QTL associated with blood pressure, heart rate, and heart weight in CBA/CaJ and BALB/cJ mice

doi:10.1152/physiolgenomics.00002.2002

QTL associated with blood pressure, heart rate, and heart weight in CBA/CaJ and BALB/cJ mice

Fumihiro Sugiyama¹^,3, Gary A. Churchill¹, Renhua Li¹, Laura J. M. Libby¹^,2, Tonya Carver¹, Ken-Ichi Yagami³, Simon W. M. John¹^,2 and Beverly Paigen¹

¹ The Jackson Laboratory
² Howard Hughes Medical Institute, Bar Harbor, Maine 04609
³ Laboratory Animal Resource Research Center, University of Tsukuba, 1-1-1 Tennodai, Tsukuba, Ibaraki 305-8575, Japan

To better understand the genetic basis of essential hypertension,we conducted a quantitative trait locus (QTL) analysis of apopulation of 207 (BALB/cJ x CBA/CaJ) F₂ male mice to identifygenomic regions that regulate blood pressure, heart rate, andheart weight. We identified two loci, Bpq6 (blood pressure quantitativelocus 6) on chromosome 15 (Chr 15; peak, 16 cM; 95% confidenceinterval, 0–25 cM) and Bpq7 on Chr 7 (peak, 42 cM; 95%confidence interval, 35–50 cM) that were significantlyassociated with blood pressure. We also identified two loci,Hrq1 (heart rate quantitative locus 1) and Hrq2, on D2Mit304(peak, 72 cM; 95% confidence interval 60–80 cM) and D15Mit184(peak, 25 cM; 95% confidence interval 20–35 cM), respectively,that were significantly associated with heart rate. A significantgene-gene interaction for heart rate was found between Hrq1and D1Mit10 (peak, 57 cM; 95% confidence interval, 45–75cM); the latter QTL was named Hrq3. We identified a significantlocus for heart weight, Hwq1 (heart weight quantitative locus1), at D14Mit67 (peak, 38 cM; 95% confidence interval, 20–43cM). Identification of the genes for these QTL should lead toa better understanding of the causes of essential hypertension.

quantitative trait loci; hypertension

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