Population-specific positive selection on low CR1 expression in malaria-endemic regions
Complement Receptor Type 1 (CR1) is a malaria-associated gene that encodes a transmembrane receptor of erythrocytes and is crucial for malaria parasite invasion. The expression of CR1 contributes to the rosetting of erythrocytes in the brain bloodstream, causing cerebral malaria, the most severe for...
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sg-ntu-dr.10356-1688132023-06-19T15:30:37Z Population-specific positive selection on low CR1 expression in malaria-endemic regions Lorenzini, Paolo Alberto Gusareva, Elena S. Ghosh, Amit Gourav Nurul Adilah Binte Ramli Preiser, Peter Rainer Kim, Hie Lim School of Biological Sciences Asian School of the Environment Singapore Centre for Environmental Life Sciences and Engineering (SCELSE) Science::Biological sciences Complement Receptor Malaria Complement Receptor Type 1 (CR1) is a malaria-associated gene that encodes a transmembrane receptor of erythrocytes and is crucial for malaria parasite invasion. The expression of CR1 contributes to the rosetting of erythrocytes in the brain bloodstream, causing cerebral malaria, the most severe form of the disease. Here, we study the history of adaptation against malaria by analyzing selection signals in the CR1 gene. We used whole-genome sequencing datasets of 907 healthy individuals from malaria-endemic and non-endemic populations. We detected robust positive selection in populations from the hyperendemic regions of East India and Papua New Guinea. Importantly, we identified a new adaptive variant, rs12034598, which is associated with a slower rate of erythrocyte sedimentation and is linked with a variant associated with low levels of CR1 expression. The combination of the variants likely drives natural selection. In addition, we identified a variant rs3886100 under positive selection in West Africans, which is also related to a low level of CR1 expression in the brain. Our study shows the fine-resolution history of positive selection in the CR1 gene and suggests a population-specific history of CR1 adaptation to malaria. Notably, our novel approach using population genomic analyses allows the identification of protective variants that reduce the risk of malaria infection without the need for patient samples or malaria individual medical records. Our findings contribute to understanding of human adaptation against cerebral malaria. Ministry of Education (MOE) Published version This research was supported by the Singapore Ministry of Education, Academic Research Fund Tier 1 (grant number 2017-T1-001-046 and grant number RG100/20). 2023-06-19T08:07:05Z 2023-06-19T08:07:05Z 2023 Journal Article Lorenzini, P. A., Gusareva, E. S., Ghosh, A. G., Nurul Adilah Binte Ramli, Preiser, P. R. & Kim, H. L. (2023). Population-specific positive selection on low CR1 expression in malaria-endemic regions. PloS One, 18(1), e0280282-. https://dx.doi.org/10.1371/journal.pone.0280282 1932-6203 https://hdl.handle.net/10356/168813 10.1371/journal.pone.0280282 36626386 2-s2.0-85146139793 1 18 e0280282 en 2017-T1-001-046 RG100/20 PloS One © 2023 Lorenzini et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. application/pdf |
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Science::Biological sciences Complement Receptor Malaria Lorenzini, Paolo Alberto Gusareva, Elena S. Ghosh, Amit Gourav Nurul Adilah Binte Ramli Preiser, Peter Rainer Kim, Hie Lim Population-specific positive selection on low CR1 expression in malaria-endemic regions |
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Complement Receptor Type 1 (CR1) is a malaria-associated gene that encodes a transmembrane receptor of erythrocytes and is crucial for malaria parasite invasion. The expression of CR1 contributes to the rosetting of erythrocytes in the brain bloodstream, causing cerebral malaria, the most severe form of the disease. Here, we study the history of adaptation against malaria by analyzing selection signals in the CR1 gene. We used whole-genome sequencing datasets of 907 healthy individuals from malaria-endemic and non-endemic populations. We detected robust positive selection in populations from the hyperendemic regions of East India and Papua New Guinea. Importantly, we identified a new adaptive variant, rs12034598, which is associated with a slower rate of erythrocyte sedimentation and is linked with a variant associated with low levels of CR1 expression. The combination of the variants likely drives natural selection. In addition, we identified a variant rs3886100 under positive selection in West Africans, which is also related to a low level of CR1 expression in the brain. Our study shows the fine-resolution history of positive selection in the CR1 gene and suggests a population-specific history of CR1 adaptation to malaria. Notably, our novel approach using population genomic analyses allows the identification of protective variants that reduce the risk of malaria infection without the need for patient samples or malaria individual medical records. Our findings contribute to understanding of human adaptation against cerebral malaria. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Lorenzini, Paolo Alberto Gusareva, Elena S. Ghosh, Amit Gourav Nurul Adilah Binte Ramli Preiser, Peter Rainer Kim, Hie Lim |
| format |
Article |
| author |
Lorenzini, Paolo Alberto Gusareva, Elena S. Ghosh, Amit Gourav Nurul Adilah Binte Ramli Preiser, Peter Rainer Kim, Hie Lim |
| author_sort |
Lorenzini, Paolo Alberto |
| title |
Population-specific positive selection on low CR1 expression in malaria-endemic regions |
| title_short |
Population-specific positive selection on low CR1 expression in malaria-endemic regions |
| title_full |
Population-specific positive selection on low CR1 expression in malaria-endemic regions |
| title_fullStr |
Population-specific positive selection on low CR1 expression in malaria-endemic regions |
| title_full_unstemmed |
Population-specific positive selection on low CR1 expression in malaria-endemic regions |
| title_sort |
population-specific positive selection on low cr1 expression in malaria-endemic regions |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168813 |
| _version_ |
1772826319410692096 |