Patrick Mäder’s research while affiliated with Philipps University of Marburg and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (6)


Figure 2. Disulfiram and 51 dithiocarbamates were tested on E. multilocularis metacestode vesicles at 10 µM and samples were taken after five days of drug incubation. PGI activity was calculated relative to the positive control 0.1% Triton X-100. The experiment was performed in triplicate and shown are mean values and SDs. The red line indicates the 20% cut-off.
Figure 3. (A,C) Lower magnification views of the metacestode vesicle wall. The outer metacestode vesicle surface is represented by the carbohydrate-rich laminated layer (LL), followed by the Figure 3. (A,C) Lower magnification views of the metacestode vesicle wall. The outer metacestode vesicle surface is represented by the carbohydrate-rich laminated layer (LL), followed by the syncytial tegument (Teg) and the germinal layer (GL), the latter of which contains numerous irregularly shaped and electron-dense mitochondria. Undifferentiated cells (uc) and glycogen storage cells are also discernible. (B) Higher-magnification view of the GL with electron-dense mitochondria (mito), with cristae present in the mitochondrial matrix (indicated by arrows). (D) Teg-LL interface with microtriches (marked in A, C and D with *) protruding well into the LL. Bars in A = 2.34 µm, B = 0.3 µm, C = 2.34 µm, D = 0.47 µm.
In Vitro Activities of Dithiocarbamate Derivatives against Echinococcus multilocularis Metacestode Vesicles
  • Article
  • Full-text available

December 2023

·

66 Reads

·

1 Citation

Tropical Medicine and Infectious Disease

Marc Kaethner

·

Georg Rennar

·

Tom Gallinger

·

[...]

·

The metacestode stage of the fox tapeworm Echinococcus multilocularis causes the severe zoonotic disease alveolar echinococcosis. New treatment options are urgently needed. Disulfiram and dithiocarbamates were previously shown to exhibit activity against the trematode Schistosoma mansoni. As both parasites belong to the platyhelminths, here we investigated whether these compounds were also active against E. multilocularis metacestode vesicles in vitro. We used an in vitro drug-screening cascade for the identification of novel compounds against E. multilocularis metacestode vesicles with disulfiram and 51 dithiocarbamates. Five compounds showed activity against E. multilocularis metacestode vesicles after five days of drug incubation in a damage marker release assay. Structure–activity relationship analyses revealed that a S-2-hydroxy-5-nitro benzyl moiety was necessary for anti-echinococcal activity, as derivatives without this group had no effect on E. multilocularis metacestode vesicles. The five active compounds were further tested for potential cytotoxicity in mammalian cells. For two compounds with low toxicity (Schl-32.315 and Schl-33.652), IC50 values in metacestode vesicles and IC50 values in germinal layer cells were calculated. The compounds were not highly active on isolated GL cells with IC50 values of 27.0 ± 4.2 µM for Schl-32.315 and 24.7 ± 11.5 µM for Schl-33.652, respectively. Against metacestode vesicles, Schl-32.315 was not very active either with an IC50 value of 41.6 ± 3.2 µM, while Schl-33.652 showed a low IC50 of 4.3 ± 1 µM and should be further investigated in the future for its activity against alveolar echinococcosis.

Download

Disulfiram and dithiocarbamate analogues demonstrate promising antischistosomal effects

