Wolbachia infection-responsive immune genes suppress Plasmodium falciparum infection in Anopheles stephensi

Vandana, Vandana; Dong, Shengzhang; Sheth, Tanaya; Sun, Qiang; Wen, Han; Maldonado, Amanda; Xi, Zhiyong; Dimopoulos, George

doi:10.1371/journal.ppat.1012145

Cited by 2 publications

(1 citation statement)

References 62 publications

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“…Protein PTMs could play a significant role in these tools’ actions. For instance, when Wolbachia interferes with the Plasmodium developmental cycle in mosquitoes [ 391 , 392 ], the mechanism—though only partially understood—might also involve protein PTMs.…”

Section: Discussionmentioning

confidence: 99%

Post-Translational Modifications of Proteins of Malaria Parasites during the Life Cycle

Schwarzer,

Skorokhod

2024

IJMS

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Post-translational modifications (PTMs) are essential for regulating protein functions, influencing various fundamental processes in eukaryotes. These include, but are not limited to, cell signaling, protein trafficking, the epigenetic control of gene expression, and control of the cell cycle, as well as cell proliferation, differentiation, and interactions between cells. In this review, we discuss protein PTMs that play a key role in the malaria parasite biology and its pathogenesis. Phosphorylation, acetylation, methylation, lipidation and lipoxidation, glycosylation, ubiquitination and sumoylation, nitrosylation and glutathionylation, all of which occur in malarial parasites, are reviewed. We provide information regarding the biological significance of these modifications along all phases of the complex life cycle of Plasmodium spp. Importantly, not only the parasite, but also the host and vector protein PTMs are often crucial for parasite growth and development. In addition to metabolic regulations, protein PTMs can result in epitopes that are able to elicit both innate and adaptive immune responses of the host or vector. We discuss some existing and prospective results from antimalarial drug discovery trials that target various PTM-related processes in the parasite or host.

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Section: Discussionmentioning

confidence: 99%

Post-Translational Modifications of Proteins of Malaria Parasites during the Life Cycle

Schwarzer,

Skorokhod

2024

IJMS

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The expanded immunoregulatory protease network in mosquitoes is governed by gene co-expression

Morejon,

Michel

2024

Preprint

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Serine protease cascades regulate key innate immune responses. In mosquitoes, these cascades involve clip-domain serine proteases and their non-catalytic homologs (CLIPs), forming a complex network whose make-up and structural organization is not fully understood. This study assessed the impact of 85 CLIPs on humoral immunity inAnopheles gambiae. By coupling RNAi with assays measuring antimicrobial activity and melanization, we identified 27 CLIPs as immunoregulators that together form two distinct subnetworks. CLIPs regulating antimicrobial activity were found to control infection resistance, as knockdowns reduced bacterial load and improved survival. Furthermore, our analysis of CLIP gene expression unveiled a novel immunoregulatory mechanism reliant on protease baseline co-expression rather than infection-induced upregulation. These findings underscore that despite its complexity mosquito immune regulation may be targeted for malaria interventions.

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Wolbachia infection-responsive immune genes suppress Plasmodium falciparum infection in Anopheles stephensi

Cited by 2 publications

References 62 publications

Post-Translational Modifications of Proteins of Malaria Parasites during the Life Cycle

Post-Translational Modifications of Proteins of Malaria Parasites during the Life Cycle

The expanded immunoregulatory protease network in mosquitoes is governed by gene co-expression

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