highest antimalarial activity. A chelate involving quinone methide mechanism is substantiated via structure/activity considerations. Both the redox pair phenol/quinone and the highly reactive quinone methide itself may be causative for biological activity. (b,c) The steroid core also plays a crucial role. The highest activity is found for estratriene derivatives.
Arylmethylamino steroids as antiparasitic agents

February 2017

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243 Reads

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45 Citations

In search of antiparasitic agents, we here identify arylmethylamino steroids as potent compounds and characterize more than 60 derivatives. The lead compound 1o is fast acting and highly active against intraerythrocytic stages of chloroquine-sensitive and resistant Plasmodium falciparum parasites (IC50 1–5 nM) as well as against gametocytes. In P. berghei-infected mice, oral administration of 1o drastically reduces parasitaemia and cures the animals. Furthermore, 1o efficiently blocks parasite transmission from mice to mosquitoes. The steroid compounds show low cytotoxicity in mammalian cells and do not induce acute toxicity symptoms in mice. Moreover, 1o has a remarkable activity against the blood-feeding trematode parasite Schistosoma mansoni. The steroid and the hydroxyarylmethylamino moieties are essential for antimalarial activity supporting a chelate-based quinone methide mechanism involving metal or haem bioactivation. This study identifies chemical scaffolds that are rapidly internalized into blood-feeding parasites.






Fig. 1. Influence of serum albumin on pairing stability of Imatinib-treated S. mansoni couples. S. mansoni couples were treated for up to 156 h in vitro with 0/10/50 lM Imatinib in medium with and without bovine or human serum albumin. The effect of the treatment was monitored over time (0–156 h; x-axis) analysing pairing stability (given in % values on the y-axis). (A) treatment in normal M199 medium, (B) treatment in medium with BSA (45 g/L), C: treatment in medium with HSA (45 g/L). Unexpectedly, all schistosomes treated with 10 lM Imatinib and HSA (C) had separated after 156 h of treatment, which in this specific case is unlikely to be a consequence of inhibitor treatment alone. Light grey: 0 lM Imatinib, grey: 10 lM Imatinib, dark grey: 50 lM Imatinib.  
Fig. 2. Influence of alpha-1 acid glycoprotein against erythromycin addition on pairing-stability and physical integrity of Imatinib-treated S. mansoni couples. S. mansoni couples were treated for 3 days in vitro with 20 lM Imatinib in medium with and without 0.8 g/L AGP as well as with or without 20 lM erythromycin. (A) 0 lM Imatinib, M199; (B): 20 lM Imatinib, M199; (C): 0 lM Imatinib, M199 + AGP; (D): 20 lM Imatinib, M199 + AGP; (E) 0 lM Imatinib, 20 lM erythromycin, M199 + AGP; (F) 20 lM Imatinib, 20 lM erythromycin, M199 + AGP. Scale bars: 1 mm; ⁄ bulges and # gut alterations indicating the deleterious effect of Imatinib.  
Fig. 3. Influence of alpha-1 acid glycoprotein against erythromycin on egg production of Imatinib-treated S. mansoni couples. Overview of egg production of S. mansoni couples, which were treated with 20 lM Imatinib in medium with and without 0.8 g/L AGP as well as with or without 20 lM erythromycin in vitro for 3 days. (A) 0 lM Imatinib, 0 lM Imatinib/20 lM erythromycin, M199; (B) 0 lM Imatinib, 20 lM erythromycin, M199 + AGP; (C) 20 lM Imatinib, 0 lM erythromycin, M199; (D) 20 lM Imatinib, 0 lM erythromycin, M199 + AGP; (E) 20 lM Imatinib, 20 lM erythromycin, M199; (F) 20 lM Imatinib, 20 lM erythromycin, M199 + AGP. V = vitellocytes, O = oocytes; scale bars: 50 lM.  
Fig. 4. In vitro effects of Imatinib on schistosomula treated additionally with BSA, AGP, and erythromycin. Newly transformed schistosomula were incubated with different concentrations of Imatinib (0, 10, 20 lM) and compared to the effects caused by the addition of BSA (45 g/L), AGP (0.8 g/L), and erythromycin (20 and 40 lM). (A) Graphical representation of the percentage of degenerate schistosomes (y-axis) in different conditions (x-axis). Normal versus ''degenerate'' schistosomes were counted manually in different conditions during 96 h. Error bars represent standard deviation of two independent experiments performed in duplicate. (B) Images display representative pictures of schistosomula treated with Imatinib (y-axis), with and without BSA, AGP and/or erythromycin during 96 h (x-axis).  
Serum albumin and α-1 acid glycoprotein impede the killing of Schistosoma mansoni by the tyrosine kinase inhibitor Imatinib