August 2022

·

74 Reads

·

13 Citations

European Journal of Medicinal Chemistry

Schistosomiasis is a neglected tropical disease with more than 200 million new infections per year. It is caused by parasites of the genus Schistosoma and can lead to death if left untreated. Currently, only two drugs are available to combat schistosomiasis: praziquantel and, to a limited extent, oxamniquine. However, the intensive use of these two drugs leads to an increased probability of the emergence of resistance. Thus, the search for new active substances and their targeted development are mandatory. In this study the substance class of “dithiocarbamates” and their potential as antischistosomal agents is highlighted. These compounds are derived from the basic structure of the human aldehyde dehydrogenase inhibitor disulfiram (tetraethylthiuram disulfide, DSF) and its metabolites. Our compounds revealed promising activity (in vitro) against adults of Schistosoma mansoni, such as the reduction of egg production, pairing stability, vitality, and motility. Moreover, tegument damage as well as gut dilatations or even the death of the parasite were observed. We performed detailed structure-activity relationship studies on both sides of the dithiocarbamate core leading to a library of approximately 300 derivatives (116 derivatives shown here). Starting with 100 μm we improved antischistosomal activity down to 25 μm by substitution of the single bonded sulfur atom for example with different benzyl moieties and integration of the two residues on the nitrogen atom into a cyclic structure like piperazine. Its derivatization at the 4-nitrogen with a sulfonyl group or an acyl group led to the most active derivatives of this study which were active at 10 μm. In light of this SAR study, we identified 17 derivatives that significantly reduced motility and induced several other phenotypes at 25 μm, and importantly five of them have antischistosomal activity also at 10 μm. These derivatives were found to be non-cytotoxic in two human cell lines at 100 μm. Therefore, dithiocarbamates seem to be interesting new candidates for further antischistosomal drug development.


Drug Discovery and Development for Schistosomiasis

September 2019

·

208 Reads

·

31 Citations

Schistosomiasis is a neglected disease of poverty that is caused by several species of the trematode flatworm, Schistosoma. Treatment relies on just one drug, the pyrazinoisoquinoline, praziquantel (PZQ). PZQ has a number of pharmaceutical and pharmacological problems that encourage the search for new drugs. Focusing on the period 2015–2017, and in the context of a target product profile for a new drug, we review a number of molecular targets being considered with a particular perspective on kinases given their importance in the life cycle of the schistosome parasite and their well‐established druggability. We also discuss several drug repurposing and structure‐based design strategies, and highlight small molecule chemistries (organometallics, natural products, biarylalkyl carboxylic acids, and arylmethylamino steroids) under active development. Overall, drug discovery activity for schistosomiasis is increasingly robust and should yield advanced preclinical development candidates in the near future.


Chemotherapy for Fighting Schistosomiasis: Past, Present and Future

September 2018

·

117 Reads

·

39 Citations

Chemotherapy based on repeated doses of Praziquantel (PZQ) is still the most effective control strategy against schistosomiasis, a neglected tropical disease caused by platyhelminths of the genus Schistosoma spp.. Its long‐term use, however, raises serious concerns about drug resistance against PZQ. Therefore, it is generally acknowledged that alternative treatment options are urgently needed. This review intends to summarize data on relinquished drugs as well as recent advances in the area of antischistosomal compounds from a medicinal chemistry point of view. Furthermore, insights into the structure‐activity relationships of each class of compounds are presented including in vitro and in vivo data, if available. Although many compounds demonstrated good antischistosomal activity in vitro, they offer little promise to replace PZQ. Nevertheless, the race for novel antischistosomal agents is ongoing.


