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Rational design of small molecule inhibitors targeting the Rac GTPase-p67(phox) signaling axis in inflammation.


ABSTRACT: The NADPH oxidase enzyme complex, NOX2, is responsible for reactive oxygen species production in neutrophils and has been recognized as a key mediator of inflammation. Here, we have performed rational design and in silico screen to identify a small molecule inhibitor, Phox-I1, targeting the interactive site of p67(phox) with Rac GTPase, which is a necessary step of the signaling leading to NOX2 activation. Phox-I1 binds to p67(phox) with a submicromolar affinity and abrogates Rac1 binding and is effective in inhibiting NOX2-mediated superoxide production dose-dependently in human and murine neutrophils without detectable toxicity. Medicinal chemistry characterizations have yielded promising analogs and initial information of the structure-activity relationship of Phox-I1. Our studies suggest the potential utility of Phox-I class inhibitors in NOX2 oxidase inhibition and present an application of rational targeting of a small GTPase-effector interface.

SUBMITTER: Bosco EE 

PROVIDER: S-EPMC3292765 | biostudies-literature | 2012 Feb

REPOSITORIES: biostudies-literature

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Rational design of small molecule inhibitors targeting the Rac GTPase-p67(phox) signaling axis in inflammation.

Bosco Emily E EE   Kumar Sachin S   Marchioni Filippo F   Biesiada Jacek J   Kordos Miroslaw M   Szczur Kathleen K   Meller Jarek J   Seibel William W   Mizrahi Ariel A   Pick Edgar E   Filippi Marie-Dominique MD   Zheng Yi Y  

Chemistry & biology 20120201 2


The NADPH oxidase enzyme complex, NOX2, is responsible for reactive oxygen species production in neutrophils and has been recognized as a key mediator of inflammation. Here, we have performed rational design and in silico screen to identify a small molecule inhibitor, Phox-I1, targeting the interactive site of p67(phox) with Rac GTPase, which is a necessary step of the signaling leading to NOX2 activation. Phox-I1 binds to p67(phox) with a submicromolar affinity and abrogates Rac1 binding and is  ...[more]

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