Variation and impact of polygenic hematologic traits in monogenic sickle cell disease.
Pubmed ID: 36226494
Pubmed Central ID: PMC9973495
Journal: Haematologica
Publication Date: March 1, 2023
MeSH Terms: Humans, Anemia, Sickle Cell, Genome-Wide Association Study, Genotype, Stroke, Fetal Hemoglobin, Multifactorial Inheritance
Grants: R01 HL068959, R21 DK124836
Authors: Garrett ME, Telen MJ, Brugnara C, Lettre G, Bartolucci P, Lo KS, Ashley-Koch AE, Pincez T, D'Orengiani APHD, Galacteros F, Joly P
Cite As: Pincez T, Lo KS, D'Orengiani APHD, Garrett ME, Brugnara C, Ashley-Koch AE, Telen MJ, Galacteros F, Joly P, Bartolucci P, Lettre G. Variation and impact of polygenic hematologic traits in monogenic sickle cell disease. Haematologica 2023 Mar 1;108(3):870-881.
Studies:
Abstract
Several of the complications observed in sickle cell disease (SCD) are influenced by variation in hematologic traits (HT), such as fetal hemoglobin (HbF) level and neutrophil count. Previous large-scale genome-wide association studies carried out in largely healthy individuals have identified thousands of variants associated with HT, which have then been used to develop multi-ancestry polygenic trait scores (PTS). Here, we tested whether these PTS associate with HT in SCD patients and if they can improve statistical models associated with SCD-related complications. In 2,056 SCD patients, we found that the PTS predicted less HT variance than in non-SCD individuals of African ancestry. This was particularly striking at the Duffy/DARC locus, where we observed an epistatic interaction between the SCD genotype and the Duffy null variant (rs2814778) that led to a two-fold weaker effect on neutrophil count. PTS for these HT which are measured as part of routine practice were not associated with complications in SCD. In contrast, we found that a simple PTS for HbF that includes only six variants explained a large fraction of the phenotypic variation (20.5-27.1%), associated with acute chest syndrome and stroke risk, and improved the statistical modeling of the vaso-occlusive crisis rate. Using Mendelian randomization, we found that increasing HbF by 4.8% reduces stroke risk by 39% (P=0.0006). Taken together, our results highlight the importance of validating PTS in large diseased populations before proposing their implementation in the context of precision medicine initiatives.