Bright-field microscopy exhibiting phenotypic characteristics of adult S. mansoni adults treated with BACADs. a, b DMSO-treated S. mansoni couples as control. Male worms (sex symbol) sucked with their ventral suckers to the Petri-dish while the females (sex symbol) reside within the gynaecophoric canal of their male partners. The tegument (tg) surface is smooth and intact. No obvious morphological aberrations were observed. c Exemplary case of the reduced pairing stability and vitality upon derivative treatment. Following incubation with BD22, separation of the couples was observed; males and females laid on their sides and the worms were nearly dead after 3 days. BD22 and other derivatives caused the production of deformed eggs (ed), which were already visible during their passage through the uterus (ut; d) and later on in the medium (e). f Normal eggs (en) of control worms produced at day 3 by couples maintained in medium with DMSO. g Egg congestion (encircled area) caused by BD27; h this derivative also caused a tumor-like outgrowth (indicated by a star) in the area of the esophagus (oe; compare to b, c). i BD29 treatment induced gut dilatation (gu; encircled area) and the dissolution of the tegument (j, encircled area). k, l BD31 treatment induced gut dilatation and the disintegration of tissue structures (encircled areas). Gut dilatation was also confirmed by CLSM (see Fig. 2). hs head sucker, vs ventral sucker. Scale bars 200 μm, except e, f, l 100 μm
Confocal laser scanning microscopy exhibiting detailed morphological characteristics of adult S. mansoni treated with BACADs. If not mentioned separately, the abbreviations used are as in Fig. 1. a DMSO-treated S. mansoni couple as control. The male surrounds the female, which resides within the gynaecophoric canal of its partner. The ovary of the female appears as a bulb-like structure with mature primary oocytes at its posterior, bigger part, and immature oocytes (oogonia) at its anterior, smaller part. The lobular testes are filled with spermatogonia and differentiated sperms accumulate in the sperm vesicle. The tegument surface and the gastrodermis are smooth and intact. No obvious morphological aberrations were observed (ga gastrodermis, io immature oocytes, mo mature, primary oocytes, ov ovary, ot ootype, pa parenchyma, sv seminal vesicle, te testes, tu tubercle, vc vitelline cells, vd vitelloduct). b Within the ovary, BD14 caused an aberrant position of mature primary oocytes, which emerged also in the anterior part (encircled area). c, d BD31 caused a similar oocyte-distribution phenotype and a shriveled appearance of part of the worm body (c; star) as well as gut dilatation (d; encircled area, see also Fig. 1). e–g BD29 treatment led to severe changes of inner structures of the worm body; parenchymatic tissue (e) appeared porous (star), and the ovary (f) contained degrading primary and immature oocytes (encircled area), but also the tegument, and here mainly the tubercles (g). h, i BD30 induced gut dilatation including the detachment of the gastrodermis (h; see the nuclei of the syncytial gastrodermis within the rounded, detached tissue fragments within the gut lumen). Furthermore, a shriveled appearance of the worm body, especially the tegument, was observed and dysplastic eggs were found (i). j–l BD32 induced gut dilatation and partial degradation of the surrounding gastrodermis (j), an enlargement of the testicular lobes accompanied by a porous appearance (star) and the loss of spermatogonia and differentiated sperm (k; encircled area), and the disintegration of the tegument (l). m–o BD27 led to perfectly round oocytes (m) and vitelline cells (n), and the vitelloduct was dilated and crowded with vitelline cells (o; bright-field image). Scale bars 100 μm
Derivatives of biarylalkyl carboxylic acid induce pleiotropic phenotypes in adult Schistosoma mansoni in vitro

October 2016

·

96 Reads

·

12 Citations

Parasitology Research

Schistosomes and other parasitic platyhelminths cause infectious diseases of worldwide significance for humans and animals. Despite their medical and economic importance, vaccines are not available and the number of drugs is alarmingly limited. For most platyhelminths including schistosomes, Praziquantel (PZQ) is the commonly used drug. With respect to its regular application in mass treatment programs, however, there is increasing concern about resistance development. Previous studies demonstrated that inhibitors used to treat non-parasitic human diseases may be useful to be tested for their effects on parasites. To this end, we focused on biarylalkyl carboxylic acids (BACAs) as basis, which had been shown before to be interesting candidates in the context of finding alternative approaches to treat diabetes mellitus. We tested 32 chemically modified derivatives of these substances (biarylalkyl carboxylic acid derivatives (BACADs)) for their effects on adult Schistosoma mansoni in vitro. Treatment with 18 BACADs resulted in egg production-associated phenotypes and reduced pairing stability. In addition, 12 of these derivatives affected vitality and/or caused severe tegument damage, gut dilatation, or other forms of tissue disintegration which led to the death of worms. In most cases (10/12), one derivative caused more than one phenotype at a time. In vitro experiments in the presence of serum albumin (SA) and alpha-acidic glycoprotein (AGP) indicated a varying influence of these blood components on the effects of two selected derivatives. The variety of observed phenotypes suggested that different targets were hit. The results demonstrated that BACADs are interesting substances with respect to their anti-schistosomal effects.


