Bisubstrate Analogue Inhibitors of 6-Hydroxymethyl-7,8-dihydropterin Pyrophosphokinase: Synthesis and Biochemical and Crystallographic Studies

6-Hydroxymethyl-7,8-dihydropterin pyrophosphokinase (HPPK) catalyzes the transfer of pyrophosphate from ATP to 6-hydroxymethyl-7,8-dihydropterin (HP), leading to the biosynthesis of folate cofactors. Like other enzymes in the folate pathway, HPPK is an ideal target for the development of antimicrobi...

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Veröffentlicht in:	Journal of medicinal chemistry 2001-04, Vol.44 (9), p.1364-1371
Hauptverfasser:	Shi, Genbin, Blaszczyk, Jaroslaw, Ji, Xinhua, Yan, Honggao
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine Triphosphate - analogs & derivatives Adenosine Triphosphate - chemical synthesis Adenosine Triphosphate - chemistry Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - chemistry Antibacterial agents Antibiotics. Antiinfectious agents. Antiparasitic agents Biological and medical sciences Crystallography, X-Ray Diphosphotransferases - antagonists & inhibitors Enzyme Inhibitors - chemical synthesis Enzyme Inhibitors - chemistry Escherichia coli - chemistry Fluorometry Magnetic Resonance Spectroscopy Mass Spectrometry Medical sciences Molecular Structure Pharmacology. Drug treatments Protein Binding Pterins - chemical synthesis Pterins - chemistry Structure-Activity Relationship
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container_end_page	1371
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container_title	Journal of medicinal chemistry
container_volume	44
creator	Shi, Genbin Blaszczyk, Jaroslaw Ji, Xinhua Yan, Honggao
description	6-Hydroxymethyl-7,8-dihydropterin pyrophosphokinase (HPPK) catalyzes the transfer of pyrophosphate from ATP to 6-hydroxymethyl-7,8-dihydropterin (HP), leading to the biosynthesis of folate cofactors. Like other enzymes in the folate pathway, HPPK is an ideal target for the development of antimicrobial agents because the enzyme is essential for microorganisms but is absent from human and animals. Three bisubstrate analogues have been synthesized for HPPK and characterized by biochemical and X-ray crystallographic analyses. All three bisubstrate analogues consist of a pterin, an adenosine moiety, and a link composed of 2−4 phosphoryl groups. P -(6-Hydroxymethylpterin)-P -(5‘-adenosyl)diphosphate (HP2A, 5) shows little affinity and inhibitory activity for E. coli HPPK. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)triphosphate (HP3A, 6) shows moderate affinity and inhibitory activity with K d = 4.25 μM in the presence of Mg2+ and IC50 = 1.27 μM. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)tetraphosphate (HP4A, 7) shows the highest affinity and inhibitory activity with K d = 0.47 μM in the presence of Mg2+ and IC50 = 0.44 μM. The affinity of MgHP4A for HPPK is ∼116 and 76 times higher than that of MgADP and 6-hydroxymethylpterin, respectively. The crystal structure of HPPK in complex with 7 (HPPK·MgHP4A) has been determined at 1.85 Å resolution with a crystallographic R factor of 0.185. The crystal structure shows that 7 occupies both HP- and ATP-binding sites and induces significant conformational changes in HPPK. The biochemical and structural studies of the bisubstrate analogues indicate that the bisubstrate analogue approach can produce more potent inhibitors for HPPK and the minimum length of the link for a bisubstrate analogue is ∼7 Å.
