Structure-Based Optimization of Inhibitors of the Aspartic Protease Endothiapepsin

Alwin M Hartman; Milon Mondal; Nedyalka Radeva; Gerhard Klebe; Anna K H Hirsch

doi:10.3390/ijms160819184

Structure-Based Optimization of Inhibitors of the Aspartic Protease Endothiapepsin

Alwin M Hartman, Milon Mondal, Nedyalka Radeva, Gerhard Klebe, Anna K H Hirsch

Bio-organic Chemistry

Onderzoeksoutput › Academic › peer review

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Aspartic proteases are a class of enzymes that play a causative role in numerous diseases such as malaria (plasmepsins), Alzheimer's disease (β-secretase), fungal infections (secreted aspartic proteases), and hypertension (renin). We have chosen endothiapepsin as a model enzyme of this class of enzymes, for the design, preparation and biochemical evaluation of a new series of inhibitors of endothiapepsin. Here, we have optimized a hit, identified by de novo structure-based drug design (SBDD) and DCC, by using structure-based design approaches focusing on the optimization of an amide-π interaction. Biochemical results are in agreement with SBDD. These results will provide useful insights for future structure-based optimization of inhibitors for the real drug targets as well as insights into molecular recognition.

Originele taal-2	English
Pagina's (van-tot)	19184-94
Aantal pagina's	11
Tijdschrift	International Journal of Molecular Sciences
Volume	16
Nummer van het tijdschrift	8
DOI's	https://doi.org/10.3390/ijms160819184
Status	Published - 14-aug.-2015

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10.3390/ijms160819184Licentie: CC BY

Structure-Based Optimization of Inhibitors of the Aspartic Protease EndothiapepsinFinal publisher's version, 1,45 MBLicentie: CC BY
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title = "Structure-Based Optimization of Inhibitors of the Aspartic Protease Endothiapepsin",

abstract = "Aspartic proteases are a class of enzymes that play a causative role in numerous diseases such as malaria (plasmepsins), Alzheimer's disease (β-secretase), fungal infections (secreted aspartic proteases), and hypertension (renin). We have chosen endothiapepsin as a model enzyme of this class of enzymes, for the design, preparation and biochemical evaluation of a new series of inhibitors of endothiapepsin. Here, we have optimized a hit, identified by de novo structure-based drug design (SBDD) and DCC, by using structure-based design approaches focusing on the optimization of an amide-π interaction. Biochemical results are in agreement with SBDD. These results will provide useful insights for future structure-based optimization of inhibitors for the real drug targets as well as insights into molecular recognition.",

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T1 - Structure-Based Optimization of Inhibitors of the Aspartic Protease Endothiapepsin

AU - Hartman, Alwin M

AU - Mondal, Milon

AU - Radeva, Nedyalka

AU - Klebe, Gerhard

AU - Hirsch, Anna K H

PY - 2015/8/14

Y1 - 2015/8/14

N2 - Aspartic proteases are a class of enzymes that play a causative role in numerous diseases such as malaria (plasmepsins), Alzheimer's disease (β-secretase), fungal infections (secreted aspartic proteases), and hypertension (renin). We have chosen endothiapepsin as a model enzyme of this class of enzymes, for the design, preparation and biochemical evaluation of a new series of inhibitors of endothiapepsin. Here, we have optimized a hit, identified by de novo structure-based drug design (SBDD) and DCC, by using structure-based design approaches focusing on the optimization of an amide-π interaction. Biochemical results are in agreement with SBDD. These results will provide useful insights for future structure-based optimization of inhibitors for the real drug targets as well as insights into molecular recognition.

AB - Aspartic proteases are a class of enzymes that play a causative role in numerous diseases such as malaria (plasmepsins), Alzheimer's disease (β-secretase), fungal infections (secreted aspartic proteases), and hypertension (renin). We have chosen endothiapepsin as a model enzyme of this class of enzymes, for the design, preparation and biochemical evaluation of a new series of inhibitors of endothiapepsin. Here, we have optimized a hit, identified by de novo structure-based drug design (SBDD) and DCC, by using structure-based design approaches focusing on the optimization of an amide-π interaction. Biochemical results are in agreement with SBDD. These results will provide useful insights for future structure-based optimization of inhibitors for the real drug targets as well as insights into molecular recognition.

KW - HYDE SCORING FUNCTION

KW - X-RAY

KW - MEDICINAL CHEMISTRY

KW - CATALYTIC MECHANISM

KW - DRUG DESIGN

KW - NEUTRON

KW - PROTEINASES

KW - DIFFRACTION

KW - DISCOVERY

KW - structure based drug design

KW - INHIBITORS

KW - aspartic protease endothiapepsin

KW - molecular recognition

U2 - 10.3390/ijms160819184

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JO - International Journal of Molecular Sciences

JF - International Journal of Molecular Sciences

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ER -

Structure-Based Optimization of Inhibitors of the Aspartic Protease Endothiapepsin

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