Structure-Activity Relationship of Antischistosomal Ozonide Carboxylic Acids

Jianbo Wu; Xiaofang Wang; Francis C.K. Chiu; Cécile Häberli; David M. Shackleford; Eileen Ryan; Sriraghavan Kamaraj; Vivek J. Bulbule; Alexander I. Wallick; Yuxiang Dong; Karen L. White; Paul H. Davis; Susan A. Charman; Jennifer Keiser; Jonathan L. Vennerstrom

doi:10.1021/acs.jmedchem.0c00069

Structure-Activity Relationship of Antischistosomal Ozonide Carboxylic Acids

Jianbo Wu
, Xiaofang Wang
, Francis C.K. Chiu
, Cécile Häberli
, David M. Shackleford
, Eileen Ryan
, Sriraghavan Kamaraj
, Vivek J. Bulbule
, Alexander I. Wallick
, Yuxiang Dong
, Karen L. White
, Paul H. Davis
, Susan A. Charman
, Jennifer Keiser
, Jonathan L. Vennerstrom

Nebraska Medicine
Monash University
Swiss Tropical and Public Health Institute
University of Basel
University of Nebraska Omaha

Research output: Contribution to journal › Article › peer-review

Abstract

Semisynthetic artemisinins and other bioactive peroxides are best known for their powerful antimalarial activities, and they also show substantial activity against schistosomes - another hemoglobin-degrading pathogen. Building on this discovery, we now describe the initial structure-activity relationship (SAR) of antischistosomal ozonide carboxylic acids OZ418 (2) and OZ165 (3). Irrespective of lipophilicity, these ozonide weak acids have relatively low aqueous solubilities and high protein binding values. Ozonides with para-substituted carboxymethoxy and N-benzylglycine substituents had high antischistosomal efficacies. It was possible to increase solubility, decrease protein binding, and maintain the high antischistosomal activity in mice infected with juvenile and adult Schistosoma mansoni by incorporating a weak base functional group in these compounds. In some cases, adding polar functional groups and heteroatoms to the spiroadamantane substructure increased the solubility and metabolic stability, but in all cases decreased the antischistosomal activity.

Original language	English
Pages (from-to)	3723-3736
Number of pages	14
Journal	Journal of Medicinal Chemistry
Volume	63
Issue number	7
DOIs	https://doi.org/10.1021/acs.jmedchem.0c00069
Publication status	Published - 9 Apr 2020
Externally published	Yes

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SDG 3 Good Health and Well-being

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10.1021/acs.jmedchem.0c00069

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Wu, J., Wang, X., Chiu, F. C. K., Häberli, C., Shackleford, D. M., Ryan, E., Kamaraj, S., Bulbule, V. J., Wallick, A. I., Dong, Y., White, K. L., Davis, P. H., Charman, S. A., Keiser, J., & Vennerstrom, J. L. (2020). Structure-Activity Relationship of Antischistosomal Ozonide Carboxylic Acids. Journal of Medicinal Chemistry, 63(7), 3723-3736. https://doi.org/10.1021/acs.jmedchem.0c00069

@article{fa95ceb0d7e14439a076a9cfa6debae8,

title = "Structure-Activity Relationship of Antischistosomal Ozonide Carboxylic Acids",

abstract = "Semisynthetic artemisinins and other bioactive peroxides are best known for their powerful antimalarial activities, and they also show substantial activity against schistosomes - another hemoglobin-degrading pathogen. Building on this discovery, we now describe the initial structure-activity relationship (SAR) of antischistosomal ozonide carboxylic acids OZ418 (2) and OZ165 (3). Irrespective of lipophilicity, these ozonide weak acids have relatively low aqueous solubilities and high protein binding values. Ozonides with para-substituted carboxymethoxy and N-benzylglycine substituents had high antischistosomal efficacies. It was possible to increase solubility, decrease protein binding, and maintain the high antischistosomal activity in mice infected with juvenile and adult Schistosoma mansoni by incorporating a weak base functional group in these compounds. In some cases, adding polar functional groups and heteroatoms to the spiroadamantane substructure increased the solubility and metabolic stability, but in all cases decreased the antischistosomal activity.",