doi_str_mv	10.1021/jm0004493
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Like other enzymes in the folate pathway, HPPK is an ideal target for the development of antimicrobial agents because the enzyme is essential for microorganisms but is absent from human and animals. Three bisubstrate analogues have been synthesized for HPPK and characterized by biochemical and X-ray crystallographic analyses. All three bisubstrate analogues consist of a pterin, an adenosine moiety, and a link composed of 2−4 phosphoryl groups. P -(6-Hydroxymethylpterin)-P -(5‘-adenosyl)diphosphate (HP2A, 5) shows little affinity and inhibitory activity for E. coli HPPK. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)triphosphate (HP3A, 6) shows moderate affinity and inhibitory activity with K d = 4.25 μM in the presence of Mg2+ and IC50 = 1.27 μM. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)tetraphosphate (HP4A, 7) shows the highest affinity and inhibitory activity with K d = 0.47 μM in the presence of Mg2+ and IC50 = 0.44 μM. The affinity of MgHP4A for HPPK is ∼116 and 76 times higher than that of MgADP and 6-hydroxymethylpterin, respectively. The crystal structure of HPPK in complex with 7 (HPPK·MgHP4A) has been determined at 1.85 Å resolution with a crystallographic R factor of 0.185. The crystal structure shows that 7 occupies both HP- and ATP-binding sites and induces significant conformational changes in HPPK. The biochemical and structural studies of the bisubstrate analogues indicate that the bisubstrate analogue approach can produce more potent inhibitors for HPPK and the minimum length of the link for a bisubstrate analogue is ∼7 Å.</description><identifier>ISSN: 0022-2623</identifier><identifier>EISSN: 1520-4804</identifier><identifier>DOI: 10.1021/jm0004493</identifier><identifier>PMID: 11311059</identifier><identifier>CODEN: JMCMAR</identifier><language>eng</language><publisher>Washington, DC: American Chemical Society</publisher><subject>Adenosine Triphosphate - analogs & derivatives ; Adenosine Triphosphate - chemical synthesis ; Adenosine Triphosphate - chemistry ; Anti-Bacterial Agents - chemical synthesis ; Anti-Bacterial Agents - chemistry ; Antibacterial agents ; Antibiotics. Antiinfectious agents. Antiparasitic agents ; Biological and medical sciences ; Crystallography, X-Ray ; Diphosphotransferases - antagonists & inhibitors ; Enzyme Inhibitors - chemical synthesis ; Enzyme Inhibitors - chemistry ; Escherichia coli - chemistry ; Fluorometry ; Magnetic Resonance Spectroscopy ; Mass Spectrometry ; Medical sciences ; Molecular Structure ; Pharmacology. 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Med. Chem</addtitle><description>6-Hydroxymethyl-7,8-dihydropterin pyrophosphokinase (HPPK) catalyzes the transfer of pyrophosphate from ATP to 6-hydroxymethyl-7,8-dihydropterin (HP), leading to the biosynthesis of folate cofactors. Like other enzymes in the folate pathway, HPPK is an ideal target for the development of antimicrobial agents because the enzyme is essential for microorganisms but is absent from human and animals. Three bisubstrate analogues have been synthesized for HPPK and characterized by biochemical and X-ray crystallographic analyses. All three bisubstrate analogues consist of a pterin, an adenosine moiety, and a link composed of 2−4 phosphoryl groups. P -(6-Hydroxymethylpterin)-P -(5‘-adenosyl)diphosphate (HP2A, 5) shows little affinity and inhibitory activity for E. coli HPPK. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)triphosphate (HP3A, 6) shows moderate affinity and inhibitory activity with K d = 4.25 μM in the presence of Mg2+ and IC50 = 1.27 μM. