Using a Genetically Encoded Sensor to Identify Inhibitors of Toxoplasma gondii Ca2+ Signaling

The life cycles of apicomplexan parasites progress in accordance with fluxes in cytosolic Ca2+. Such fluxes are necessary for events like motility and egress from host cells. We used genetically encoded Ca2+ indicators (GCaMPs) to develop a cell-based phenotypic screen for compounds that modulate Ca...

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Published in:The Journal of biological chemistry 2016-04, Vol.291 (18), p.9566-9580
Main Authors: Sidik, Saima M., Hortua Triana, Miryam A., Paul, Aditya S., El Bakkouri, Majida, Hackett, Caroline G., Tran, Fanny, Westwood, Nicholas J., Hui, Raymond, Zuercher, William J., Duraisingh, Manoj T., Moreno, Silvia N.J., Lourido, Sebastian
Format: Article
Language:English
Subjects:
calcium
calcium intracellular release
Calcium Signaling - drug effects
Cell Biology
Cyclic GMP-Dependent Protein Kinases - genetics
Cyclic GMP-Dependent Protein Kinases - metabolism
drug screening
Endoplasmic Reticulum - genetics
Endoplasmic Reticulum - metabolism
parasitology
Plasmodium falciparum - genetics
Plasmodium falciparum - metabolism
protein kinase G (PKG)
Protozoan Proteins - genetics
Protozoan Proteins - metabolism
Purinones - pharmacology
signal transduction
Toxoplasma - genetics
Toxoplasma - metabolism
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cited_by cdi_FETCH-LOGICAL-c439t-b693bf4441b40feada37cee2257a637699dce4958fa0ace955c174c88ddf8de93
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creator Sidik, Saima M.
Hortua Triana, Miryam A.
Paul, Aditya S.
El Bakkouri, Majida
Hackett, Caroline G.
Tran, Fanny
Westwood, Nicholas J.
Hui, Raymond
Zuercher, William J.
Duraisingh, Manoj T.
Moreno, Silvia N.J.
Lourido, Sebastian
description The life cycles of apicomplexan parasites progress in accordance with fluxes in cytosolic Ca2+. Such fluxes are necessary for events like motility and egress from host cells. We used genetically encoded Ca2+ indicators (GCaMPs) to develop a cell-based phenotypic screen for compounds that modulate Ca2+ signaling in the model apicomplexan Toxoplasma gondii. In doing so, we took advantage of the phosphodiesterase inhibitor zaprinast, which we show acts in part through cGMP-dependent protein kinase (protein kinase G; PKG) to raise levels of cytosolic Ca2+. We define the pool of Ca2+ regulated by PKG to be a neutral store distinct from the endoplasmic reticulum. Screening a library of 823 ATP mimetics, we identify both inhibitors and enhancers of Ca2+ signaling. Two such compounds constitute novel PKG inhibitors and prevent zaprinast from increasing cytosolic Ca2+. The enhancers identified are capable of releasing intracellular Ca2+ stores independently of zaprinast or PKG. One of these enhancers blocks parasite egress and invasion and shows strong antiparasitic activity against T. gondii. The same compound inhibits invasion of the most lethal malaria parasite, Plasmodium falciparum. Inhibition of Ca2+-related phenotypes in these two apicomplexan parasites suggests that depletion of intracellular Ca2+ stores by the enhancer may be an effective antiparasitic strategy. These results establish a powerful new strategy for identifying compounds that modulate the essential parasite signaling pathways regulated by Ca2+, underscoring the importance of these pathways and the therapeutic potential of their inhibition.
doi_str_mv 10.1074/jbc.M115.703546
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source Open Access: PubMed Central; ScienceDirect Journals
subjects calcium
calcium intracellular release
Calcium Signaling - drug effects
Cell Biology
Cyclic GMP-Dependent Protein Kinases - genetics
Cyclic GMP-Dependent Protein Kinases - metabolism
drug screening
Endoplasmic Reticulum - genetics
Endoplasmic Reticulum - metabolism
parasitology
Plasmodium falciparum - genetics
Plasmodium falciparum - metabolism
protein kinase G (PKG)
Protozoan Proteins - genetics
Protozoan Proteins - metabolism
Purinones - pharmacology
signal transduction
Toxoplasma - genetics
Toxoplasma - metabolism
title Using a Genetically Encoded Sensor to Identify Inhibitors of Toxoplasma gondii Ca2+ Signaling
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