Abstract
The gene encoding the Duffy blood group protein (Fy, CD234; additional designations Duffy Antigen Receptor of Chemokines [DARC] and Atypical Chemokine Receptor 1 [ACKR1]) is characterized by a SNP in a GATA-1 transcription factor binding site associated with the erythrocyte silent (ES) phenotype. FYES homozygous people are viewed to be highly resistant to blood stage infection with Plasmodium vivax. Increasingly, however, studies are reporting P. vivax infections in Fy-negative individuals across malarious African countries where FYES approaches genetic fixation. This suggests that P. vivax has evolved a Fy-independent RBC invasion pathway, or that the GATA-1 SNP does not abolish Fy expression. Here, we tested the second hypothesis through binding studies to erythroid lineage cells using recombinant P. vivax Duffy binding protein, the parasite’s invasion ligand and Fy6-specific antibodies. We first observed variable Fy expression on circulating RBCs, irrespective of FY genotype; FYES RBCs were periodically Fy-positive. Furthermore, during the in vitro erythroid differentiation of CD34+ cells and on ex vivo bone marrow samples, we observed Fy expression on erythroid precursor cells from FYES people. Finally, the Fy6-specific nanobody, CA111 was used to capture Fy from the surface of FYES RBCs. Our findings reveal that the GATA-1 SNP does not fully abolish Fy expression and provide insight on potential susceptibility of Fy-negative people to vivax malaria.
Significance Duffy blood group negativity results from a single nucleotide polymorphism (SNP) in the gene promoter, and reaches genetic fixation in many African ethnicities. Because the Duffy protein (Fy) is an important contact point during Plasmodium vivax human red blood cell invasion, Fy-negativity is considered to confer resistance to P. vivax malaria. With recent studies in African countries reporting P. vivax infection in Fy-negative people, we studied Fy expression across erythroid development. Here we report that the FY promoter SNP does not abolish Fy protein expression in erythroid progenitors developing in the bone marrow. These results further emphasizes the importance of reticulocytes as targets for P. vivax blood stage infection and propose a mechanism for P. vivax infections in Fy-negative people.