The use of liquid chromatography-atmospheric pressure chemical ionization mass spectrometry to explore the in vitro metabolism of cyanoalkyl piperidine derivatives

A LC/MS method using atmospheric pressure chemical ionization, positive ion mode and full scan to measure the in vitro metabolic stability of cyanoalkyl functionalized compounds with the human liver microsomes was employed. Percentage metabolism examined for the ﬁve cyanoalkyl piperidines revealed t...

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Veröffentlicht in:	Biomedical chromatography 2005-04, Vol.19 (3), p.245-249
Hauptverfasser:	Kantharaj, E., Ehmer, Peter B., De Wagter, Katie, Tuytelaars, An, Proost, Pascale E. A., Mackie, Claire, Gilissen, Ron A. H. J.
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Sprache:	eng
Schlagworte:	Chromatography, Liquid - methods cyanoalkyl drug discovery human liver microsomes Humans in vitro mass spectrometry metabolic stability metabolites Microsomes, Liver - metabolism Nitriles - analysis Nitriles - metabolism Piperidines - analysis Piperidines - metabolism Spectrometry, Mass, Electrospray Ionization
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container_title	Biomedical chromatography
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creator	Kantharaj, E. Ehmer, Peter B. De Wagter, Katie Tuytelaars, An Proost, Pascale E. A. Mackie, Claire Gilissen, Ron A. H. J.
description	A LC/MS method using atmospheric pressure chemical ionization, positive ion mode and full scan to measure the in vitro metabolic stability of cyanoalkyl functionalized compounds with the human liver microsomes was employed. Percentage metabolism examined for the ﬁve cyanoalkyl piperidines revealed the optimal chain length and positioning of these functions to produce the most metabolically stable compound. The 4‐cyanomethyl piperidine derivative was the most stable compound with 15% metabolism after 15 min incubation with human liver microsomes. In general, the major metabolites formed from the cyanoalkyl piperidine derivatives were due to oxidation of the cyanoalkyl chain or the piperidine fragment, resulting in a M+16 ion. However, the 2‐cyanomethyl piperidine derivative exhibited an interesting biotransformation pathway with unusual metabolite peaks corresponding to M+5, M‐11 and M+21 ions. Data‐dependent MS/MS scanning was used to generate daughter ion spectra from the parent compound and its metabolite peaks. Based on the fragmentation analysis, a carboxylic acid, aldehyde and oxidative metabolite of the carboxylic acid structure have been proposed for M+5, M‐11 and M+21 ions, respectively. Copyright © 2004 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/bmc.449
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However, the 2‐cyanomethyl piperidine derivative exhibited an interesting biotransformation pathway with unusual metabolite peaks corresponding to M+5, M‐11 and M+21 ions. Data‐dependent MS/MS scanning was used to generate daughter ion spectra from the parent compound and its metabolite peaks. Based on the fragmentation analysis, a carboxylic acid, aldehyde and oxidative metabolite of the carboxylic acid structure have been proposed for M+5, M‐11 and M+21 ions, respectively. 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A.</creatorcontrib><creatorcontrib>Mackie, Claire</creatorcontrib><creatorcontrib>Gilissen, Ron A. H. J.</creatorcontrib><title>The use of liquid chromatography-atmospheric pressure chemical ionization mass spectrometry to explore the in vitro metabolism of cyanoalkyl piperidine derivatives</title><title>Biomedical chromatography</title><addtitle>Biomed. Chromatogr</addtitle><description>A LC/MS method using atmospheric pressure chemical ionization, positive ion mode and full scan to measure the in vitro metabolic stability of cyanoalkyl functionalized compounds with the human liver microsomes was employed. Percentage metabolism examined for the ﬁve cyanoalkyl piperidines revealed the optimal chain length and positioning of these functions to produce the most metabolically stable compound. The 4‐cyanomethyl piperidine derivative was the most stable compound with 15% metabolism after 15 min incubation with human liver microsomes. In general, the major metabolites formed from the cyanoalkyl piperidine derivatives were due to oxidation of the cyanoalkyl chain or the piperidine fragment, resulting in a M+16 ion. However, the 2‐cyanomethyl piperidine derivative exhibited an interesting biotransformation pathway with unusual metabolite peaks corresponding to M+5, M‐11 and M+21 ions. Data‐dependent MS/MS scanning was used to generate daughter ion spectra from the parent compound and its metabolite peaks. Based on the fragmentation analysis, a carboxylic acid, aldehyde and oxidative metabolite of the carboxylic acid structure have been proposed for M+5, M‐11 and M+21 ions, respectively. Copyright © 2004 John Wiley & Sons, Ltd.