Rare and low-frequency coding variants in CXCR2 and other genes are associated with hematological traits

Hematological traits are important clinical parameters. To test the role of rare and low-frequency coding variants on hematological traits, we analyzed hemoglobin, hematocrit, white blood cell (WBC) and platelet count in 31,340 individuals genotyped on an exome array. We identified several missense variants of CXCR2 associated with reduced WBC count (gene-based P=2.6×10(−13)). In a separate family-based re-sequencing study, we identified a novel loss-of-function CXCR2 frameshift mutation in a pedigree with congenital neutropenia that abolished ligand-induced CXCR2 signal transduction and chemotaxis. We also identified novel missense or splice site variants in key hematopoiesis regulators (EPO, TRF2, HBB, TUBB1, SH2B3) associated with blood cell traits. Finally, we were able to detect associations between the rare somatic JAK2 p.Val617Phe mutation and platelet count (P=3.9×10(−22)) as well as hemoglobin (P=0.002), hematocrit (P=9.5×10(−7)) and WBC (P=3.1×10(−5)). In conclusion, exome arrays complement GWAS in identifying new variants that contribute to complex human traits.