Invasion of hepatocytes by Plasmodium sporozoites requires cGMP‐dependent protein kinase and calcium dependent protein kinase 4

Summary Invasion of hepatocytes by sporozoites is essential for Plasmodium to initiate infection of the mammalian host. The parasite's subsequent intracellular differentiation in the liver is the first developmental step of its mammalian cycle. Despite their biological significance, surprisingl...

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Published in:Molecular microbiology 2016-10, Vol.102 (2), p.349-363
Main Authors: Govindasamy, K., Jebiwott, S., Jaijyan, D. K., Davidow, A., Ojo, K. K., Van Voorhis, W. C., Brochet, M., Billker, O., Bhanot, P.
Format: Article
Language:English
Subjects:
Animals
Anopheles - parasitology
Calcium
Calcium - metabolism
Calcium-Binding Proteins - metabolism
Cyclic GMP - metabolism
Cyclic GMP-Dependent Protein Kinases - metabolism
Hep G2 Cells
Hepatocytes - metabolism
Hepatocytes - parasitology
Humans
Kinases
Motility
Parasites
Plasmodium berghei
Plasmodium berghei - enzymology
Plasmodium berghei - genetics
Plasmodium berghei - metabolism
Plasmodium falciparum - enzymology
Plasmodium falciparum - genetics
Plasmodium falciparum - metabolism
Protein Kinases - metabolism
Proteins
Protozoan Proteins - metabolism
Signal Transduction
Sporozoites - metabolism
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cited_by cdi_FETCH-LOGICAL-c6946-ee44ab70a2859498acc49df24d50fd0d5e8c073f3969da7ec14061e771cb5df33
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container_title Molecular microbiology
container_volume 102
creator Govindasamy, K.
Jebiwott, S.
Jaijyan, D. K.
Davidow, A.
Ojo, K. K.
Van Voorhis, W. C.
Brochet, M.
Billker, O.
Bhanot, P.
description Summary Invasion of hepatocytes by sporozoites is essential for Plasmodium to initiate infection of the mammalian host. The parasite's subsequent intracellular differentiation in the liver is the first developmental step of its mammalian cycle. Despite their biological significance, surprisingly little is known of the signalling pathways required for sporozoite invasion. We report that sporozoite invasion of hepatocytes requires signalling through two second‐messengers – cGMP mediated by the parasite's cGMP‐dependent protein kinase (PKG), and Ca2+, mediated by the parasite's calcium‐dependent protein kinase 4 (CDPK4). Sporozoites expressing a mutated form of Plasmodium berghei PKG or carrying a deletion of the CDPK4 gene are defective in invasion of hepatocytes. Using specific and potent inhibitors of Plasmodium PKG and CDPK4, we demonstrate that PKG and CDPK4 are required for sporozoite motility, and that PKG regulates the secretion of TRAP, an adhesin that is essential for motility. Chemical inhibition of PKG decreases parasite egress from hepatocytes by inhibiting either the formation or release of merosomes. In contrast, genetic inhibition of CDPK4 does not significantly decrease the number of merosomes. By revealing the requirement for PKG and CDPK4 in Plasmodium sporozoite invasion, our work enables a better understanding of kinase pathways that act in different Plasmodium stages. Malaria infection begins with the injection of Plasmodium sporozoites into humans by a feeding mosquito. We demonstrate that two parasite kinases, PKG and CDPK4 are crucial for sporozoite motility and consequently their entry into hepatocytes. Our results have implications for understanding the role of second messenger molecules, cGMP and Ca2+ in regulating the exo‐erythrocytic cycle of Plasmodium.
doi_str_mv 10.1111/mmi.13466
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K. ; Davidow, A. ; Ojo, K. K. ; Van Voorhis, W. C. ; Brochet, M. ; Billker, O. ; Bhanot, P.</creator><creatorcontrib>Govindasamy, K. ; Jebiwott, S. ; Jaijyan, D. K. ; Davidow, A. ; Ojo, K. K. ; Van Voorhis, W. C. ; Brochet, M. ; Billker, O. ; Bhanot, P.</creatorcontrib><description>Summary Invasion of hepatocytes by sporozoites is essential for Plasmodium to initiate infection of the mammalian host. The parasite's subsequent intracellular differentiation in the liver is the first developmental step of its mammalian cycle. Despite their biological significance, surprisingly little is known of the signalling pathways required for sporozoite invasion. We report that sporozoite invasion of hepatocytes requires signalling through two second‐messengers – cGMP mediated by the parasite's cGMP‐dependent protein kinase (PKG), and Ca2+, mediated by the parasite's calcium‐dependent protein kinase 4 (CDPK4). Sporozoites expressing a mutated form of Plasmodium berghei PKG or carrying a deletion of the CDPK4 gene are defective in invasion of hepatocytes. Using specific and potent inhibitors of Plasmodium PKG and CDPK4, we demonstrate that PKG and CDPK4 are required for sporozoite motility, and that PKG regulates the secretion of TRAP, an adhesin that is essential for motility. Chemical inhibition of PKG decreases parasite egress from hepatocytes by inhibiting either the formation or release of merosomes. In contrast, genetic inhibition of CDPK4 does not significantly decrease the number of merosomes. By revealing the requirement for PKG and CDPK4 in Plasmodium sporozoite invasion, our work enables a better understanding of kinase pathways that act in different Plasmodium stages. Malaria infection begins with the injection of Plasmodium sporozoites into humans by a feeding mosquito. 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Despite their biological significance, surprisingly little is known of the signalling pathways required for sporozoite invasion. We report that sporozoite invasion of hepatocytes requires signalling through two second‐messengers – cGMP mediated by the parasite's cGMP‐dependent protein kinase (PKG), and Ca2+, mediated by the parasite's calcium‐dependent protein kinase 4 (CDPK4). Sporozoites expressing a mutated form of Plasmodium berghei PKG or carrying a deletion of the CDPK4 gene are defective in invasion of hepatocytes. Using specific and potent inhibitors of Plasmodium PKG and CDPK4, we demonstrate that PKG and CDPK4 are required for sporozoite motility, and that PKG regulates the secretion of TRAP, an adhesin that is essential for motility. Chemical inhibition of PKG decreases parasite egress from hepatocytes by inhibiting either the formation or release of merosomes. In contrast, genetic inhibition of CDPK4 does not significantly decrease the number of merosomes. 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subjects Animals
Anopheles - parasitology
Calcium
Calcium - metabolism
Calcium-Binding Proteins - metabolism
Cyclic GMP - metabolism
Cyclic GMP-Dependent Protein Kinases - metabolism
Hep G2 Cells
Hepatocytes - metabolism
Hepatocytes - parasitology
Humans
Kinases
Motility
Parasites
Plasmodium berghei
Plasmodium berghei - enzymology
Plasmodium berghei - genetics
Plasmodium berghei - metabolism
Plasmodium falciparum - enzymology
Plasmodium falciparum - genetics
Plasmodium falciparum - metabolism
Protein Kinases - metabolism
Proteins
Protozoan Proteins - metabolism
Signal Transduction
Sporozoites - metabolism
title Invasion of hepatocytes by Plasmodium sporozoites requires cGMP‐dependent protein kinase and calcium dependent protein kinase 4
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