Chemical Reactivity and Skin Sensitization Potential for Benzaldehydes: Can Schiff Base Formation Explain Everything?

Skin sensitizers chemically modify skin proteins rendering them immunogenic. Sensitizing chemicals have been divided into applicability domains according to their suspected reaction mechanism. The widely accepted Schiff base applicability domain covers aldehydes and ketones, and detailed structure–a...

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Veröffentlicht in:	Chemical research in toxicology 2012-10, Vol.25 (10), p.2203-2215
Hauptverfasser:	Natsch, Andreas, Gfeller, Hans, Haupt, Tina, Brunner, Gerhard
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Sprache:	eng
Schlagworte:	Allergens - chemistry Allergens - immunology Benzaldehydes - chemistry Benzaldehydes - immunology Butylamines - chemistry Butylamines - immunology Humans Peptides - chemistry Peptides - immunology Schiff Bases - chemistry Schiff Bases - immunology Skin - drug effects Skin - immunology
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creator	Natsch, Andreas Gfeller, Hans Haupt, Tina Brunner, Gerhard
description	Skin sensitizers chemically modify skin proteins rendering them immunogenic. Sensitizing chemicals have been divided into applicability domains according to their suspected reaction mechanism. The widely accepted Schiff base applicability domain covers aldehydes and ketones, and detailed structure–activity-modeling for this chemical group was presented. While Schiff base formation is the obvious reaction pathway for these chemicals, the in silico work was followed up by limited experimental work. It remains unclear whether hydrolytically labile Schiff bases can form sufficiently stable epitopes to trigger an immune response in the living organism with an excess of water being present. Here, we performed experimental studies on benzaldehydes of highly differing skin sensitization potential. Schiff base formation toward butylamine was evaluated in acetonitrile, and a detailed SAR study is presented. o-Hydroxybenzaldehydes such as salicylaldehyde and the oakmoss allergens atranol and chloratranol have a high propensity to form Schiff bases. The reactivity is highly reduced in p-hydroxy benzaldehydes such as the nonsensitizing vanillin with an intermediate reactivity for p-alkyl and p-methoxy-benzaldehydes. The work was followed up under more physiological conditions in the peptide reactivity assay with a lysine-containing heptapeptide. Under these conditions, Schiff base formation was only observable for the strong sensitizers atranol and chloratranol and for salicylaldehyde. Trapping experiments with NaBH3CN showed that Schiff base formation occurred under these conditions also for some less sensitizing aldehydes, but the reaction is not favored in the absence of in situ reduction. Surprisingly, the Schiff bases of some weaker sensitizers apparently may react further to form stable peptide adducts. These were identified as the amides between the lysine residues and the corresponding acids. Adduct formation was paralleled by oxidative deamination of the parent peptide at the lysine residue to form the peptide aldehyde. Our results explain the high sensitization potential of the oakmoss allergens by stable Schiff base formation and at the same time indicate a novel pathway for stable peptide-adduct formation and peptide modifications by aldehydes. The results thus may lead to a better understanding of the Schiff base applicability domain.
doi_str_mv	10.1021/tx300278t
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Sensitizing chemicals have been divided into applicability domains according to their suspected reaction mechanism. The widely accepted Schiff base applicability domain covers aldehydes and ketones, and detailed structure–activity-modeling for this chemical group was presented. While Schiff base formation is the obvious reaction pathway for these chemicals, the in silico work was followed up by limited experimental work. It remains unclear whether hydrolytically labile Schiff bases can form sufficiently stable epitopes to trigger an immune response in the living organism with an excess of water being present. Here, we performed experimental studies on benzaldehydes of highly differing skin sensitization potential. Schiff base formation toward butylamine was evaluated in acetonitrile, and a detailed SAR study is presented. o-Hydroxybenzaldehydes such as salicylaldehyde and the oakmoss allergens atranol and chloratranol have a high propensity to form Schiff bases. The reactivity is highly reduced in p-hydroxy benzaldehydes such as the nonsensitizing vanillin with an intermediate reactivity for p-alkyl and p-methoxy-benzaldehydes. The work was followed up under more physiological