A High-Throughput Assay to Identify Allosteric Inhibitors of the PLC-γ Isozymes Operating at Membranes

Huang, Wentao; Carr, Adam J.; Hajicek, Nicole; Sokolovski, Miri; Siraliev-Perez, Edhriz; Hardy, P Brian; Pearce, Kenneth H.; Sondek, John; Zhang, Qisheng

doi:10.1021/acs.biochem.0c00511

Cited by 7 publications

(8 citation statements)

References 46 publications

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“…PLCg activation is also induced by growth factor signaling, suggesting that targeted inhibition of PLCg could result in growth repression through Hippo pathway activation. Novel allosteric inhibitors with improved specificity and potency against PLCg are being developed (84), which may be explored in the future to drive RAP2-MAP4K4 mediated Hippo pathway activation and growth repression in growth factor activated tumors. A yeast two-hybrid screen for the identification of interactors of the 4.1, ezrin, radixin, moesin (FERM) domain of proline-rich tyrosine kinase 2 (PYK2) identified MAP4K4 as a binding partner (85).…”

Section: Pkcqmentioning

confidence: 99%

“…PLCγ activation is also induced by growth factor signaling, suggesting that targeted inhibition of PLCγ could result in growth repression through Hippo pathway activation. Novel allosteric inhibitors with improved specificity and potency against PLCγ are being developed ( 84 ), which may be explored in the future to drive RAP2-MAP4K4 mediated Hippo pathway activation and growth repression in growth factor activated tumors.…”

Section: Introductionmentioning

confidence: 99%

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The molecular basis of the dichotomous functionality of MAP4K4 in proliferation and cell motility control in cancer

Jovanović

Shen²,

Baumgärtner³

2022

Front. Oncol.

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The finely tuned integration of intra- and extracellular cues by components of the mitogen-activated protein kinase (MAPK) signaling pathways controls the mutually exclusive phenotypic manifestations of uncontrolled growth and tumor cell dissemination. The Ser/Thr kinase MAP4K4 is an upstream integrator of extracellular cues involved in both proliferation and cell motility control. Initially identified as an activator of the c-Jun N-terminal kinase (JNK), the discovery of diverse functions and additional effectors of MAP4K4 beyond JNK signaling has considerably broadened our understanding of this complex kinase. The implication of MAP4K4 in the regulation of cytoskeleton dynamics and cell motility provided essential insights into its role as a pro-metastatic kinase in cancer. However, the more recently revealed role of MAP4K4 as an activator of the Hippo tumor suppressor pathway has complicated the understanding of MAP4K4 as an oncogenic driver kinase. To develop a better understanding of the diverse functions of MAP4K4 and their potential significance in oncogenesis and tumor progression, we have collected and assessed the current evidence of MAP4K4 implication in molecular mechanisms that control proliferation and promote cell motility. A better understanding of these mechanisms is particularly relevant in the brain, where MAP4K4 is highly expressed and under pathological conditions either drives neuronal cell death in neurodegenerative diseases or cell dissemination in malignant tumors. We review established effectors and present novel interactors of MAP4K4, which offer mechanistic insights into MAP4K4 function and may inspire novel intervention strategies. We discuss possible implications of novel interactors in tumor growth and dissemination and evaluate potential therapeutic strategies to selectively repress pro-oncogenic functions of MAP4K4.

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Section: Pkcqmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The molecular basis of the dichotomous functionality of MAP4K4 in proliferation and cell motility control in cancer

Jovanović

Shen²,

Baumgärtner³

2022

Front. Oncol.

