Synthesis and biological activity of a potent optically pure autoinducer-2 quorum sensing agonist

Both enantiomers of Propoxy-DPD have been synthesised and tested. The (4S) enantiomer was the mostactive AI-2 agonist described so far. [Display omitted] •Enantiomerically pure C4-propoxy-HPD and C4-ethoxy-HPD have been synthesised.•The binding affinity and biological activity of these DPD analogues...

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Veröffentlicht in:	Bioorganic chemistry 2019-04, Vol.85, p.75-81
Hauptverfasser:	Ascenso, Osvaldo S., Torcato, Inês M., Miguel, Ana Sofia, Marques, João C., Xavier, Karina B., Ventura, M. Rita, Maycock, Christopher D.
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Sprache:	eng
Schlagworte:	AI-2 Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - metabolism Anti-Bacterial Agents - pharmacology Bacterial Proteins - metabolism Carrier Proteins - metabolism DPD DPD agonists DPD analogues Escherichia coli - physiology Escherichia coli Proteins - metabolism Pentanones - chemical synthesis Pentanones - metabolism Pentanones - pharmacology Quorum sensing Quorum Sensing - drug effects Stereoisomerism Vibrio - physiology
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container_title	Bioorganic chemistry
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creator	Ascenso, Osvaldo S. Torcato, Inês M. Miguel, Ana Sofia Marques, João C. Xavier, Karina B. Ventura, M. Rita Maycock, Christopher D.
description	Both enantiomers of Propoxy-DPD have been synthesised and tested. The (4S) enantiomer was the mostactive AI-2 agonist described so far. [Display omitted] •Enantiomerically pure C4-propoxy-HPD and C4-ethoxy-HPD have been synthesised.•The binding affinity and biological activity of these DPD analogues were evaluated.•The (4S)-C4-propoxy-HPD was the most active AI-2 agonist described so far.•Specificity of the 4(S) enantiomer to LuxP receptors could be clinically applicable. Quorum sensing (QS) regulates population-dependent bacterial behaviours, such as toxin production, biofilm formation and virulence. Autoinducer-2 (AI-2) is to date the only signalling molecule known to foster inter-species bacterial communication across distantly related bacterial species. In this work, the synthesis of pure enantiomers of C4-propoxy-HPD and C4-ethoxy-HPD, known AI-2 analogues, has been developed. The optimised synthesis is efficient, reproducible and short. The (4S) enantiomer of C4-propoxy-HPD was the most active compound being approximately twice as efficient as (4S)-DPD and ten-times more potent than the (4R) enantiomer. Additionally, the specificity of this analogue to bacteria with LuxP receptors makes it a good candidate for clinical applications, because it is not susceptible to scavenging by LsrB-containing bacteria that degrade the natural AI-2. All in all, this study provides a new brief and effective synthesis of isomerically pure analogues for QS modulation that include the most active AI-2 agonist described so far.
doi_str_mv	10.1016/j.bioorg.2018.12.022
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Rita ; Maycock, Christopher D.</creator><creatorcontrib>Ascenso, Osvaldo S. ; Torcato, Inês M. ; Miguel, Ana Sofia ; Marques, João C. ; Xavier, Karina B. ; Ventura, M. Rita ; Maycock, Christopher D.</creatorcontrib><description>Both enantiomers of Propoxy-DPD have been synthesised and tested. The (4S) enantiomer was the mostactive AI-2 agonist described so far. [Display omitted] •Enantiomerically pure C4-propoxy-HPD and C4-ethoxy-HPD have been synthesised.•The binding affinity and biological activity of these DPD analogues were evaluated.•The (4S)-C4-propoxy-HPD was the most active AI-2 agonist described so far.•Specificity of the 4(S) enantiomer to LuxP receptors could be clinically applicable. Quorum sensing (QS) regulates population-dependent bacterial behaviours, such as toxin production, biofilm formation and virulence. Autoinducer-2 (AI-2) is to date the only signalling molecule known to foster inter-species bacterial communication across distantly related bacterial species. In this work, the synthesis of pure enantiomers of C4-propoxy-HPD and C4-ethoxy-HPD, known AI-2 analogues, has been developed. The optimised synthesis is efficient, reproducible and short. The (4S) enantiomer of C4-propoxy-HPD was the most active compound being approximately twice as efficient as (4S)-DPD and ten-times more potent than the (4R) enantiomer. Additionally, the specificity of this analogue to bacteria with LuxP receptors makes it a good candidate for clinical applications, because it is not susceptible to scavenging by LsrB-containing bacteria that degrade the natural AI-2. 