An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission

Signaling pathways controlled by reversible protein phosphorylation (catalyzed by kinases and phosphatases) in the malaria parasite Plasmodium are of great interest, for both increased understanding of parasite biology and identification of novel drug targets. Here, we report a functional analysis i...

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Autores principales: Patzewitz, Eva-Maria, Guttery, David S., Poulin, Benoit, Ramakrishnan, Chandra, Ferguson, David J.P., Wall, Richard J., Brady, Declan, Holder, Anthony A., Szöőr, Balázs, Tewari, Rita
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2013
Materias:
Report
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3617505/
https://www.ncbi.nlm.nih.gov/pubmed/23434509
http://dx.doi.org/10.1016/j.celrep.2013.01.032
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author Patzewitz, Eva-Maria
Guttery, David S.
Poulin, Benoit
Ramakrishnan, Chandra
Ferguson, David J.P.
Wall, Richard J.
Brady, Declan
Holder, Anthony A.
Szöőr, Balázs
Tewari, Rita
author_facet Patzewitz, Eva-Maria
Guttery, David S.
Poulin, Benoit
Ramakrishnan, Chandra
Ferguson, David J.P.
Wall, Richard J.
Brady, Declan
Holder, Anthony A.
Szöőr, Balázs
Tewari, Rita
author_sort Patzewitz, Eva-Maria
collection PubMed
description Signaling pathways controlled by reversible protein phosphorylation (catalyzed by kinases and phosphatases) in the malaria parasite Plasmodium are of great interest, for both increased understanding of parasite biology and identification of novel drug targets. Here, we report a functional analysis in Plasmodium of an ancient bacterial Shewanella-like protein phosphatase (SHLP1) found only in bacteria, fungi, protists, and plants. SHLP1 is abundant in asexual blood stages and expressed at all stages of the parasite life cycle. shlp1 deletion results in a reduction in ookinete (zygote) development, microneme formation, and complete ablation of oocyst formation, thereby blocking parasite transmission. This defect is carried by the female gamete and can be rescued by direct injection of mutant ookinetes into the mosquito hemocoel, where oocysts develop. This study emphasizes the varied functions of SHLP1 in Plasmodium ookinete biology and suggests that it could be a novel drug target for blocking parasite transmission.
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spelling pubmed-36175052013-04-05 An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission Patzewitz, Eva-Maria Guttery, David S. Poulin, Benoit Ramakrishnan, Chandra Ferguson, David J.P. Wall, Richard J. Brady, Declan Holder, Anthony A. Szöőr, Balázs Tewari, Rita Cell Rep Report Signaling pathways controlled by reversible protein phosphorylation (catalyzed by kinases and phosphatases) in the malaria parasite Plasmodium are of great interest, for both increased understanding of parasite biology and identification of novel drug targets. Here, we report a functional analysis in Plasmodium of an ancient bacterial Shewanella-like protein phosphatase (SHLP1) found only in bacteria, fungi, protists, and plants. SHLP1 is abundant in asexual blood stages and expressed at all stages of the parasite life cycle. shlp1 deletion results in a reduction in ookinete (zygote) development, microneme formation, and complete ablation of oocyst formation, thereby blocking parasite transmission. This defect is carried by the female gamete and can be rescued by direct injection of mutant ookinetes into the mosquito hemocoel, where oocysts develop. This study emphasizes the varied functions of SHLP1 in Plasmodium ookinete biology and suggests that it could be a novel drug target for blocking parasite transmission. Cell Press 2013-03-28 /pmc/articles/PMC3617505/ /pubmed/23434509 http://dx.doi.org/10.1016/j.celrep.2013.01.032 Text en © 2013 The Authors https://creativecommons.org/licenses/by-nc-nd/3.0/ Open Access under CC BY-NC-ND 3.0 (https://creativecommons.org/licenses/by-nc-nd/3.0/) license
spellingShingle Report
Patzewitz, Eva-Maria
Guttery, David S.
Poulin, Benoit
Ramakrishnan, Chandra
Ferguson, David J.P.
Wall, Richard J.
Brady, Declan
Holder, Anthony A.
Szöőr, Balázs
Tewari, Rita
An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission
title An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission
title_full An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission
title_fullStr An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission
title_full_unstemmed An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission
title_short An Ancient Protein Phosphatase, SHLP1, Is Critical to Microneme Development in Plasmodium Ookinetes and Parasite Transmission
title_sort ancient protein phosphatase, shlp1, is critical to microneme development in plasmodium ookinetes and parasite transmission
topic Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3617505/
https://www.ncbi.nlm.nih.gov/pubmed/23434509
http://dx.doi.org/10.1016/j.celrep.2013.01.032
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