August 2014

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189 Reads

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35 Citations

International Journal for Parasitology Drugs and Drug Resistance

In the search for new drugs and drug targets to treat the flatworm disease schistosomiasis, protein kinases (PKs) have come under particular scrutiny because of their essential roles in developmental and physiological processes in schistosome parasites. In this context the application of the anti-cancer Abl tyrosine kinase (TK) inhibitor Imatinib (Gleevec/Glivec; STI-571) to adult Schistosoma mansoni in vitro has indicated negative effects on diverse physiological processes including survival. Motivated by these in vitro findings, we performed in vivo experiments in rodent models of S. mansoni infection. Unexpectedly, Imatinib had no effect on worm burden or egg-production. We found that the blood components serum albumin (SA) and alpha-1 acid glycoprotein (AGP or orosomucoid) negated Imatinib’s deleterious effects on adult S. mansoni and schistosomula (post-infective larvae) in vitro. This negative effect was partially reversed by erythromycin. AGP synthesis can increase as a consequence of inflammatory processes or infection; in addition upon infection AGP levels are 6–8 times higher in mice compared to humans. Therefore, mice and probably other rodents are poor infection models for measuring the effects of Imatinib in vivo. Accordingly, we suggest the routine evaluation of the ability of AGP and SA to block in vitro anti-schistosomal effects of small molecules like Imatinib prior to laborious and expensive animal experiments.


Imatinib Treatment Causes Substantial Transcriptional Changes in Adult Schistosoma mansoni In Vitro Exhibiting Pleiotropic Effects

June 2014

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151 Reads

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30 Citations

Background: Schistosome parasites cause schistosomiasis, one of the most important infectious diseases worldwide. For decades Praziquantel (PZQ) is the only drug widely used for controlling schistosomiasis. The absence of a vaccine and fear of PZQ resistance have motivated the search for alternatives. Studies on protein kinases (PKs) demonstrated their importance for diverse physiological processes in schistosomes. Among others two Abl tyrosine kinases, SmAbl1 and SmAbl2, were identified in Schistosoma mansoni and shown to be transcribed in the gonads and the gastrodermis. SmAbl1 activity was blocked by Imatinib, a known Abl-TK inhibitor used in human cancer therapy (Gleevec/Glivec). Imatinib exhibited dramatic effects on the morphology and physiology of adult schistosomes in vitro causing the death of the parasites. Methodology/principal findings: Here we show modeling data supporting the targeting of SmAbl1/2 by Imatinib. A biochemical assay confirmed that SmAbl2 activity is also inhibited by Imatinib. Microarray analyses and qRT-PCR experiments were done to unravel transcriptional processes influenced by Imatinib in adult schistosomes in vitro demonstrating a wide influence on worm physiology. Surface-, muscle-, gut and gonad-associated processes were affected as evidenced by the differential transcription of e.g. the gynecophoral canal protein gene GCP, paramyosin, titin, hemoglobinase, and cathepsins. Furthermore, transcript levels of VAL-7 and egg formation-associated genes such as tyrosinase 1, p14, and fs800-like were affected as well as those of signaling genes including a ribosomal protein S6 kinase and a glutamate receptor. Finally, a comparative in silico analysis of the obtained microarray data sets and previous data analyzing the effect of a TGFβR1 inhibitor on transcription provided first evidence for an association of TGFβ and Abl kinase signaling. Among others GCP and egg formation-associated genes were identified as common targets. Conclusions/significance: The data affirm broad negative effects of Imatinib on worm physiology substantiating the role of PKs as interesting targets.


