Search results for "radical propagation"

showing 2 items of 2 documents

Prooxidative chain transfer activity by thiol groups in biological systems

2020

Cysteine is arguably the best-studied biological amino acid, whose thiol group frequently participates in catalysis or ligand binding by proteins. Still, cysteine's unusual biological distribution has remained mysterious, being strikingly underrepresented in transmembrane domains and on accessible protein surfaces, particularly in aerobic life forms (“cysteine anomaly”). Noting that lipophilic thiols have been used for decades as radical chain transfer agents in polymer chemistry, we speculated that the rapid formation of thiyl radicals in hydrophobic phases might provide a rationale for the cysteine anomaly. Hence, we have investigated the effects of dodecylthiol and related compounds in i…

0301 basic medicineFree RadicalsDNA damageLipid peroxidationClinical BiochemistryProtein oxidationBiochemistryLipid peroxidation03 medical and health scienceschemistry.chemical_compound0302 clinical medicineCysteine oxidationAnimalsHumansCysteineSulfhydryl CompoundsCaenorhabditis eleganslcsh:QH301-705.5chemistry.chemical_classificationlcsh:R5-920Organic ChemistryAmino acidTransmembrane domain030104 developmental biologylcsh:Biology (General)Structural biologychemistryBiochemistryThiyl radicalsThiolRadical propagationlcsh:Medicine (General)Protein oxidation030217 neurology & neurosurgeryResearch PaperCysteineRedox Biology
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Cell Culture Characterization of Prooxidative Chain-Transfer Agents as Novel Cytostatic Drugs

2021

Prooxidative therapy is a well-established concept in infectiology and parasitology, in which prooxidative drugs like artemisinin and metronidazole play a pivotal clinical role. Theoretical considerations and earlier studies have indicated that prooxidative therapy might also represent a promising strategy in oncology. Here, we have investigated a novel class of prooxidative drugs, namely chain-transfer agents, as cytostatic agents in a series of human tumor cell lines in vitro. We have found that different chain-transfer agents of the lipophilic thiol class (like dodecane-1-thiol) elicited half-maximal effective concentrations in the low micromolar range in SY5Y cells (human neuroblastoma)…

Cell Survivallipophilic thiolCellular differentiationPharmaceutical ScienceOrganic chemistryfree radical chain reactionAntineoplastic AgentschemotherapyAntioxidantsArticleAnalytical Chemistryradical propagationHeLaQD241-441Coordination ComplexesNeuroblastomaDrug DiscoverymedicineTumor Cells CulturedHumansDoxorubicinSulfhydryl CompoundsPhysical and Theoretical ChemistryCytotoxicityoxidative cell deathCell Proliferationprooxidative drugbiologyChemistryHEK 293 cellslipid peroxidationbiology.organism_classificationmedicine.diseaseCytostatic Agentschain-transfer agentIn vitroChemistry (miscellaneous)Cell cultureCancer researchMolecular MedicineNitrogen OxidesDrug Screening Assays Antitumormedicine.drugrate-limiting stepMolecules
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