Harald John scite author profile

The orphan receptor ChemR23 is a G-protein coupled receptor (GPCR) with homology to neuropeptide and chemoattractant receptors. Tazarotene, a synthetic retinoid activating retinoic acid receptor (RAR), up-regulates tazaroteneinduced gene-2 (TIG2). The function and molecular target of this protein are now described. By means of reverse pharmacology screening using a peptide library generated from human hemo¢ltrate, we have isolated and identi¢ed TIG2 as the natural ligand of ChemR23 and report the speci¢c molecular form of the bioactive, circulating TIG2, representing the amino-acid residues 21 to 154 of the 163 amino acid-containing prepropeptide. Based on the expression pattern of ChemR23 and TIG2, the physiological role in bone development, immune and in£am-matory responses and the maintenance of skin is now being investigated.

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Fatal sarin poisoning in Syria 2013: forensic verification within an international laboratory network

John¹,

Schans

Koller³

et al. 2017

Forensic Toxicol

181

121

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During the United Nations fact-finding mission to investigate the alleged use of chemical warfare agents in the Syrian Arab Republic in 2013, numerous tissues from a deceased female victim, who had displayed symptoms of cholinergic crisis, were collected. The Organisation for the Prohibition of Chemical Weapons (OPCW) authorized two specialized laboratories in the Netherlands and Germany for forensic analysis of these samples. Diverse modern mass spectrometry (MS)-based procedures in combination with either liquid chromatography (LC) or gas chromatography (GC) separation were applied. A variety of biotransformation products of the nerve agent sarin was detected, including the hydrolysis product O-isopropyl methylphosphonic acid (IMPA) as well as covalent protein adducts with e.g., albumin and human butyrylcholinesterase (hBChE). IMPA was extracted after sample acidification by solid-phase extraction and directly analyzed by LC–tandem-MS with negative electrospray ionization (ESI). Protein adducts were found, either by fluoride-induced reactivation applying GC–MS techniques or by LC–MS-based detection after positive ESI for proteolyzed proteins yielding phosphonylated tyrosine residues or a specific phosphonylated hBChE-derived nonapeptide. These experimental results provided unambiguous evidence for a systemic intoxication and were the first proving the use of sarin in the ongoing bellicose conflict. This scenario underlines the requirement for qualified and specialized analytical laboratories to face repeated violation of the Chemical Weapons Convention.

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Analytical procedures for quantification of peptides in pharmaceutical research by liquid chromatography?mass spectrometry

John¹,

Walden²,

Schäfer³

et al. 2004

Analytical and Bioanalytical Chemistry

154

104

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Peptide quantification by liquid chromatography-mass spectrometry (LC-MS) combines the high resolving power of reversed-phase (RP) chromatography with the excellent selectivity and sensitivity of mass spectrometric detection. On the basis of comprehensive practical experience in the analysis of small molecules, pharmaceutical research is developing technologies for analysis of a growing number of peptidic drug candidates. This article is a detailed review of procedures based on LC-MS techniques for quantitative determination of peptides. With the focus on pharmaceutical applications several technologies for sample preparation, various aspects of peptide chromatography, important characteristics of ESI-MS, selectivity of MS-detection modes, the large variability of internal standards, and modern instrumentation are discussed. The demand for reliable, robust, sensitive, and accurate methods is discussed using numerous examples from the literature, complemented by experiments and results from our laboratory.

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A role for solvents in the toxicity of agricultural organophosphorus pesticides

et al. 2012

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Organophosphorus (OP) insecticide self-poisoning is responsible for about one-quarter of global suicides. Treatment focuses on the fact that OP compounds inhibit acetylcholinesterase (AChE); however, AChE-reactivating drugs do not benefit poisoned humans. We therefore studied the role of solvent coformulants in OP toxicity in a novel minipig model of agricultural OP poisoning. Gottingen minipigs were orally poisoned with clinically relevant doses of agricultural emulsifiable concentrate (EC) dimethoate, dimethoate active ingredient (AI) alone, or solvents. Cardiorespiratory physiology and neuromuscular (NMJ) function, blood AChE activity, and arterial lactate concentration were monitored for 12 h to assess poisoning severity. Poisoning with agricultural dimethoate EC40, but not saline, caused respiratory arrest within 30 min, severe distributive shock and NMJ dysfunction, that was similar to human poisoning. Mean arterial lactate rose to 15.6 [SD 2.8] mM in poisoned pigs compared to 1.4 [0.4] in controls. Moderate toxicity resulted from poisoning with dimethoate AI alone, or the major solvent cyclohexanone. Combining dimethoate with cyclohexanone reproduced severe poisoning characteristic of agricultural dimethoate EC poisoning. A formulation without cyclohexanone showed less mammalian toxicity. These results indicate that solvents play a crucial role in dimethoate toxicity. Regulatory assessment of pesticide toxicity should include solvents as well as the AIs which currently dominate the assessment. Reformulation of OP insecticides to ensure that the agricultural product has lower mammalian toxicity could result in fewer deaths after suicidal ingestion and rapidly reduce global suicide rates.