</description><subject>Chromatography, Liquid - methods</subject><subject>cyanoalkyl</subject><subject>drug discovery</subject><subject>human liver microsomes</subject><subject>Humans</subject><subject>in vitro</subject><subject>mass spectrometry</subject><subject>metabolic stability</subject><subject>metabolites</subject><subject>Microsomes, Liver - metabolism</subject><subject>Nitriles - analysis</subject><subject>Nitriles - metabolism</subject><subject>Piperidines - analysis</subject><subject>Piperidines - metabolism</subject><subject>Spectrometry, Mass, Electrospray Ionization</subject><issn>0269-3879</issn><issn>1099-0801</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2005</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpFkUFv1DAQhS0EoktB_APkE5cqxY4TOznSLRSkZbkU9Wg59ixraseunSwNf4c_iqstcHojvW_mSfMQek3JOSWkfjd4fd40_RO0oqTvK9IR-hStSM37inWiP0Evcv5BCOl5LZ6jE9oWrYVYod_Xe8BzBhx22Nm72Rqs9yl4NYXvScX9UqnJhxz3kKzGMUHOc4LCgLdaOWzDaH-pqQj2KmecI-ip7MOUFjwFDPfRhbIwlRg74oMtJi6uGoKz2T_E6kWNQbnbxeFoY8kxdgRsynAohw-QX6JnO-UyvHrUU_Tt44fr9adq8_Xq8_r9prJ1x_pqIIyKetd1XDe0axsxcGO4hpYI0ygO9cBAEd5RMRgNRvRtpyjhWjWUMUYGdoreHu_GFO5myJP0NmtwTo0Q5iy5EKRvW1bAN4_gPHgwMibrVVrk37cW4OwI_LQOlv8-kQ9tydKWLG3Jiy_rIoWujrTNE9z_o1W6LZFMtPJmeyU3lxeX2-ZmKxn7A2Yumrc</recordid><startdate>200504</startdate><enddate>200504</enddate><creator>Kantharaj, E.</creator><creator>Ehmer, Peter B.</creator><creator>De Wagter, Katie</creator><creator>Tuytelaars, An</creator><creator>Proost, Pascale E. A.</creator><creator>Mackie, Claire</creator><creator>Gilissen, Ron A. H. J.</creator><general>John Wiley & Sons, Ltd</general><scope>BSCLL</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>7X8</scope></search><sort><creationdate>200504</creationdate><title>The use of liquid chromatography-atmospheric pressure chemical ionization mass spectrometry to explore the in vitro metabolism of cyanoalkyl piperidine derivatives</title><author>Kantharaj, E. ; Ehmer, Peter B. ; De Wagter, Katie ; Tuytelaars, An ; Proost, Pascale E. A. ; Mackie, Claire ; Gilissen, Ron A. H. 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J.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The use of liquid chromatography-atmospheric pressure chemical ionization mass spectrometry to explore the in vitro metabolism of cyanoalkyl piperidine derivatives</atitle><jtitle>Biomedical chromatography</jtitle><addtitle>Biomed. Chromatogr</addtitle><date>2005-04</date><risdate>2005</risdate><volume>19</volume><issue>3</issue><spage>245</spage><epage>249</epage><pages>245-249</pages><issn>0269-3879</issn><eissn>1099-0801</eissn><abstract>A LC/MS method using atmospheric pressure chemical ionization, positive ion mode and full scan to measure the in vitro metabolic stability of cyanoalkyl functionalized compounds with the human liver microsomes was employed. Percentage metabolism examined for the ﬁve cyanoalkyl piperidines revealed the optimal chain length and positioning of these functions to produce the most metabolically stable compound. The 4‐cyanomethyl piperidine derivative was the most stable compound with 15% metabolism after 15 min incubation with human liver microsomes. In general, the major metabolites formed from the cyanoalkyl piperidine derivatives were due to oxidation of the cyanoalkyl chain or the piperidine fragment, resulting in a M+16 ion. However, the 2‐cyanomethyl piperidine derivative exhibited an interesting biotransformation pathway with unusual metabolite peaks corresponding to M+5, M‐11 and M+21 ions. Data‐dependent MS/MS scanning was used to generate daughter ion spectra from the parent compound and its metabolite peaks. Based on the fragmentation analysis, a carboxylic acid, aldehyde and oxidative metabolite of the carboxylic acid structure have been proposed for M+5, M‐11 and M+21 ions, respectively. Copyright © 2004 John Wiley & Sons, Ltd.</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><pmid>15627277</pmid><doi>10.1002/bmc.449</doi><tpages>5</tpages></addata></record>
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subjects	Chromatography, Liquid - methods cyanoalkyl drug discovery human liver microsomes Humans in vitro mass spectrometry metabolic stability metabolites Microsomes, Liver - metabolism Nitriles - analysis Nitriles - metabolism Piperidines - analysis Piperidines - metabolism Spectrometry, Mass, Electrospray Ionization
title	The use of liquid chromatography-atmospheric pressure chemical ionization mass spectrometry to explore the in vitro metabolism of cyanoalkyl piperidine derivatives
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