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)tetraphosphate (HP4A, 7) shows the highest affinity and inhibitory activity with K d = 0.47 μM in the presence of Mg2+ and IC50 = 0.44 μM. The affinity of MgHP4A for HPPK is ∼116 and 76 times higher than that of MgADP and 6-hydroxymethylpterin, respectively. The crystal structure of HPPK in complex with 7 (HPPK·MgHP4A) has been determined at 1.85 Å resolution with a crystallographic R factor of 0.185. The crystal structure shows that 7 occupies both HP- and ATP-binding sites and induces significant conformational changes in HPPK. The biochemical and structural studies of the bisubstrate analogues indicate that the bisubstrate analogue approach can produce more potent inhibitors for HPPK and the minimum length of the link for a bisubstrate analogue is ∼7 Å.</description><subject>Adenosine Triphosphate - analogs & derivatives</subject><subject>Adenosine Triphosphate - chemical synthesis</subject><subject>Adenosine Triphosphate - chemistry</subject><subject>Anti-Bacterial Agents - chemical synthesis</subject><subject>Anti-Bacterial Agents - chemistry</subject><subject>Antibacterial agents</subject><subject>Antibiotics. Antiinfectious agents. Antiparasitic agents</subject><subject>Biological and medical sciences</subject><subject>Crystallography, X-Ray</subject><subject>Diphosphotransferases - antagonists & inhibitors</subject><subject>Enzyme Inhibitors - chemical synthesis</subject><subject>Enzyme Inhibitors - chemistry</subject><subject>Escherichia coli - chemistry</subject><subject>Fluorometry</subject><subject>Magnetic Resonance Spectroscopy</subject><subject>Mass Spectrometry</subject><subject>Medical sciences</subject><subject>Molecular Structure</subject><subject>Pharmacology. Drug treatments</subject><subject>Protein Binding</subject><subject>Pterins - chemical synthesis</subject><subject>Pterins - chemistry</subject><subject>Structure-Activity Relationship</subject><issn>0022-2623</issn><issn>1520-4804</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpt0U2L1DAYB_AgijuuHvwCUhAFwWhe2rT1tltfdmHBhRm9hiRNbWbbZsyTwvbm1aNf0U9i1hnGi4eQtx9PHv5B6Cklbyhh9O12JITkec3voRUtGMF5RfL7aEUIY5gJxk_QI4BtQpwy_hCdUMopJUW9Qr_OHcwaYlDRZmeTGvy32WaXU--0iz5A5rtM4IulDf52GW3slwGXryvcuv7ubBdtcFN2vaRl7yGNGzcpsO9-__iZrZcp9hYcZGpqs3PnTW9HZ9Twd9-EBaIa0oNB7XpnsnWcW2fhMXrQqQHsk8N8ir58_LBpLvDV50-XzdkVVrwsIzZVbnmuRFvnttKEaNNxrdpaVBUnhhWVrQklSpOWacE1L2jOc1ryRK3WquKn6OW-7i7477OFKEcHxg6DmqyfQZYlEYKXRYKv9tAEDxBsJ3fBjSoskhJ5l7885p_ss0PRWY-2_ScPgSfw_AAUpCS6oCbj4Ojqoi6YSArvlYNob4-3KtxIUaae5OZ6LZv6_ddGbLhcJ_9i75UBufVzSB8J_2nvD2L1qvU</recordid><startdate>20010426</startdate><enddate>20010426</enddate><creator>Shi, Genbin</creator><creator>Blaszczyk, Jaroslaw</creator><creator>Ji, Xinhua</creator><creator>Yan, Honggao</creator><general>American Chemical Society</general><scope>BSCLL</scope><scope>IQODW</scope><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></search><sort><creationdate>20010426</creationdate><title>Bisubstrate Analogue Inhibitors of 6-Hydroxymethyl-7,8-dihydropterin Pyrophosphokinase: Synthesis and Biochemical and Crystallographic Studies</title><author>Shi, Genbin ; Blaszczyk, Jaroslaw ; Ji, Xinhua ; Yan, Honggao</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a377t-c84e34a6d94e8b00bcf3bad968830c258e9010ab0d2b63b351434173b00ebba83</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Adenosine Triphosphate - analogs & derivatives</topic><topic>Adenosine Triphosphate - chemical synthesis</topic><topic>Adenosine Triphosphate - chemistry</topic><topic>Anti-Bacterial Agents - chemical synthesis</topic><topic>Anti-Bacterial Agents - chemistry</topic><topic>Antibacterial agents</topic><topic>Antibiotics. Antiinfectious agents. Antiparasitic agents</topic><topic>Biological and medical sciences</topic><topic>Crystallography, X-Ray</topic><topic>Diphosphotransferases - antagonists & inhibitors</topic><topic>Enzyme Inhibitors - chemical synthesis</topic><topic>Enzyme Inhibitors - chemistry</topic><topic>Escherichia coli - chemistry</topic><topic>Fluorometry</topic><topic>Magnetic Resonance Spectroscopy</topic><topic>Mass Spectrometry</topic><topic>Medical sciences</topic><topic>Molecular Structure</topic><topic>Pharmacology. Drug treatments</topic><topic>Protein Binding</topic><topic>Pterins - chemical