Please use this identifier to cite or link to this item: http://dx.doi.org/10.25673/37420
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dc.contributor.refereeSippl, Wolfgang-
dc.contributor.refereeDobner, Bodo-
dc.contributor.refereeHoll, Ralph-
dc.contributor.authorBayer, Theresa Yasmin Charlotte-
dc.date.accessioned2021-07-23T06:32:25Z-
dc.date.available2021-07-23T06:32:25Z-
dc.date.issued2021-
dc.identifier.urihttps://opendata.uni-halle.de//handle/1981185920/37663-
dc.identifier.urihttp://dx.doi.org/10.25673/37420-
dc.description.abstractAufgrund eines dringenden Bedarfes an neuen therapeutischen Möglichkeiten gegen parasitäre Erkrankungen werden in dieser Arbeit epigenetische Herangehensweisen für diese Infektionen untersucht. Die Substanz J1075 (3-chlorobenzothiophen-2-hydroxamsäure) wurde in einem virtuellen „Screening” als Inhibitor der smHDAC8 identifiziert. Ziel dieser Arbeit war es strukturähnliche Moleküle von J1075 zu entwerfen, synthetisieren und hinsichtlich ihrer Aktivität an der smHDAC8 und anderen epigenetischen parasitären Zielstrukturen zu untersuchen. Zur Strukturoptimierung wurden sowohl computerbasierte Methoden also auch kristallographische Studien durchgeführt. Die synthetisierten Substanzen wurden in Aktivitätsassays an isolierten Enzymen, in phenotypischen Assays und frühen (ADMET) pharmakokinetischen Assays untersucht. Auch die Selektivität der Substanzen zwischen den parasitären Zielstrukturen und den humanen homologen Enzymen und generelle Toxizität der Substanzen wurden untersucht.ger
dc.description.abstractIn need for new therapeutic options for the treatment of neglected parasitic diseases this work presents an approach addressing epigenetic structures of the respective parasites. The compound J1075 (3-chlorobenzothiophene-2-hydroxamic acid) had been identified as a hit by virtual screening for the inhibition of smHDAC8. The aim of this work was to synthesize J1075-derived hydroxamic acids which were then to be tested towards their activity on smHDAC8 and other parasitic targets. The fragment-like hit was modified in several positions. The chemical optimization was guided by in silico studies as well as co crystallization studies. The synthesized compounds were tested in enzymatic assays towards their inhibitory activity on the isolated targets as well as phenotypic assays and early pharmacokinetic studies. Moreover the selectivity of the compounds between the target enzymes and the human enzymatic isoforms has been determined and toxicity assays were conducted. This synergistic interplay of the different methodologies allowed an ongoing optimization of the synthesized compounds according to each new finding.eng
dc.format.extent1 Online-Ressource (238 Seiten)-
dc.language.isoeng-
dc.rights.urihttp://rightsstatements.org/vocab/InC/1.0/-
dc.subject.ddc616-
dc.titleStructure based design, synthesis and characterization of small molecules as inhibitors of parasitic targetseng
dcterms.dateAccepted2021-01-14-
dcterms.typeHochschulschrift-
dc.typePhDThesis-
dc.identifier.urnurn:nbn:de:gbv:3:4-1981185920-376631-
local.versionTypepublishedVersion-
local.publisher.universityOrInstitutionMartin-Luther-Universität Halle-Wittenberg-
local.subject.keywordsParasitäre Erkrankungen, Schistosomiasis, Malaria, Trypanosomiasis, Epigenetik, HDAC’s, organische Synthese, kleine Moleküle, Hydroxamsäuren, Kristallstrukturen-
local.subject.keywordsParasitic diseases, schistosomiasis, malaria, trypanosomiasis, epigenetics, HDAC’s, organic synthesis, small molecules, hydroxamic acids, crystal structures-
local.openaccesstrue-
dc.identifier.ppn1764211944-
local.publication.countryXA-DE-
cbs.sru.importDate2021-07-23T06:31:19Z-
local.accessrights.dnbfree-
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