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dc.contributor.authorWilliams, Alun G.
dc.contributor.authorDhamrait, Sukhbir S.
dc.contributor.authorWootton, Peter T. E.
dc.contributor.authorDay, Stephen H.
dc.contributor.authorHawe, Emma
dc.contributor.authorPayne, John R.
dc.contributor.authorMyerson, Saul G.
dc.contributor.authorWorld, Michael
dc.contributor.authorBudgett, Richard
dc.contributor.authorHumphries, Steve E.
dc.contributor.authorMontgomery, Hugh E.
dc.date.accessioned2008-04-10T10:16:07Z
dc.date.available2008-04-10T10:16:07Z
dc.date.issued2004
dc.identifier.citationJournal of Applied Physiology, 96(3): 938-942
dc.identifier.issn8750-7587
dc.identifier.pmid14607851
dc.identifier.doi10.1152/japplphysiol.00865.2003
dc.identifier.urihttp://hdl.handle.net/2436/22858
dc.description.abstractAccumulating evidence suggests that athletic performance is strongly influenced by genetic variation. One such locus of influence is the gene for angiotensin-I converting enzyme (ACE), which exhibits a common variant [ACE insertion (I)/deletion (D)]. ACE can drive formation of vasoconstrictor ANG II but preferentially degrades vasodilator bradykinin. The ACE I allele is associated with higher kinin activity. A common gene variant in the kinin beta(2) receptor (B(2)R) exists: the -9 as opposed to +9 allele is associated with higher receptor mRNA expression. We tested whether this variant was associated with the efficiency of muscular contraction [delta efficiency (DE)] in 115 healthy men and women, or with running distance among 81 Olympic standard track athletes. We further sought evidence of biological interaction with ACE I/D genotype. DE was highly significantly associated with B(2)R genotype (23.84 +/- 2.41 vs. 24.25 +/- 2.81 vs. 26.05 +/- 2.26% for those of +9/+9 vs. +9/-9 vs. -9/-9 genotype; n = 25, 61, and 29, respectively; P = 0.0008 for ANOVA adjusted for sex). There was evidence for interaction with ACE I/D genotype, with individuals who were ACE II, with B(2)R -9/-9 having the highest DE at baseline. The ACE I/B(2)R -9 "high kinin receptor activity" haplotype was significantly associated with endurance (predominantly aerobic) event among elite athletes (P = 0.003). These data suggest that common genetic variation in the B(2)R is associated with efficiency of skeletal muscle contraction and with distance event of elite track athletes and that at least part of the associations of ACE and fitness phenotypes is through elevation of kinin activity.
dc.language.isoen
dc.publisherThe American Physiological Society/HighWire Press
dc.relation.urlhttps://www.physiology.org/doi/full/10.1152/japplphysiol.00865.2003
dc.subjectAthletes
dc.subjectPolymorphism
dc.subjectAngiotensin-converting enzyme
dc.subjectSkeletal muscle
dc.subjectElite athlete
dc.subject.meshAdolescent
dc.subject.meshAdult
dc.subject.meshAnalysis of Variance
dc.subject.meshChi-Square Distribution
dc.subject.meshExercise Test
dc.subject.meshFemale
dc.subject.meshGenotype
dc.subject.meshHaplotypes
dc.subject.meshHumans
dc.subject.meshMale
dc.subject.meshPeptidyl-Dipeptidase A
dc.subject.meshReceptors, Bradykinin
dc.subject.meshRunning
dc.subject.meshSports
dc.subject.meshVariation (Genetics)
dc.titleBradykinin receptor gene variant and human physical performance.
dc.typeJournal article
dc.identifier.journalJournal of Applied Physiology
html.description.abstractAccumulating evidence suggests that athletic performance is strongly influenced by genetic variation. One such locus of influence is the gene for angiotensin-I converting enzyme (ACE), which exhibits a common variant [ACE insertion (I)/deletion (D)]. ACE can drive formation of vasoconstrictor ANG II but preferentially degrades vasodilator bradykinin. The ACE I allele is associated with higher kinin activity. A common gene variant in the kinin beta(2) receptor (B(2)R) exists: the -9 as opposed to +9 allele is associated with higher receptor mRNA expression. We tested whether this variant was associated with the efficiency of muscular contraction [delta efficiency (DE)] in 115 healthy men and women, or with running distance among 81 Olympic standard track athletes. We further sought evidence of biological interaction with ACE I/D genotype. DE was highly significantly associated with B(2)R genotype (23.84 +/- 2.41 vs. 24.25 +/- 2.81 vs. 26.05 +/- 2.26% for those of +9/+9 vs. +9/-9 vs. -9/-9 genotype; n = 25, 61, and 29, respectively; P = 0.0008 for ANOVA adjusted for sex). There was evidence for interaction with ACE I/D genotype, with individuals who were ACE II, with B(2)R -9/-9 having the highest DE at baseline. The ACE I/B(2)R -9 "high kinin receptor activity" haplotype was significantly associated with endurance (predominantly aerobic) event among elite athletes (P = 0.003). These data suggest that common genetic variation in the B(2)R is associated with efficiency of skeletal muscle contraction and with distance event of elite track athletes and that at least part of the associations of ACE and fitness phenotypes is through elevation of kinin activity.


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