synthesis</topic><topic>Pterins - chemistry</topic><topic>Structure-Activity Relationship</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Shi, Genbin</creatorcontrib><creatorcontrib>Blaszczyk, Jaroslaw</creatorcontrib><creatorcontrib>Ji, Xinhua</creatorcontrib><creatorcontrib>Yan, Honggao</creatorcontrib><collection>Istex</collection><collection>Pascal-Francis</collection><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><jtitle>Journal of medicinal chemistry</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Shi, Genbin</au><au>Blaszczyk, Jaroslaw</au><au>Ji, Xinhua</au><au>Yan, Honggao</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Bisubstrate Analogue Inhibitors of 6-Hydroxymethyl-7,8-dihydropterin Pyrophosphokinase: Synthesis and Biochemical and Crystallographic Studies</atitle><jtitle>Journal of medicinal chemistry</jtitle><addtitle>J. Med. Chem</addtitle><date>2001-04-26</date><risdate>2001</risdate><volume>44</volume><issue>9</issue><spage>1364</spage><epage>1371</epage><pages>1364-1371</pages><issn>0022-2623</issn><eissn>1520-4804</eissn><coden>JMCMAR</coden><abstract>6-Hydroxymethyl-7,8-dihydropterin pyrophosphokinase (HPPK) catalyzes the transfer of pyrophosphate from ATP to 6-hydroxymethyl-7,8-dihydropterin (HP), leading to the biosynthesis of folate cofactors. Like other enzymes in the folate pathway, HPPK is an ideal target for the development of antimicrobial agents because the enzyme is essential for microorganisms but is absent from human and animals. Three bisubstrate analogues have been synthesized for HPPK and characterized by biochemical and X-ray crystallographic analyses. All three bisubstrate analogues consist of a pterin, an adenosine moiety, and a link composed of 2−4 phosphoryl groups. P -(6-Hydroxymethylpterin)-P -(5‘-adenosyl)diphosphate (HP2A, 5) shows little affinity and inhibitory activity for E. coli HPPK. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)triphosphate (HP3A, 6) shows moderate affinity and inhibitory activity with K d = 4.25 μM in the presence of Mg2+ and IC50 = 1.27 μM. P 1-(6-Hydroxymethylpterin)-P -(5‘-adenosyl)tetraphosphate (HP4A, 7) shows the highest affinity and inhibitory activity with K d = 0.47 μM in the presence of Mg2+ and IC50 = 0.44 μM. The affinity of MgHP4A for HPPK is ∼116 and 76 times higher than that of MgADP and 6-hydroxymethylpterin, respectively. The crystal structure of HPPK in complex with 7 (HPPK·MgHP4A) has been determined at 1.85 Å resolution with a crystallographic R factor of 0.185. The crystal structure shows that 7 occupies both HP- and ATP-binding sites and induces significant conformational changes in HPPK. The biochemical and structural studies of the bisubstrate analogues indicate that the bisubstrate analogue approach can produce more potent inhibitors for HPPK and the minimum length of the link for a bisubstrate analogue is ∼7 Å.</abstract><cop>Washington, DC</cop><pub>American Chemical Society</pub><pmid>11311059</pmid><doi>10.1021/jm0004493</doi><tpages>8</tpages></addata></record>
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subjects	Adenosine Triphosphate - analogs & derivatives Adenosine Triphosphate - chemical synthesis Adenosine Triphosphate - chemistry Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - chemistry Antibacterial agents Antibiotics. Antiinfectious agents. Antiparasitic agents Biological and medical sciences Crystallography, X-Ray Diphosphotransferases - antagonists & inhibitors Enzyme Inhibitors - chemical synthesis Enzyme Inhibitors - chemistry Escherichia coli - chemistry Fluorometry Magnetic Resonance Spectroscopy Mass Spectrometry Medical sciences Molecular Structure Pharmacology. Drug treatments Protein Binding Pterins - chemical synthesis Pterins - chemistry Structure-Activity Relationship
title	Bisubstrate Analogue Inhibitors of 6-Hydroxymethyl-7,8-dihydropterin Pyrophosphokinase: Synthesis and Biochemical and Crystallographic Studies
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