A Quantitative-trait Analysis of Human Plasma-dopamine Beta-hydroxylase Activity: Evidence for a Major Functional Polymorphism at the DBH Locus

Overview

Journal Am J Hum Genet

Publisher Cell Press

Specialty Genetics

Date 2001 Feb 15

PMID 11170900

Citations 98

Authors

C P Zabetian

G M Anderson

S G Buxbaum

R C Elston

H Ichinose

T Nagatsu

K S Kim

C H Kim

R T Malison

J Gelernter

J F Cubells

Affiliations

Soon will be listed here.

Abstract

Dopamine-beta-hydroxylase (D beta H) catalyzes the conversion of dopamine to norepinephrine and is released from sympathetic neurons into the circulation. Plasma-D beta H activity varies widely between individuals, and a subgroup of the population has very low activity levels. Mounting evidence suggests that the DBH structural gene is itself the major quantitative-trait locus (QTL) for plasma-D beta H activity, and a single unidentified polymorphism may account for a majority of the variation in activity levels. Through use of both sequencing-based mutational analysis of extreme phenotypes and genotype/phenotype correlations in samples from African American, European American (EA), and Japanese populations, we have identified a novel polymorphism (--1021C-->T), in the 5' flanking region of the DBH gene, that accounts for 35%--52% of the variation in plasma-D beta H activity in these populations. In EAs, homozygosity at the T allele predicted the very low D beta H-activity trait, and activity values in heterozygotes formed an intermediate distribution, indicating codominant inheritance. Our findings demonstrate that --1021C-->T is a major genetic marker for plasma-D beta H activity and provide new tools for investigation of the role of both D beta H and the DBH gene in human disease.

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