M.L. Fowler scite author profile

M.L. Fowler

5Publications

74Citation Statements Received

185Citation Statements Given

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183

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University of Victoria

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Using hydrogen deuterium exchange mass spectrometry to engineer optimized constructs for crystallization of protein complexes: Case study of PI4KIIIβ with Rab11

et al. 2016

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The ability of proteins to bind and interact with protein partners plays fundamental roles in many cellular contexts. X‐ray crystallography has been a powerful approach to understand protein‐protein interactions; however, a challenge in the crystallization of proteins and their complexes is the presence of intrinsically disordered regions. In this article, we describe an application of hydrogen deuterium exchange mass spectrometry (HDX‐MS) to identify dynamic regions within type III phosphatidylinositol 4 kinase beta (PI4KIIIβ) in complex with the GTPase Rab11. This information was then used to design deletions that allowed for the production of diffraction quality crystals. Importantly, we also used HDX‐MS to verify that the new construct was properly folded, consistent with it being catalytically and functionally active. Structures of PI4KIIIβ in an Apo state and bound to the potent inhibitor BQR695 in complex with both GTPγS and GDP loaded Rab11 were determined. This hybrid HDX‐MS/crystallographic strategy revealed novel aspects of the PI4KIIIβ‐Rab11 complex, as well as the molecular mechanism of potency of a PI4K specific inhibitor (BQR695). This approach is widely applicable to protein‐protein complexes, and is an excellent strategy to optimize constructs for high‐resolution structural approaches.

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Design and Structural Characterization of Potent and Selective Inhibitors of Phosphatidylinositol 4 Kinase IIIβ

et al. 2016

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Type III Phosphatidylinositol 4-kinase (PI4KIIIβ) is an essential enzyme in mediating membrane trafficking, and is implicated in a variety of pathogenic processes. It is a key host factor mediating replication of RNA viruses. The design of potent and specific inhibitors of this enzyme will be essential to define its cellular roles, and may lead to novel anti-viral therapeutics. We previously reported the PI4K inhibitor PIK93, and this compound has defined key functions of PI4KIIIβ. However, this compound showed high cross reactivity with class I and III PI3Ks. Using structure-based drug design we have designed novel potent and selective (>1000 fold over class I and class III PI3Ks) PI4KIIIβ inhibitors. These compounds showed anti-viral activity against Hepatitis C Virus. The co-crystal structure of PI4KIIIβ bound to one of the most potent compounds reveals the molecular basis of specificity. This work will be vital in the design of novel PI4KIIIβ inhibitors, which may play significant roles as anti-viral therapeutics.

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Crystal structure of an engineered construct of phosphatidylinositol 4 kinase III beta with a potent and selective inhibitor in complex with GDP loaded Rab11

Burke¹,

Fowler²

2016

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Crystal structure of an engineered construct of phosphatidylinositol 4 kinase III beta with the inhibitor BQR695 in complex with GDP loaded Rab11

Burke¹,

Fowler²

2016

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Crystal structure of an engineered construct of phosphatidylinositol 4 kinase III beta in complex with GTP gamma S loaded Rab11

Burke¹,

Fowler²

2016

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M.L. Fowler

Using hydrogen deuterium exchange mass spectrometry to engineer optimized constructs for crystallization of protein complexes: Case study of PI4KIIIβ with Rab11

Design and Structural Characterization of Potent and Selective Inhibitors of Phosphatidylinositol 4 Kinase IIIβ

Crystal structure of an engineered construct of phosphatidylinositol 4 kinase III beta with a potent and selective inhibitor in complex with GDP loaded Rab11

Crystal structure of an engineered construct of phosphatidylinositol 4 kinase III beta with the inhibitor BQR695 in complex with GDP loaded Rab11

Crystal structure of an engineered construct of phosphatidylinositol 4 kinase III beta in complex with GTP gamma S loaded Rab11

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