conditions in the peptide reactivity assay with a lysine-containing heptapeptide. Under these conditions, Schiff base formation was only observable for the strong sensitizers atranol and chloratranol and for salicylaldehyde. Trapping experiments with NaBH3CN showed that Schiff base formation occurred under these conditions also for some less sensitizing aldehydes, but the reaction is not favored in the absence of in situ reduction. Surprisingly, the Schiff bases of some weaker sensitizers apparently may react further to form stable peptide adducts. These were identified as the amides between the lysine residues and the corresponding acids. Adduct formation was paralleled by oxidative deamination of the parent peptide at the lysine residue to form the peptide aldehyde. Our results explain the high sensitization potential of the oakmoss allergens by stable Schiff base formation and at the same time indicate a novel pathway for stable peptide-adduct formation and peptide modifications by aldehydes. 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Res. Toxicol</addtitle><description>Skin sensitizers chemically modify skin proteins rendering them immunogenic. Sensitizing chemicals have been divided into applicability domains according to their suspected reaction mechanism. The widely accepted Schiff base applicability domain covers aldehydes and ketones, and detailed structure–activity-modeling for this chemical group was presented. While Schiff base formation is the obvious reaction pathway for these chemicals, the in silico work was followed up by limited experimental work. It remains unclear whether hydrolytically labile Schiff bases can form sufficiently stable epitopes to trigger an immune response in the living organism with an excess of water being present. Here, we performed experimental studies on benzaldehydes of highly differing skin sensitization potential. Schiff base formation toward butylamine was evaluated in acetonitrile, and a detailed SAR study is presented. o-Hydroxybenzaldehydes such as salicylaldehyde and the oakmoss allergens atranol and chloratranol have a high propensity to form Schiff bases. The reactivity is highly reduced in p-hydroxy benzaldehydes such as the nonsensitizing vanillin with an intermediate reactivity for p-alkyl and p-methoxy-benzaldehydes. The work was followed up under more physiological conditions in the peptide reactivity assay with a lysine-containing heptapeptide. Under these conditions, Schiff base formation was only observable for the strong sensitizers atranol and chloratranol and for salicylaldehyde. Trapping experiments with NaBH3CN showed that Schiff base formation occurred under these conditions also for some less sensitizing aldehydes, but the reaction is not favored in the absence of in situ reduction. Surprisingly, the Schiff bases of some weaker sensitizers apparently may react further to form stable peptide adducts. These were identified as the amides between the lysine residues and the corresponding acids. Adduct formation was paralleled by oxidative deamination of the parent peptide at the lysine residue to form the peptide aldehyde. Our results explain the high sensitization potential of the oakmoss allergens by stable Schiff base formation and at the same time indicate a novel pathway for stable peptide-adduct formation and peptide modifications by aldehydes. The results thus may lead to a better understanding of the Schiff base applicability domain.</description><subject>Allergens - chemistry</subject><subject>Allergens - immunology</subject><subject>Benzaldehydes - chemistry</subject><subject>Benzaldehydes - immunology</subject><subject>Butylamines - chemistry</subject><subject>Butylamines - immunology</subject><subject>Humans</subject><subject>Peptides - chemistry</subject><subject>Peptides - immunology</subject><subject>Schiff Bases - chemistry</subject><subject>Schiff Bases - immunology</subject><subject>Skin - drug effects</subject><subject>Skin - immunology</subject><issn>0893-228X</issn><issn>1520-5010</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqF0U1PFEEQBuAO0cCKHPgDpi8mehit_tqd8WJks6AJiUY04Tap6alhG2Z61u4ewvLrabLIycRTHeqp91AvY8cCPgiQ4mO6UwByUaY9NhNGQmFAwAs2g7JShZTl5QF7FeM1gMh8sc8OpKwMlCXM2LRc0-As9vwnoU3u1qUtR9_yixvn-QX56JK7x-RGz3-MiXxy2XZj4Cfk77Fvab1tKX7iS8zcrl3X8ROMxE_HMOzOVnebHnPY6pbCNq2dv_r8mr3ssI909DQP2e_T1a_l1-L8-9m35ZfzArXQqag0GmlprrQ1UBk51w0uRDkHLRvb6MZaazpqysoIBFvNS22wIkQFUrV5pw7Zu13uJox_JoqpHly01PfoaZxinZ-ltTRqof9PhZBKGwEq0_c7asMYY6Cu3gQ3YNjWAurHQurnQrJ98xQ7NQO1z_JvAxm83QG0sb4ep-DzQ_4R9AAEu5KZ</recordid><startdate>20121015</startdate><enddate>20121015</enddate><creator>Natsch, Andreas</creator><creator>Gfeller, Hans</creator><creator>Haupt, Tina</creator><creator>Brunner, Gerhard</creator><general>American Chemical Society</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>7U7</scope><scope>C1K</scope></search><sort><creationdate>20121015</creationdate><title>Chemical Reactivity and Skin Sensitization Potential for Benzaldehydes: Can Schiff Base Formation Explain Everything?