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“…Lipid vesicles containing the fluorogenic substrate XY-69 was prepared as previously described 39,59 . Briefly, lipid vesicles were generated containing 0.46 µM XY-69, 57.6 µM phosphatidylinositol 4,5- bisphosphate (PIP2), and 230 µM phosphatidylethanolamine.…”

Section: Methodsmentioning

confidence: 99%

The crystal and cryo-EM structures of PLCγ2 reveal dynamic inter-domain recognitions in autoinhibition

Shin,

Plummer-Medeiros,

Mungenast

et al. 2023

Preprint

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Abstract/SummaryPhospholipase C gamma 2 (PLCγ2) plays important roles in cell signaling downstream of various membrane receptors. PLCγ2 contains a multi-domain inhibitory region critical for its regulation, while it has remained unclear how these domains contribute to PLCγ2 activity modulation. Here we determined three structures of human PLCγ2 in autoinhibited states, which reveal dynamic interactions at the autoinhibition interface, involving the conformational flexibility of the SH3 domain in the inhibitory region, and its previously unknown interaction with a C-terminal helical domain in the core region. We also determined a structure of PLCγ2 bound to the kinase domain of fibroblast growth factor receptor 1 (FGFR1), which demonstrates the recognition of FGFR1 by the nSH2 domain in the inhibitory region of PLCγ2. Our results provide new structural insights into PLCγ2 regulation that will facilitate future mechanistic studies to understand the entire activation process.

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“…Activating mutations for both PLCγ1 and PLCγ2 are known, and ATP has been shown to be an inhibitor of both enzymes [24]. To further validate the C16CF3-coumarin micelle assay, we measured the reaction of the substrate with the PLCγ1-D1665H and PLCγ2-P522R activating mutants in the presence or absence of ATP.…”

Section: Plcγ Enzyme Activating Mutations and Inhibitors With C16cf3-...mentioning

confidence: 99%

“…XY-69 is incorporated into a liposome and is currently considered the best assay for monitoring PLC enzymatic activity, because the substrate is only processed when the PLC enzyme is in contact with the membrane, thus mimicking the cellular environment [23]. The liposomal XY-69 assay is therefore more suitable to screen for allosteric inhibitors and of course can identify orthosteric inhibitors as well [24]. Unfortunately, suitable liposomes are tedious to prepare in large quantities and often suffer from high batch-to-batch variability.…”

Section: Introductionmentioning

confidence: 99%

A novel micellular fluorogenic substrate for quantitating the activity of 1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma (PLCγ) enzymes

Visvanathan,

Utsuki,

Beck

et al. 2024

PLoS ONE

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The activities of the phospholipase C gamma (PLCγ) 1 and 2 enzymes are essential for numerous cellular processes. Unsurprisingly, dysregulation of PLCγ1 or PLCγ2 activity is associated with multiple maladies including immune disorders, cancers, and neurodegenerative diseases. Therefore, the modulation of either of these two enzymes has been suggested as a therapeutic strategy to combat these diseases. To aid in the discovery of PLCγ family enzyme modulators that could be developed into therapeutic agents, we have synthesized a high-throughput screening-amenable micellular fluorogenic substrate called C16CF3-coumarin. Herein, the ability of PLCγ1 and PLCγ2 to enzymatically process C16CF3-coumarin was confirmed, the micellular assay conditions were optimized, and the kinetics of the reaction were determined. A proof-of-principle pilot screen of the Library of Pharmacologically Active Compounds 1280 (LOPAC1280) was performed. This new substrate allows for an additional screening methodology to identify modulators of the PLCγ family of enzymes.

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A High-Throughput Assay to Identify Allosteric Inhibitors of the PLC-γ Isozymes Operating at Membranes

Cited by 7 publications

References 46 publications

The molecular basis of the dichotomous functionality of MAP4K4 in proliferation and cell motility control in cancer

The molecular basis of the dichotomous functionality of MAP4K4 in proliferation and cell motility control in cancer

The crystal and cryo-EM structures of PLCγ2 reveal dynamic inter-domain recognitions in autoinhibition

A novel micellular fluorogenic substrate for quantitating the activity of 1-phosphatidylinositol 4,5-bisphosphate phosphodiesterase gamma (PLCγ) enzymes

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