Sequence Variants in Three Loci Influence Monocyte Counts and Erythrocyte Volume

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2009 Oct 27

PMID 19853236

Citations 48

Authors

Manuel A R Ferreira

Jouke-Jan Hottenga

Nicole M Warrington

Sarah E Medland

Gonneke Willemsen

Robert W Lawrence

Scott Gordon

Eco J C de Geus

Anjali K Henders

Johannes H Smit

Megan J Campbell

Leanne Wallace

David M Evans

Margaret J Wright

Dale R Nyholt

Alan L James

John P Beilby

Brenda W Penninx

Lyle J Palmer

Ian H Frazer

Grant W Montgomery

Nicholas G Martin

Dorret I Boomsma

Affiliations

Soon will be listed here.

Abstract

Blood cells participate in vital physiological processes, and their numbers are tightly regulated so that homeostasis is maintained. Disruption of key regulatory mechanisms underlies many blood-related Mendelian diseases but also contributes to more common disorders, including atherosclerosis. We searched for quantitative trait loci (QTL) for hematology traits through a whole-genome association study, because these could provide new insights into both hemopoeitic and disease mechanisms. We tested 1.8 million variants for association with 13 hematology traits measured in 6015 individuals from the Australian and Dutch populations. These traits included hemoglobin composition, platelet counts, and red blood cell and white blood cell indices. We identified three regions of strong association that, to our knowledge, have not been previously reported in the literature. The first was located in an intergenic region of chromosome 9q31 near LPAR1, explaining 1.5% of the variation in monocyte counts (best SNP rs7023923, p=8.9x10(-14)). The second locus was located on chromosome 6p21 and associated with mean cell erythrocyte volume (rs12661667, p=1.2x10(-9), 0.7% variance explained) in a region that spanned five genes, including CCND3, a member of the D-cyclin gene family that is involved in hematopoietic stem cell expansion. The third region was also associated with erythrocyte volume and was located in an intergenic region on chromosome 6q24 (rs592423, p=5.3x10(-9), 0.6% variance explained). All three loci replicated in an independent panel of 1543 individuals (p values=0.001, 9.9x10(-5), and 7x10(-5), respectively). The identification of these QTL provides new opportunities for furthering our understanding of the mechanisms regulating hemopoietic cell fate.

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