Red blood cell signaling is functionally conserved in Plasmodium invasion

Red blood cell signaling is functionally conserved in Plasmodium invasion

It is widely recognized that Plasmodium merozoites secrete ligands that interact with RBC receptors. Meanwhile the question on whether these interactions trigger RBC signals essential for invasion remains unresolved. There is evidence that Plasmodium falciparum parasites manipulate native RBC Ca2+ s...

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Main Authors: Yong, James Jia Ming, Gao, Xiaohong, Prakash, Prem, Ang, Jing Wen, Lai, Soak Kuan, Chen, Ming Wei, Neo, Jason Jun Long, Lescar, Julien, Li, Hoi Yeung, Preiser, Peter Rainer
Other Authors: School of Biological Sciences
Format: Article
Language:English
Published: 2025
Subjects:
Medicine, Health and Life Sciences
Plasmodium invasion
Red blood cell signaling
Online Access:https://hdl.handle.net/10356/182117
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1821172025-01-13T15:32:34Z Red blood cell signaling is functionally conserved in Plasmodium invasion Yong, James Jia Ming Gao, Xiaohong Prakash, Prem Ang, Jing Wen Lai, Soak Kuan Chen, Ming Wei Neo, Jason Jun Long Lescar, Julien Li, Hoi Yeung Preiser, Peter Rainer School of Biological Sciences Medicine, Health and Life Sciences Plasmodium invasion Red blood cell signaling It is widely recognized that Plasmodium merozoites secrete ligands that interact with RBC receptors. Meanwhile the question on whether these interactions trigger RBC signals essential for invasion remains unresolved. There is evidence that Plasmodium falciparum parasites manipulate native RBC Ca2+ signaling to facilitate invasion. Here, we demonstrate a key role of RBC Ca2+ influx that is conserved across different Plasmodium species during invasion. RH5-basigin interaction triggers RBC cAMP increase to promote Ca2+ influx. The RBC signaling pathways can be blocked by a range of inhibitors during Plasmodium invasion, providing the evidence of a functionally conserved host cAMP-Ca2+ signaling that drives invasion and junction formation. Furthermore, RH5-basigin binding induces a pre-existing multimeric RBC membrane complex to undergo increased protein association containing the cAMP-inducing β-adrenergic receptor. Our work presents evidence of a conserved host cell signaling cascade necessary for Plasmodium invasion and will create opportunities to therapeutically target merozoite invasion. Published version This research is supported by Singapore Ministry of Education Academic Research Fund Tier 2 (MOE2017-T2-1-034, MOE-T2EP30121-0013 and MOE2019-T3-1-007). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. 2025-01-08T07:05:05Z 2025-01-08T07:05:05Z 2024 Journal Article Yong, J. J. M., Gao, X., Prakash, P., Ang, J. W., Lai, S. K., Chen, M. W., Neo, J. J. L., Lescar, J., Li, H. Y. & Preiser, P. R. (2024). Red blood cell signaling is functionally conserved in Plasmodium invasion. IScience, 27(10), 111052-. https://dx.doi.org/10.1016/j.isci.2024.111052 2589-0042 https://hdl.handle.net/10356/182117 10.1016/j.isci.2024.111052 39635131 2-s2.0-85207761334 10 27 111052 en MOE2017-T2-1-034 MOE-T2EP30121-0013 MOE2019-T3-1-007 iScience © 2024 The Author(s). Published by Elsevier Inc. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Medicine, Health and Life Sciences
Plasmodium invasion
Red blood cell signaling
spellingShingle Medicine, Health and Life Sciences
Plasmodium invasion
Red blood cell signaling
Yong, James Jia Ming
Gao, Xiaohong
Prakash, Prem
Ang, Jing Wen
Lai, Soak Kuan
Chen, Ming Wei
Neo, Jason Jun Long
Lescar, Julien
Li, Hoi Yeung
Preiser, Peter Rainer
Red blood cell signaling is functionally conserved in Plasmodium invasion
description It is widely recognized that Plasmodium merozoites secrete ligands that interact with RBC receptors. Meanwhile the question on whether these interactions trigger RBC signals essential for invasion remains unresolved. There is evidence that Plasmodium falciparum parasites manipulate native RBC Ca2+ signaling to facilitate invasion. Here, we demonstrate a key role of RBC Ca2+ influx that is conserved across different Plasmodium species during invasion. RH5-basigin interaction triggers RBC cAMP increase to promote Ca2+ influx. The RBC signaling pathways can be blocked by a range of inhibitors during Plasmodium invasion, providing the evidence of a functionally conserved host cAMP-Ca2+ signaling that drives invasion and junction formation. Furthermore, RH5-basigin binding induces a pre-existing multimeric RBC membrane complex to undergo increased protein association containing the cAMP-inducing β-adrenergic receptor. Our work presents evidence of a conserved host cell signaling cascade necessary for Plasmodium invasion and will create opportunities to therapeutically target merozoite invasion.
author2 School of Biological Sciences
author_facet School of Biological Sciences
Yong, James Jia Ming
Gao, Xiaohong
Prakash, Prem
Ang, Jing Wen
Lai, Soak Kuan
Chen, Ming Wei
Neo, Jason Jun Long
Lescar, Julien
Li, Hoi Yeung
Preiser, Peter Rainer
format Article
author Yong, James Jia Ming
Gao, Xiaohong
Prakash, Prem
Ang, Jing Wen
Lai, Soak Kuan
Chen, Ming Wei
Neo, Jason Jun Long
Lescar, Julien
Li, Hoi Yeung
Preiser, Peter Rainer
author_sort Yong, James Jia Ming
title Red blood cell signaling is functionally conserved in Plasmodium invasion
title_short Red blood cell signaling is functionally conserved in Plasmodium invasion
title_full Red blood cell signaling is functionally conserved in Plasmodium invasion
title_fullStr Red blood cell signaling is functionally conserved in Plasmodium invasion
title_full_unstemmed Red blood cell signaling is functionally conserved in Plasmodium invasion
title_sort red blood cell signaling is functionally conserved in plasmodium invasion
publishDate 2025
url https://hdl.handle.net/10356/182117
_version_ 1821279339082153984

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