Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake

The survival of Plasmodium spp. within the host red blood cell (RBC) depends on the function of a membrane protein complex, termed the Plasmodium translocon of exported proteins (PTEX), that exports certain parasite proteins, collectively referred to as the exportome, across the parasitophorous vacu...

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Autores principales: Low, Leanne M., Azasi, Yvonne, Sherling, Emma S., Garten, Matthias, Zimmerberg, Joshua, Tsuboi, Takafumi, Brzostowski, Joseph, Mu, Jianbing, Blackman, Michael J., Miller, Louis H.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2019
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6747712/
https://www.ncbi.nlm.nih.gov/pubmed/31289187
http://dx.doi.org/10.1128/mBio.01460-19
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author Low, Leanne M.
Azasi, Yvonne
Sherling, Emma S.
Garten, Matthias
Zimmerberg, Joshua
Tsuboi, Takafumi
Brzostowski, Joseph
Mu, Jianbing
Blackman, Michael J.
Miller, Louis H.
author_facet Low, Leanne M.
Azasi, Yvonne
Sherling, Emma S.
Garten, Matthias
Zimmerberg, Joshua
Tsuboi, Takafumi
Brzostowski, Joseph
Mu, Jianbing
Blackman, Michael J.
Miller, Louis H.
author_sort Low, Leanne M.
collection PubMed
description The survival of Plasmodium spp. within the host red blood cell (RBC) depends on the function of a membrane protein complex, termed the Plasmodium translocon of exported proteins (PTEX), that exports certain parasite proteins, collectively referred to as the exportome, across the parasitophorous vacuolar membrane (PVM) that encases the parasite in the host RBC cytoplasm. The core of PTEX consists of three proteins: EXP2, PTEX150, and the HSP101 ATPase; of these three proteins, only EXP2 is a membrane protein. Studying the PTEX-dependent transport of members of the exportome, we discovered that exported proteins, such as ring-infected erythrocyte surface antigen (RESA), failed to be transported in parasites in which the parasite rhoptry protein RON3 was conditionally disrupted. RON3-deficient parasites also failed to develop beyond the ring stage, and glucose uptake was significantly decreased. These findings provide evidence that RON3 influences two translocation functions, namely, transport of the parasite exportome through PTEX and the transport of glucose from the RBC cytoplasm to the parasitophorous vacuolar (PV) space where it can enter the parasite via the hexose transporter (HT) in the parasite plasma membrane.
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spelling pubmed-67477122019-09-17 Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake Low, Leanne M. Azasi, Yvonne Sherling, Emma S. Garten, Matthias Zimmerberg, Joshua Tsuboi, Takafumi Brzostowski, Joseph Mu, Jianbing Blackman, Michael J. Miller, Louis H. mBio Research Article The survival of Plasmodium spp. within the host red blood cell (RBC) depends on the function of a membrane protein complex, termed the Plasmodium translocon of exported proteins (PTEX), that exports certain parasite proteins, collectively referred to as the exportome, across the parasitophorous vacuolar membrane (PVM) that encases the parasite in the host RBC cytoplasm. The core of PTEX consists of three proteins: EXP2, PTEX150, and the HSP101 ATPase; of these three proteins, only EXP2 is a membrane protein. Studying the PTEX-dependent transport of members of the exportome, we discovered that exported proteins, such as ring-infected erythrocyte surface antigen (RESA), failed to be transported in parasites in which the parasite rhoptry protein RON3 was conditionally disrupted. RON3-deficient parasites also failed to develop beyond the ring stage, and glucose uptake was significantly decreased. These findings provide evidence that RON3 influences two translocation functions, namely, transport of the parasite exportome through PTEX and the transport of glucose from the RBC cytoplasm to the parasitophorous vacuolar (PV) space where it can enter the parasite via the hexose transporter (HT) in the parasite plasma membrane. American Society for Microbiology 2019-07-09 /pmc/articles/PMC6747712/ /pubmed/31289187 http://dx.doi.org/10.1128/mBio.01460-19 Text en https://doi.org/10.1128/AuthorWarrantyLicense.v1 This is a work of the U.S. Government and is not subject to copyright protection in the United States. Foreign copyrights may apply.
spellingShingle Research Article
Low, Leanne M.
Azasi, Yvonne
Sherling, Emma S.
Garten, Matthias
Zimmerberg, Joshua
Tsuboi, Takafumi
Brzostowski, Joseph
Mu, Jianbing
Blackman, Michael J.
Miller, Louis H.
Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake
title Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake
title_full Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake
title_fullStr Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake
title_full_unstemmed Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake
title_short Deletion of Plasmodium falciparum Protein RON3 Affects the Functional Translocation of Exported Proteins and Glucose Uptake
title_sort deletion of plasmodium falciparum protein ron3 affects the functional translocation of exported proteins and glucose uptake
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6747712/
https://www.ncbi.nlm.nih.gov/pubmed/31289187
http://dx.doi.org/10.1128/mBio.01460-19
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