Carrie Lin scite author profile

Genome-wide association studies (GWAS) have ascertained numerous trait-associated common genetic variants, frequently localized to regulatory DNA. We find that common genetic variation at BCL11A associated with fetal hemoglobin (HbF) level lies in noncoding sequences decorated by an erythroid enhancer chromatin signature. Fine-mapping uncovers a motif-disrupting common variant associated with reduced transcription factor binding, modestly diminished BCL11A expression and elevated HbF. The surrounding sequences function in vivo as a developmental stage-specific lineage-restricted enhancer. Genome engineering reveals the enhancer is required in erythroid but not B-lymphoid cells for BCL11A expression. These findings illustrate how GWAS may expose functional variants of modest impact within causal elements essential for appropriate gene expression. We propose the GWAS-marked BCL11A enhancer represents an attractive target for therapeutic genome engineering for the β-hemoglobinopathies.

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Distinct Lineages of Feline Parvovirus Associated with Epizootic Outbreaks in Australia, New Zealand and the United Arab Emirates

Brussel

Carrai

Lin

et al. 2019

Viruses

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Feline panleukopenia (FPL), a frequently fatal disease of cats, is caused by feline parvovirus (FPV) or canine parvovirus (CPV). We investigated simultaneous outbreaks of FPL between 2014 and 2018 in Australia, New Zealand and the United Arab Emirates (UAE) where FPL outbreaks had not been reported for several decades. Case data from 989 cats and clinical samples from additional 113 cats were obtained to determine the cause of the outbreaks and epidemiological factors involved. Most cats with FPL were shelter-housed, 9 to 10 weeks old at diagnosis, unvaccinated, had not completed a primary vaccination series or had received vaccinations noncompliant with current guidelines. Analysis of parvoviral VP2 sequence data confirmed that all FPL cases were caused by FPV and not CPV. Phylogenetic analysis revealed that each of these outbreaks was caused by a distinct FPV, with two virus lineages present in eastern Australia and virus movement between different geographical locations. Viruses from the UAE outbreak formed a lineage of unknown origin. FPV vaccine virus was detected in the New Zealand cases, highlighting the difficulty of distinguishing the co-incidental shedding of vaccine virus in vaccinated cats. Inadequate vaccination coverage in shelter-housed cats was a common factor in all outbreaks, likely precipitating the multiple re-emergence of infection events.

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Common host variation drives malaria parasite fitness in healthy human red cells

Ebel

Kuypers²,

Lin

et al. 2021

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The replication of Plasmodium falciparum parasites within red blood cells (RBCs) causes severe disease in humans, especially in Africa. Deleterious alleles like hemoglobin S are well-known to confer strong resistance to malaria, but the effects of common RBC variation are largely undetermined. Here we collected fresh blood samples from 121 healthy donors, most with African ancestry, and performed exome sequencing, detailed RBC phenotyping, and parasite fitness assays. Over one third of healthy donors unknowingly carried alleles for G6PD deficiency or hemoglobinopathies, which were associated with characteristic RBC phenotypes. Among non-carriers alone, variation in RBC hydration, membrane deformability, and volume was strongly associated with P. falciparum growth rate. Common genetic variants in PIEZO1, SPTA1/SPTB, and several P. falciparum invasion receptors were also associated with parasite growth rate. Interestingly, we observed little or negative evidence for divergent selection on non-pathogenic RBC variation between Africans and Europeans. These findings suggest a model in which globally widespread variation in a moderate number of genes and phenotypes modulates P. falciparum fitness in RBCs.

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Common Host Variation Drives Malaria Parasite Fitness in Healthy Human Red Cells

Ebel

Kuypers²,

Lin

et al. 2020

SSRN Journal

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Common host variation drives malaria parasite fitness in healthy human red cells

Ebel

Kuypers²,

Lin

et al. 2020

Preprint

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SUMMARYThe replication of Plasmodium falciparum malaria parasites within red blood cells (RBCs) causes severe disease in humans, especially in Africa. The influence of host erythrocyte variation on parasite replication is largely uncharted, aside from a handful of deleterious alleles like sickle cell. Here, we integrated analyses of exome sequencing, RBC phenotyping, and parasite fitness assays on blood donated by 122 individuals, most with African ancestry. In donors lacking alleles for hemoglobinopathies or G6PD deficiency, RBC phenotypes including size, deformability, and hydration status explained 21-38% of the variation in parasite growth rate. Furthermore, non-pathogenic polymorphisms in 14 RBC proteins including SPTA1, PIEZO1, and ATP2B4 explained 45-70% of parasite growth variation. Interestingly, we observed little evidence for divergent selection on this variation between Africans and Europeans. These findings suggest a model in which widespread, non-pathogenic variation in a moderate number of genes strongly modulates P. falciparum fitness in RBCs.

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Carrie Lin

An Erythroid Enhancer of BCL11A Subject to Genetic Variation Determines Fetal Hemoglobin Level

Distinct Lineages of Feline Parvovirus Associated with Epizootic Outbreaks in Australia, New Zealand and the United Arab Emirates

Common host variation drives malaria parasite fitness in healthy human red cells

Common Host Variation Drives Malaria Parasite Fitness in Healthy Human Red Cells

Common host variation drives malaria parasite fitness in healthy human red cells

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