Venus Kinase Receptors Control Reproduction in the Platyhelminth Parasite Schistosoma mansoni

May 2014

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194 Reads

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53 Citations

The Venus Kinase Receptor (VKR) is a single transmembrane molecule composed of an intracellular tyrosine kinase domain close to that of insulin receptor and an extracellular Venus Flytrap (VFT) structure similar to the ligand binding domain of many class C G Protein Coupled Receptors. This receptor tyrosine kinase (RTK) was first discovered in the platyhelminth parasite Schistosoma mansoni, then in a large variety of invertebrates. A single vkr gene is found in most genomes, except in S. mansoni in which two genes Smvkr1 and Smvkr2 exist. VKRs form a unique family of RTKs present only in invertebrates and their biological functions are still to be discovered. In this work, we show that SmVKRs are expressed in the reproductive organs of S. mansoni, particularly in the ovaries of female worms. By transcriptional analyses evidence was obtained that both SmVKRs fulfill different roles during oocyte maturation. Suppression of Smvkr expression by RNA interference induced spectacular morphological changes in female worms with a strong disorganization of the ovary, which was dominated by the presence of primary oocytes, and a defect of egg formation. Following expression in Xenopus oocytes, SmVKR1 and SmVKR2 receptors were shown to be activated by distinct ligands which are L-Arginine and calcium ions, respectively. Signalling analysis in Xenopus oocytes revealed the capacity of SmVKRs to activate the PI3K/Akt/p70S6K and Erk MAPK pathways involved in cellular growth and proliferation. Additionally, SmVKR1 induced phosphorylation of JNK (c-Jun N-terminal kinase). Activation of JNK by SmVKR1 was supported by the results of yeast two-hybrid experiments identifying several components of the JNK pathway as specific interacting partners of SmVKR1. In conclusion, these results demonstrate the functions of SmVKR in gametogenesis, and particularly in oogenesis and egg formation. By eliciting signalling pathways potentially involved in oocyte proliferation, growth and migration, these receptors control parasite reproduction and can therefore be considered as potential targets for anti-schistosome therapies.


Citations (25)


... Krieg et al. [36] have identified arylmethylamino steroids as potent antiparasitic agents and characterized more than 60 derivatives. It was found that estratriene derivatives have the highest biological activity, where compound 16 (Fig. 2) was highly active against intraerythrocytic stages of chloroquinesensitive and resistant P. falciparum parasites (IC50 = 1-5 nM), as well as against gametocytes. ...

Reference:

Steroid and Triterpenoid Compounds with Antiparasitic Properties
Author Correction: Arylmethylamino steroids as antiparasitic agents

... brucei, Leishmania infantum, and T. cruzi) and against replicant (H37Rv) and nonreplicant (ss18b) strains of Mtb (Figure 2A) with the objective to identify potentially pan-antiparasitic compounds or promising in vitro single compounds or class with a promising lead feature profile. 38 Since the potential liability and toxicity represent a limiting bottleneck in the progression of the compounds in the preclinical phase, the entire library was evaluated at an early stage for drug−drug interactions involving cytochrome P450 enzymes (CYP) inhibition considering that compounds altering the CYP enzymes can alter the metabolic transformation of other drugs coadministered to the patients thus generically addressed as influencing drug−drug interactions. 39 Other aspects of drug evaluation are associated with assessing human toxicity. ...

Arylmethylamino steroids as antiparasitic agents

... Therefore, RTKs and relevant downstream cellular signaling components are considered promising druggable targets in anthelminthic chemotherapy (5)(6)(7). Furthermore, owing to their important roles in human carcinogenesis, much research has been conducted on the exploration of inhibitory compounds of RTK-mediated signaling pathways, leading to a wealth of inhibitors available for identifying potential lead anthelminthic drugs (8)(9)(10)(11). ...

Receptor Tyrosine Kinase Signaling and Drug Targeting in Schistosomes
  • Citing Chapter
  • October 2013

... Yet, it is difficult to predict what impact these parameters had on the corresponding permeability as well as on the effect on the parasite. Moreover, the serum components in mice, such as those binding to albumin or inducing enzymatic inactivation, can significantly influence the availability of the unbound, hence active, drug in vivo (Beckmann et al., 2014;Tayyab and Feroz, 2021). ...