Table 1 . 4-Oxobutanoic acids 4 and 12 and 5-oxopentanoic acids 13.
Figure 4. Structure–activity relationships.  
Biarylalkyl Carboxylic Acid Derivatives as Novel Antischistosomal Agents

May 2016

·

205 Reads

·

13 Citations

Parasitic platyhelminths are responsible for serious infectious diseases, such as schistosomiasis, which affect humans as well as animals across vast regions of the world. The drug arsenal available for the treatment of these diseases is limited; for example, praziquantel is the only drug currently used to treat ≥240 million people each year infected with Schistosoma spp., and there is justified concern about the emergence of drug resistance. In this study, we screened biarylalkyl carboxylic acid derivatives for their antischistosomal activity against S. mansoni. These compounds showed significant influence on egg production, pairing stability, and vitality. Tegumental lesions or gut dilatation was also observed. Substitution of the terminal phenyl residue in the biaryl scaffold with a 3-hydroxy moiety and derivatization of the terminal carboxylic acid scaffold with carboxamides yielded compounds that displayed significant antischistosomal activity at concentrations as low as 10 μm with satisfying cytotoxicity values. The present study provides detailed insight into the structure-activity relationships of biarylalkyl carboxylic acid derivatives and thereby paves the way for a new drug-hit moiety for fighting schistosomiasis.

Citations (6)


... Scholars have also investigated the effects of dithiocarbamate derivatives and disulfiram on E. multilocularis via both in vivo and in vitro experiments. Dithiocarbamate derivatives exhibit significant antiparasitic effects [78]. Interestingly, while disulfiram has shown antiparasitic activity in previous studies, it did not display anti-E. ...

Reference:

Current status of drug therapy for alveolar echinococcosis
In Vitro Activities of Dithiocarbamate Derivatives against Echinococcus multilocularis Metacestode Vesicles

Tropical Medicine and Infectious Disease

... This mechanism involves the formation of the pores in the cell membrane, allowing proinflammatory cytokines to be released and ultimately causing cell rupture [65]. PM2.5 has a vital role in NLRP3 inflammasome and Caspase-1 activation [66], eventually leading to increased GSDMD cleavage, a critical step that results in pyroptosis [67]. Lian et al. reported pyroptosis being involved in PM2.5-induced liver dysfunction in mice [68]. ...

Disulfiram and dithiocarbamate analogues demonstrate promising antischistosomal effects
  • Citing Article
  • August 2022

European Journal of Medicinal Chemistry

... Further, the drug is prepared as a racemate whereby the S-enantiomer is clinically useless and imparts a rancid taste to what is a large tablet, both of which hamper patient compliance, especially by children. In addition, concerns regarding drug resistance remain [5][6][7][8]. Therefore, there is a need to discover more effective drugs. ...

Drug Discovery and Development for Schistosomiasis
  • Citing Chapter
  • September 2019

... Besides, PZQ has shown limited effectiveness against juvenile stages of the parasite in vivo (Kabuyaya et al., 2018;Aboagye and Addison, 2023;Waechtler et al., 2023). It is therefore necessary to focus on finding new drug treatments, alternative or complementary to PZQ, against this disease (Mäder et al., 2018;Le Clec'h et al., 2021;Nogueira et al., 2022;Caldwell et al., 2023). As the search for alternative drug therapy against schistosomiasis intensifies, so does the search for new drug targets in this organism. ...

Chemotherapy for Fighting Schistosomiasis: Past, Present and Future
  • Citing Article
  • September 2018

... To determine antischistosomal activities of any synthesized derivative, an established in vitro culture system for adult schistosomes was used [54][55][56][57][58]. Therefore, we incubated S. mansoni couples with each derivative for up to 72 h; 100 μM was chosen as the initial concentration in each case. ...

Derivatives of biarylalkyl carboxylic acid induce pleiotropic phenotypes in adult Schistosoma mansoni in vitro

Parasitology Research

... To determine antischistosomal activities of any synthesized derivative, an established in vitro culture system for adult schistosomes was used [54][55][56][57][58]. Therefore, we incubated S. mansoni couples with each derivative for up to 72 h; 100 μM was chosen as the initial concentration in each case. ...

Biarylalkyl Carboxylic Acid Derivatives as Novel Antischistosomal Agents