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LC-MS-based procedures for monitoring of toxic organophosphorus compounds and verification of pesticide and nerve agent poisoning

John¹,

Worek²,

Thiermann³

2008

Anal Bioanal Chem

109

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Organophosphorus compounds (OPCs) are used worldwide as, e.g., flame retardants, plasticizers, and pesticides and remaining stockpiles of OPC nerve agents are present in military arsenals. These OPCs exhibit acute and potential chronic toxicity to man, the environment, and biota thus emphasizing the need for efficient analytical procedures to monitor potential risk to health. Therefore, this review discusses LC-MS-based procedures for OPC detection, addressing sample preparation, separation, ionization, and detection in comprehensive detail. For sample preparation conventional liquid-liquid extraction (LLE) and diverse solid-phase extraction (SPE) procedures are still used most frequently. Nevertheless, during the last three years a number of sophisticated novel methods have been introduced. Solid-phase microextraction (SPME), stir-bar-sorptive extraction (SBSE), membrane-assisted solvent extraction (MASE), and specifically designed molecularly imprinted polymers (MIP) exhibit high potential for frequent use in the future. Additional emphasis in this review is dedicated to the quite young history and current progress in ionization and MS detection of OPCs. The number of relevant published LC-MS reports has tripled in the last five years. This is especially due to the proliferating use of electrospray ionization (ESI), nowadays an indispensable and reliable tool for LC-MS coupling. LC-MS is becoming an appropriate complementary or replacement method for the more traditional GC-MS methods, and not only for non-volatile, hydrophilic, and ionic OPCs. The last section of this review covers recent approaches for verification of OPC poisoning. LC-MS-MS detection of phosphylated peptides generated from inhibited circulating serum butyrylcholinesterase (BChE) by valuable proteomics techniques enables proof of intoxication on the molecular level. Therefore, this review gives a comprehensive overview on the status quo of LC-MS-based OPC analysis in respect of both technical progress and relevant applications.

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Forensic evidence of sulfur mustard exposure in real cases of human poisoning by detection of diverse albumin-derived protein adducts

John

Koller²,

Worek³

et al. 2019

Arch Toxicol

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Evidence of Sulfur Mustard Exposure in Human Plasma by LC-ESI-MS-MS Detection of the Albumin-Derived Alkylated HETE-CP Dipeptide and Chromatographic Investigation of Its Cis/Trans Isomerism

Gandor

Gawlik

Thiermann

et al. 2015

Journal of Analytical Toxicology

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Sulfur mustard (SM) is a chemical warfare agent that causes painful blisters and chemically modifies endogenous biomacromolecules by alkylation to hydroxyethylthioethyl (HETE) adducts representing valuable long-term markers for post-exposure analysis. The albumin adduct formed in human plasma in vitro (HETE bound to the side chain of cysteine 34) was isolated and cleaved by current lots of pronase primarily generating the internal modified dipeptide (HETE-cysteine-proline, HETE-CP) instead of the formerly reported HETE-CPF tripeptide. The analyte was detected by liquid chromatography-electrospray ionization tandem-mass spectrometry (LC-ESI-MS-MS). In principle, HETE-CP undergoes a dynamic on-column equilibrium of cis-trans isomerism thus requiring separation at 50°C to obtain one narrow peak. Accordingly, we developed both a novel longer lasting but more sensitive microbore (1 mm i.d., flow 30 µL/min, cycle time 60 min, LOD 50 nM) and a faster, less sensitive narrowbore (2.1 mm i.d., 200 µL/min, cycle time 16 min, LOD 100 nM, both on Atlantis T3 material at 50°C) LC-ESI-MS-MS method suitable for verification analysis. The corresponding tri- and tetrapeptide, Q(HETE)-CPF were monitored simultaneously. HETE-CP peak areas were directly proportional to SM concentrations added to plasma in vitro (0.05-100 µM). Albumin adducts formed by deuterated SM (d8-SM) served as internal standard.

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Consequences of Cysteine Mutations in Calcium-binding Epidermal Growth Factor Modules of Fibrillin-1

Vollbrandt

Tiedemann

El-Hallous

et al. 2004

Journal of Biological Chemistry

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Mutations in fibrillin-1 lead to Marfan syndrome and some related genetic disorders. Many of the more than 600 mutations currently known in fibrillin-1 eliminate or introduce cysteine residues in epidermal growth factor-like modules. Here we report structural and functional consequences of three selected cysteine mutations (R627C, C750G, and C926R) in fibrillin-1. The mutations have been analyzed by means of recombinant polypeptides produced in mammalian expression systems. The mRNA levels for the mutation constructs were similar to wild-type levels. All three mutated polypeptides were secreted by embryonic kidney cells (293) into the culture medium. Purification was readily feasible for mutants R627C and C750G, but not for C926R, which restricted the availability of this mutant polypeptide to selected analyses. The overall folds of the mutant polypeptides were indistinguishable from the wild-type as judged by the ultrastructural shape, CD analysis, and reactivity with a specific antibody sensitive for intact disulfide bonds. Subtle structural changes caused by R627C and C750G, however, were monitored by proteolysis and heat denaturation experiments. These changes occurred in the vicinity of the mutations either as short range effects (R627C) or both short and long range effects (C750G). Enhanced proteolytic susceptibility was observed for R627C and C750G to a variety of proteases. These results expand and further strengthen the concept that proteolytic degradation of mutated fibrillin-1 might be an important potential mechanism in the pathogenesis of Marfan syndrome and other disorders caused by mutations in fibrillin-1.

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Harald John

Characterization of human circulating TIG2 as a ligand for the orphan receptor ChemR23

Fatal sarin poisoning in Syria 2013: forensic verification within an international laboratory network

Analytical procedures for quantification of peptides in pharmaceutical research by liquid chromatography?mass spectrometry

A role for solvents in the toxicity of agricultural organophosphorus pesticides

LC-MS-based procedures for monitoring of toxic organophosphorus compounds and verification of pesticide and nerve agent poisoning

Forensic evidence of sulfur mustard exposure in real cases of human poisoning by detection of diverse albumin-derived protein adducts

Evidence of Sulfur Mustard Exposure in Human Plasma by LC-ESI-MS-MS Detection of the Albumin-Derived Alkylated HETE-CP Dipeptide and Chromatographic Investigation of Its Cis/Trans Isomerism

Consequences of Cysteine Mutations in Calcium-binding Epidermal Growth Factor Modules of Fibrillin-1

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