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Rita</creatorcontrib><creatorcontrib>Maycock, Christopher D.</creatorcontrib><title>Synthesis and biological activity of a potent optically pure autoinducer-2 quorum sensing agonist</title><title>Bioorganic chemistry</title><addtitle>Bioorg Chem</addtitle><description>Both enantiomers of Propoxy-DPD have been synthesised and tested. The (4S) enantiomer was the mostactive AI-2 agonist described so far. [Display omitted] •Enantiomerically pure C4-propoxy-HPD and C4-ethoxy-HPD have been synthesised.•The binding affinity and biological activity of these DPD analogues were evaluated.•The (4S)-C4-propoxy-HPD was the most active AI-2 agonist described so far.•Specificity of the 4(S) enantiomer to LuxP receptors could be clinically applicable. Quorum sensing (QS) regulates population-dependent bacterial behaviours, such as toxin production, biofilm formation and virulence. Autoinducer-2 (AI-2) is to date the only signalling molecule known to foster inter-species bacterial communication across distantly related bacterial species. In this work, the synthesis of pure enantiomers of C4-propoxy-HPD and C4-ethoxy-HPD, known AI-2 analogues, has been developed. The optimised synthesis is efficient, reproducible and short. The (4S) enantiomer of C4-propoxy-HPD was the most active compound being approximately twice as efficient as (4S)-DPD and ten-times more potent than the (4R) enantiomer. Additionally, the specificity of this analogue to bacteria with LuxP receptors makes it a good candidate for clinical applications, because it is not susceptible to scavenging by LsrB-containing bacteria that degrade the natural AI-2. All in all, this study provides a new brief and effective synthesis of isomerically pure analogues for QS modulation that include the most active AI-2 agonist described so far.</description><subject>AI-2</subject><subject>Anti-Bacterial Agents - chemical synthesis</subject><subject>Anti-Bacterial Agents - metabolism</subject><subject>Anti-Bacterial Agents - pharmacology</subject><subject>Bacterial Proteins - metabolism</subject><subject>Carrier Proteins - metabolism</subject><subject>DPD</subject><subject>DPD agonists</subject><subject>DPD analogues</subject><subject>Escherichia coli - physiology</subject><subject>Escherichia coli Proteins - metabolism</subject><subject>Pentanones - chemical synthesis</subject><subject>Pentanones - metabolism</subject><subject>Pentanones - pharmacology</subject><subject>Quorum sensing</subject><subject>Quorum Sensing - drug effects</subject><subject>Stereoisomerism</subject><subject>Vibrio - physiology</subject><issn>0045-2068</issn><issn>1090-2120</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kE1r3DAQhkVoSDYf_6AUHXuxOyPbsn0plJC2gUAPyV3I8nijxSt5JXlh_328OO2xp4GZZ2Z4H8Y-I-QIKL_t8s56H7a5AGxyFDkIccE2CC1kAgV8YhuAssoEyOaa3cS4A0Asa3nFrguQsDDthumXk0tvFG3k2vV8OTn6rTV65Noke7TpxP3ANZ98Ipe4n9J5OJ74NAfiek7eun42FDLBD7MP855HctG6Lddb72xMd-xy0GOk-496y15_Pr4-_M6e__x6evjxnJkKIGVDT00pZSvqwRhoKiFbqhAbWJqV0UMljKaiaevOSJRYQl3Uuqt038laFljcsq_r2Sn4w0wxqb2NhsZRO_JzVAJlcc7fygUtV9QEH2OgQU3B7nU4KQR1dqt2anWrzm4VCrW4Xda-fHyYuz31_5b-ylyA7ytAS8yjpaCiseQM9TaQSar39v8f3gGCm40d</recordid><startdate>201904</startdate><enddate>201904</enddate><creator>Ascenso, Osvaldo S.</creator><creator>Torcato, Inês M.</creator><creator>Miguel, Ana Sofia</creator><creator>Marques, João C.</creator><creator>Xavier, Karina B.</creator><creator>Ventura, M. 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subjects	AI-2 Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - metabolism Anti-Bacterial Agents - pharmacology Bacterial Proteins - metabolism Carrier Proteins - metabolism DPD DPD agonists DPD analogues Escherichia coli - physiology Escherichia coli Proteins - metabolism Pentanones - chemical synthesis Pentanones - metabolism Pentanones - pharmacology Quorum sensing Quorum Sensing - drug effects Stereoisomerism Vibrio - physiology
title	Synthesis and biological activity of a potent optically pure autoinducer-2 quorum sensing agonist
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