</title><author>Natsch, Andreas ; Gfeller, Hans ; Haupt, Tina ; Brunner, Gerhard</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a414t-94a52ce634c5095264ba7186042bcb4bccc5feb8951a0c96845a9eaa3023dcc53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Allergens - chemistry</topic><topic>Allergens - immunology</topic><topic>Benzaldehydes - chemistry</topic><topic>Benzaldehydes - immunology</topic><topic>Butylamines - chemistry</topic><topic>Butylamines - immunology</topic><topic>Humans</topic><topic>Peptides - chemistry</topic><topic>Peptides - immunology</topic><topic>Schiff Bases - chemistry</topic><topic>Schiff Bases - immunology</topic><topic>Skin - drug effects</topic><topic>Skin - immunology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Natsch, Andreas</creatorcontrib><creatorcontrib>Gfeller, Hans</creatorcontrib><creatorcontrib>Haupt, Tina</creatorcontrib><creatorcontrib>Brunner, Gerhard</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>Toxicology Abstracts</collection><collection>Environmental Sciences and Pollution Management</collection><jtitle>Chemical research in toxicology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Natsch, Andreas</au><au>Gfeller, Hans</au><au>Haupt, Tina</au><au>Brunner, Gerhard</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Chemical Reactivity and Skin Sensitization Potential for Benzaldehydes: Can Schiff Base Formation Explain Everything?</atitle><jtitle>Chemical research in toxicology</jtitle><addtitle>Chem. Res. Toxicol</addtitle><date>2012-10-15</date><risdate>2012</risdate><volume>25</volume><issue>10</issue><spage>2203</spage><epage>2215</epage><pages>2203-2215</pages><issn>0893-228X</issn><eissn>1520-5010</eissn><abstract>Skin sensitizers chemically modify skin proteins rendering them immunogenic. Sensitizing chemicals have been divided into applicability domains according to their suspected reaction mechanism. The widely accepted Schiff base applicability domain covers aldehydes and ketones, and detailed structure–activity-modeling for this chemical group was presented. While Schiff base formation is the obvious reaction pathway for these chemicals, the in silico work was followed up by limited experimental work. It remains unclear whether hydrolytically labile Schiff bases can form sufficiently stable epitopes to trigger an immune response in the living organism with an excess of water being present. Here, we performed experimental studies on benzaldehydes of highly differing skin sensitization potential. Schiff base formation toward butylamine was evaluated in acetonitrile, and a detailed SAR study is presented. o-Hydroxybenzaldehydes such as salicylaldehyde and the oakmoss allergens atranol and chloratranol have a high propensity to form Schiff bases. The reactivity is highly reduced in p-hydroxy benzaldehydes such as the nonsensitizing vanillin with an intermediate reactivity for p-alkyl and p-methoxy-benzaldehydes. The work was followed up under more physiological conditions in the peptide reactivity assay with a lysine-containing heptapeptide. Under these conditions, Schiff base formation was only observable for the strong sensitizers atranol and chloratranol and for salicylaldehyde. Trapping experiments with NaBH3CN showed that Schiff base formation occurred under these conditions also for some less sensitizing aldehydes, but the reaction is not favored in the absence of in situ reduction. Surprisingly, the Schiff bases of some weaker sensitizers apparently may react further to form stable peptide adducts. These were identified as the amides between the lysine residues and the corresponding acids. Adduct formation was paralleled by oxidative deamination of the parent peptide at the lysine residue to form the peptide aldehyde. Our results explain the high sensitization potential of the oakmoss allergens by stable Schiff base formation and at the same time indicate a novel pathway for stable peptide-adduct formation and peptide modifications by aldehydes. 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subjects	Allergens - chemistry Allergens - immunology Benzaldehydes - chemistry Benzaldehydes - immunology Butylamines - chemistry Butylamines - immunology Humans Peptides - chemistry Peptides - immunology Schiff Bases - chemistry Schiff Bases - immunology Skin - drug effects Skin - immunology
title	Chemical Reactivity and Skin Sensitization Potential for Benzaldehydes: Can Schiff Base Formation Explain Everything?
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