Serum albumin and α-1 acid glycoprotein impede the killing of Schistosoma mansoni by the tyrosine kinase inhibitor Imatinib

International Journal for Parasitology Drugs and Drug Resistance

... Transcription levels of tyrosinase 1 in male schistosome worms were nearly zero; in contrast, in female worms, its expression increased sharply from the 24th day post-infection and reached a maximum on the 28th day, when the female worms begin to produce eggs (Li et al., 2014). So, tyrosinase 1 is believed to be associated with egg formation in schistosomes (Buro et al., 2014). Taken together, we believe that the above-mentioned genes could have similar and important functions during the growth and development of schistosomes, and their dysregulated expression may be responsible for the abnormalities in growth and development of worms in SCID mice. ...

Imatinib Treatment Causes Substantial Transcriptional Changes in Adult Schistosoma mansoni In Vitro Exhibiting Pleiotropic Effects

... Inspired by a recent C. elegans publication (KHODAKOVA et al. 2021) and our expertise with RNAi in the parasitic flatworm Schistosoma mansoni (KRAUTZ-PETERSON et al. 2010;VANDERSTRAETE et al. 2014), we started these studies by developing an electroporation protocol adapted to this marine organism, with the goal of delivering dsRNA in a single step and resulting in a long-lasting RNA interference. While RNAi by electroporation worked well, during the optimization process, we discovered that it is not the method of delivery of dsRNA that is limiting. ...

Venus Kinase Receptors Control Reproduction in the Platyhelminth Parasite Schistosoma mansoni

... Two ligands (SmInAct and SmBMP) were characterized in S. mansoni. The transcripts of SmInAct localized to the reproductive tissues of adult females by in situ hybridization (ISH) (Leutner et al. 2013). and silencing of SmInAct by RNA interference induces developmental retardation, malformation of egg development, and a significant decrease in oviposition rate compared with that of the control group (Freitas et al. 2007). ...

Combinatory Microarray and SuperSAGE Analyses Identify Pairing-Dependently Transcribed Genes in Schistosoma mansoni Males, Including Follistatin

... The low expression of the putative target for SB203580 (Smp_047190, Figure S3) in the lifecycle stages investigated here may also provide an explanation for the absence of in vitro activity. OR7811 (or LY-364947, Table S1), an inhibitor of type I TGFβ receptor (TβRI), was shown to reduce S. mansoni mitogenic activity and egg production (at 300 nM, [102]), as well as inhibit SmTβRI kinase activity in vitro (derived from heterologous expression of SmTβRI's intracellular domain in Xenopus laevis oocytes [103]). In our hands, SB 431542 (but not OR7811) was only active on schistosomula at 50 µM. ...

Transcriptome Analyses of Inhibitor-treated Schistosome Females Provide Evidence for Cooperating Src-kinase and TGFβ Receptor Pathways Controlling Mitosis and Eggshell Formation

... We hypothesise that the remaining unannotated protein core represents a larger domain, within which the PSI domain is a subunit. Similar protein domain architecture is found in platyhelminth-specific integrins, which have a 5' signal peptide, a 3' membrane-bound domain and core integrin domains, of which PSI is a subunit [97]. Because subtelomeric genes are often taxa-specific owing to the rapidly changing interface at which they are found, using databases mainly informed by model organisms limits our capacity to identify parasite-specific protein domains [71,98,99]. ...

Discovery of Platyhelminth-Specific α/β-Integrin Families and Evidence for Their Role in Reproduction in Schistosoma mansoni

... Schematic illustration and bright-field microscopy (BF) of gonad tissues following tegument solubilisation and protease treatment. A) Crude preparation of intact testes (TE) together with a part of an incompletely digested male worm body (MB) and different types of cells (CE) (left) and an mature ovary (Om) surrounded mainly by S4-vitelline cells (VC) from the vitellarium (right); immature ovary (Oi) and ootype (OT) with vitelloduct (VD) and oviduct (OD) isolated from a unisexual female; the ootype was contrasted by brief staining with Ponceau S; asterisk: ''hymen''-like morphological structure typical for ootypes of unisexual females[18,108] B) Mechanical transfer by pipetting led to the enrichment of pure testes (TE), mature ovaries (Om) after collecting and concentrating. TL (testes lobe), Op (ovary -posterior part containing mature primary oocytes in the case of mature ovaries), Oa (ovary -anterior part containing immature, stem cell-like oogonia); vitellarium (VI) with vitelline lobes (VL); dashed arrow = continued from Figure 1. ...

Sex in Schistosomes – Signaling Mechanisms in the Female Gonads
  • Citing Chapter
  • July 2011