Common variation in the CD36 (fatty acid translocase) gene is associated with left-ventricular mass

Aims Genetic variation in the fatty acid translocase (CD36) gene has been shown in animal models to affect several risk factors for the development of left-ventricular hypertrophy, but this phenotype has not, thus far, been investigated in humans. We examined the relationship between common genetic polymorphisms in the CD36 gene and left-ventricular mass. Methods and results We studied a cohort of 255 families comprising 1425 individuals ascertained via a hypertensive proband. Seven single-nucleotide polymorphisms which together tagged common genetic variation in the CD36 gene were genotyped using a SEQUENOM MALDI-TOF instrument. There was evidence of association between the rs1761663 polymorphism in intron 1 of the CD36 gene and left-ventricular mass determined either by echocardiography (P = 0.003, N = 780) or electrocardiography (P = 0.001, N = 814). There was also association between rs1761663 genotype and body mass index (P < 0.001, N = 1354). Genotype was associated with between 2 and 8% differences in these phenotypes per allele. After adjustment for the effect of body mass index, there remained significant associations between genotype and left ventricular mass measured either by echo (P = 0.017) or ECG (P = 0.007). Conclusions Genotype at the rs1761663 polymorphism has independent effects both on body mass index and left-ventricular mass. Genes with such pleiotropic effects may be particularly attractive therapeutic targets for interventions to modify multiple risk factors for cardiovascular events.

[1]  C. Lewis,et al.  QTLs of factors of the metabolic syndrome and echocardiographic phenotypes: the hypertension genetic epidemiology network study , 2008, BMC Medical Genetics.

[2]  M. Farrall,et al.  Ambulatory Blood Pressure Is Associated With Polymorphic Variation in P2X Receptor Genes , 2008, Hypertension.

[3]  Nathan R. Qi,et al.  Identification of renal Cd36 as a determinant of blood pressure and risk for hypertension , 2008, Nature Genetics.

[4]  M. Farrall,et al.  Genome-wide linkage analysis of electrocardiographic and echocardiographic left ventricular hypertrophy in families with hypertension. , 2008, European heart journal.

[5]  J. Dyck,et al.  CD36 Expression Contributes to Age-Induced Cardiomyopathy in Mice , 2007, Circulation.

[6]  S. Yamashita,et al.  Physiological and pathological roles of a multi-ligand receptor CD36 in atherogenesis; insights from CD36-deficient patients , 2007, Molecular and Cellular Biochemistry.

[7]  S. Hazen,et al.  A CD36‐dependent signaling cascade is necessary for macrophage foam cell formation , 2006, Cell metabolism.

[8]  Gonçalo R. Abecasis,et al.  PEDSTATS: descriptive statistics, graphics and quality assessment for gene mapping data , 2005, Bioinform..

[9]  J. Connell,et al.  Association between common polymorphisms of the proopiomelanocortin gene and body fat distribution: a family study. , 2005, Diabetes.

[10]  M Farrall,et al.  A rare variant of the leptin gene has large effects on blood pressure and carotid intima-medial thickness: a study of 1428 individuals in 248 families , 2005, Journal of Medical Genetics.

[11]  Mark Daly,et al.  Haploview: analysis and visualization of LD and haplotype maps , 2005, Bioinform..

[12]  A. Avogaro,et al.  A common haplotype at the CD36 locus is associated with high free fatty acid levels and increased cardiovascular risk in Caucasians. , 2004, Human molecular genetics.

[13]  G. Lopaschuk,et al.  Fatty Acid Translocase/CD36 Deficiency Does Not Energetically or Functionally Compromise Hearts Before or After Ischemia , 2004, Circulation.

[14]  William Jou,et al.  Myocardial recovery from ischemia is impaired in CD36-null mice and restored by myocyte CD36 expression or medium-chain fatty acids , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[15]  M. Farrall,et al.  Electrocardiographic measures of left ventricular hypertrophy show greater heritability than echocardiographic left ventricular mass. , 2002, European heart journal.

[16]  M. Kodama,et al.  Hypertrophic cardiomyopathy with type I CD36 deficiency. , 1998, Japanese circulation journal.

[17]  J. Stockman Genetic Variants Associated With Cardiac Structure and Function: A Meta-analysis and Replication of Genome-wide Association Data , 2011 .

[18]  G. Abecasis,et al.  Merlin—rapid analysis of dense genetic maps using sparse gene flow trees , 2002, Nature Genetics.

[19]  James Scott,et al.  Identification of Cd36 (Fat) as an insulin-resistance gene causing defective fatty acid and glucose metabolism in hypertensive rats , 1999, Nature Genetics.