author = "Jianbo Wu and Xiaofang Wang and Chiu, \{Francis C.K.\} and C{\'e}cile H{\"a}berli and Shackleford, \{David M.\} and Eileen Ryan and Sriraghavan Kamaraj and Bulbule, \{Vivek J.\} and Wallick, \{Alexander I.\} and Yuxiang Dong and White, \{Karen L.\} and Davis, \{Paul H.\} and Charman, \{Susan A.\} and Jennifer Keiser and Vennerstrom, \{Jonathan L.\}",

note = "Publisher Copyright: {\textcopyright} 2020 American Chemical Society.",

year = "2020",

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doi = "10.1021/acs.jmedchem.0c00069",

language = "English",

volume = "63",

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T1 - Structure-Activity Relationship of Antischistosomal Ozonide Carboxylic Acids

AU - Wu, Jianbo

AU - Wang, Xiaofang

AU - Chiu, Francis C.K.

AU - Häberli, Cécile

AU - Shackleford, David M.

AU - Ryan, Eileen

AU - Kamaraj, Sriraghavan

AU - Bulbule, Vivek J.

AU - Wallick, Alexander I.

AU - Dong, Yuxiang

AU - White, Karen L.

AU - Davis, Paul H.

AU - Charman, Susan A.

AU - Keiser, Jennifer

AU - Vennerstrom, Jonathan L.

PY - 2020/4/9

Y1 - 2020/4/9

N2 - Semisynthetic artemisinins and other bioactive peroxides are best known for their powerful antimalarial activities, and they also show substantial activity against schistosomes - another hemoglobin-degrading pathogen. Building on this discovery, we now describe the initial structure-activity relationship (SAR) of antischistosomal ozonide carboxylic acids OZ418 (2) and OZ165 (3). Irrespective of lipophilicity, these ozonide weak acids have relatively low aqueous solubilities and high protein binding values. Ozonides with para-substituted carboxymethoxy and N-benzylglycine substituents had high antischistosomal efficacies. It was possible to increase solubility, decrease protein binding, and maintain the high antischistosomal activity in mice infected with juvenile and adult Schistosoma mansoni by incorporating a weak base functional group in these compounds. In some cases, adding polar functional groups and heteroatoms to the spiroadamantane substructure increased the solubility and metabolic stability, but in all cases decreased the antischistosomal activity.

AB - Semisynthetic artemisinins and other bioactive peroxides are best known for their powerful antimalarial activities, and they also show substantial activity against schistosomes - another hemoglobin-degrading pathogen. Building on this discovery, we now describe the initial structure-activity relationship (SAR) of antischistosomal ozonide carboxylic acids OZ418 (2) and OZ165 (3). Irrespective of lipophilicity, these ozonide weak acids have relatively low aqueous solubilities and high protein binding values. Ozonides with para-substituted carboxymethoxy and N-benzylglycine substituents had high antischistosomal efficacies. It was possible to increase solubility, decrease protein binding, and maintain the high antischistosomal activity in mice infected with juvenile and adult Schistosoma mansoni by incorporating a weak base functional group in these compounds. In some cases, adding polar functional groups and heteroatoms to the spiroadamantane substructure increased the solubility and metabolic stability, but in all cases decreased the antischistosomal activity.

UR - https://www.scopus.com/pages/publications/85083081270

U2 - 10.1021/acs.jmedchem.0c00069

DO - 10.1021/acs.jmedchem.0c00069

M3 - Article

C2 - 32134263

AN - SCOPUS:85083081270

SN - 0022-2623

VL - 63

SP - 3723

EP - 3736

JO - Journal of Medicinal Chemistry

JF - Journal of Medicinal Chemistry

IS - 7

ER -

Structure-Activity Relationship of Antischistosomal Ozonide Carboxylic Acids

Abstract

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