Haplotype-based analysis of alpha 2A, 2B, and 2C adrenergic receptor genes captures information on common functional loci at each gene.

The alpha 2-adrenergic receptors (alpha2-AR) mediate physiological effects of epinephrine and norepinephrine. Three genes encode alpha2-AR subtypes carrying common functional polymorphisms (ADRA2A Asn251Lys, ADRA2B Ins/Del301-303 and ADRA2C Ins/Del322-325). We genotyped these functional markers plus a panel of single nucleotide polymorphisms evenly spaced over the gene regions to identify gene haplotype block structure. A total of 24 markers were genotyped in 96 Caucasians and 96 African Americans. ADRA2A and ADRA2B each had a single haplotype block at least 11 and 16 kb in size, respectively, in both populations. ADRA2C had one haplotype block of 10 kb in Caucasians only. For the three genes, haplotype diversity and the number of common haplotypes were highest in African Americans, but a similar number of markers (3-6) per block was sufficient to capture maximum diversity in either population. For each of the three genes, the haplotype was capable of capturing the information content of the known functional locus even when that locus was not genotyped. The alpha2-AR haplotype maps and marker panels are useful tools for genetic linkage studies to detect effects of known and unknown alpha2-AR functional loci.

Haplotype structure of the beta adrenergic receptor genes in US Caucasians and African Americans.

The beta-adrenergic receptors (beta-AR) are G protein-coupled receptors activated by epinephrine and norepinephrine and are involved in a variety of their physiological functions. Previously, three beta-AR genes (ADRB1, ADRB2 and ADRB3) were resequenced, identifying polymorphisms that were used in genetic association studies of cardiovascular and metabolic disorders. These studies have produced intriguing but inconsistent results, potentially because the known functional variants: ADRB1 Arg389Gly and Gly49Ser, ADRB2 Arg16Gly and Gln27Glu, and ADRB3 Arg64Trp provided an incomplete picture of the total functional diversity at these genes. Therefore, we created marker panels for each beta-AR gene that included the known functional markers and also other markers evenly spaced and with sufficient density to identify haplotype block structure and to maximize haplotype diversity. A total of 27 markers were genotyped in 96 US Caucasians and 96 African Americans. In both populations and for each gene, a single block with little evidence of historical recombination was observed. For each gene, haplotype captured most of the information content of each functional locus, even if that locus was not genotyped, and presumably haplotype would capture the signal from unknown functional loci whose alleles are of moderate abundance. This study demonstrates the utility of using beta-AR gene haplotype maps and marker panels as tools for linkage studies on beta-AR function.

Haplotype architecture of the norepinephrine transporter gene SLC6A2 in four populations.

The norepinephrine transporter (NET) regulates levels of monoamine neurotransmitters integral to a variety of behaviors and autonomic functions. Two SLC6A2 polymorphisms have been used in genetic association studies, generating intriguing but nondefinitive results on traits such as hypertension and mood. One of these SLC6A2 variants is functional but rare. The other is common but not informative over the entire 48 kb SLC6A2 region and is insufficient to capture the functional diversity potentially contained within any SLC6A2 region. To elucidate SLC6A2 haplotype structure and define markers sufficient to capture haplotype diversity within detected haplotype blocks, 26 single-nucleotide polymorphisms (SNPs) were genotyped in 384 individuals evenly divided across Finnish Caucasian, US Caucasian, Plains American Indian, and African American populations. Three conserved blocks, 13.6, 12.5, and 25 kb in size and showing little evidence for historical recombination were observed in all populations. Haplotype diversity in block 1 and numbers of common haplotypes were highest in African Americans, among whom 5-6 optimal markers were sufficient to maximize diversity of each block. For other populations, 2-3 markers/block sufficed, but the optimal markers differed across populations. The SLC6A2 haplotype map and 25-marker panel (excluding the monomorphic one) is a comprehensive tool for genetic linkage studies on phenotypes related to NET function.