Proteome-wide comparison of tertiary protein structures reveals molecular mimicry in Plasmodium-human interactions

Muthye, Viraj; Wasmuth, James D.

doi:10.3389/fpara.2023.1162697

Front. Parasitol.

2023

DOI: 10.3389/fpara.2023.1162697

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Proteome-wide comparison of tertiary protein structures reveals molecular mimicry in Plasmodium-human interactions

Viraj Muthye

James D. Wasmuth

Abstract: IntroductionMolecular mimicry is a strategy used by parasites to evade the host’s immune system and facilitate transmission to a new host. To date, high-throughput examples of molecular mimicry have been limited to comparing protein sequences. However, recent advances in the prediction of tertiary structural models, led by Deepmind’s AlphaFold, enable the comparison of thousands of proteins from parasites and their hosts at the structural level, allowing for the identification of more mimics. Here, we present … Show more

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Cited by 3 publications

References 70 publications

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Diverse genetic conflicts mediated by molecular mimicry and computational approaches to detect them

Russell,

Penunuri,

Condon

2025

Seminars in Cell & Developmental Biology

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Diverse genetic conflicts mediated by molecular mimicry and computational approaches to detect them

Russell,

Penunuri,

Condon

2025

Seminars in Cell & Developmental Biology

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AlphaFold two years on: Validation and impact

Kovalevskiy,

Mateos-Garcia,

Tunyasuvunakool

2024

Proc. Natl. Acad. Sci. U.S.A.

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Two years on from the initial release of AlphaFold, we have seen its widespread adoption as a structure prediction tool. Here, we discuss some of the latest work based on AlphaFold, with a particular focus on its use within the structural biology community. This encompasses use cases like speeding up structure determination itself, enabling new computational studies, and building new tools and workflows. We also look at the ongoing validation of AlphaFold, as its predictions continue to be compared against large numbers of experimental structures to further delineate the model’s capabilities and limitations.

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Identification of potential molecular mimicry in pathogen-host interactions

Rich,

Srivastava,

Muthye

et al. 2023

PeerJ

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Pathogens have evolved sophisticated strategies to manipulate host signaling pathways, including the phenomenon of molecular mimicry, where pathogen-derived biomolecules imitate host biomolecules. In this study, we resurrected, updated, and optimized a sequence-based bioinformatics pipeline to identify potential molecular mimicry candidates between humans and 32 pathogenic species whose proteomes’ 3D structure predictions were available at the start of this study. We observed considerable variation in the number of mimicry candidates across pathogenic species, with pathogenic bacteria exhibiting fewer candidates compared to fungi and protozoans. Further analysis revealed that the candidate mimicry regions were enriched in solvent-accessible regions, highlighting their potential functional relevance. We identified a total of 1,878 mimicked regions in 1,439 human proteins, and clustering analysis indicated diverse target proteins across pathogen species. The human proteins containing mimicked regions revealed significant associations between these proteins and various biological processes, with an emphasis on host extracellular matrix organization and cytoskeletal processes. However, immune-related proteins were underrepresented as targets of mimicry. Our findings provide insights into the broad range of host-pathogen interactions mediated by molecular mimicry and highlight potential targets for further investigation. This comprehensive analysis contributes to our understanding of the complex mechanisms employed by pathogens to subvert host defenses and we provide a resource to assist researchers in the development of novel therapeutic strategies.

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Proteome-wide comparison of tertiary protein structures reveals molecular mimicry in Plasmodium-human interactions

Cited by 3 publications

References 70 publications

Diverse genetic conflicts mediated by molecular mimicry and computational approaches to detect them

Diverse genetic conflicts mediated by molecular mimicry and computational approaches to detect them

AlphaFold two years on: Validation and impact

Identification of potential molecular mimicry in pathogen-host interactions

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