Abstract
Among people of European descent, the ability to digest lactose into adulthood arose via strong positive selection of a highly advantageous allele encompassing the lactase gene. Lactose-tolerant and intolerant individuals may have different disease risks due to the shared genetics of their haplotype block. Therefore, the overall objective of the study was to assess the genetic association of the lactase persistence haplotype to disease risk. Using data from the 1000Genomes project, we estimated the size of the lactase persistence haplotype block to be 1.9 Mbp containing up to 9 protein-coding genes and a microRNA. Based on the function of the genes and microRNA, we studied health phenotypes likely to be impacted by the lactase persistence allele: prostate cancer status, cardiovascular disease status, and bone mineral density. We used summary statistics from large genome-wide metanalyses—32,965 bone mineral density, 140,306 prostate cancer and 184,305 coronary artery disease subjects—to evaluate whether the lactase persistence allele was associated with these disease phenotypes. Despite the fact that previous work demonstrated that the lactase persistence haplotype block harbors increased deleterious mutations, these results suggest little effect on the studied disease phenotypes.
Highlights
Lactose is the main carbohydrate found in milk
Bone mineral density phenotypes were chosen for study due to the association of milk consumption with fracture risk in a cohort of people of European descent in which there was no assessment of genetics (Michaëlsson et al, 2014)
Coronary Artery Disease Given the known SNPs associated with total cholesterol in the lactase gene (LCT) locus (Supplementary Table S3), we investigated the association of this locus with the risk of coronary artery disease (CAD) using summary data from CARDIoGRAMplusC4D 1000 Genomes-based GWAS dataset which included 60,801 cases and 123,504 controls (Nikpay et al, 2015)
Summary
Lactose is the main carbohydrate found in milk. The enzyme lactase, encoded by the LCT gene, allows for the breakdown of lactose in infant mammals. Health and Genetics the signature of a relatively large haplotype block surrounding the LP allele (Bersaglieri et al, 2004; Itan et al, 2009; Ségurel and Bon, 2017). Prior work by Chun and Fay (2011) found European samples harbored multiple deleterious or neutral non-synonymous SNPs within the LCT gene and two other genes in the surrounding the region. It is unclear whether mutations found within the LP haplotype block give rise to unfavorable phenotypes. Determining the differential risk of disease based on individual genetic backgrounds with the indirect phenotype of lactase persistence may help resolve contrasting epidemiological findings and improve public health. The objective this study was to determine the size of the LP haplotype block and its impact on disease risk in humans with and without the LP allele
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