Kammerer C M, Cox L A, Mahaney M C, Rogers J, Shade R E
Southwest Foundation for Biomedical Research, San Antonio, Texas, USA.
Hypertension. 2001 Feb;37(2 Pt 2):398-402. doi: 10.1161/01.hyp.37.2.398.
The genes involved in the regulation of cellular sodium transport characteristics, which are correlated with some forms of essential hypertension, have not yet been identified. We are studying the genes and environmental factors that affect red blood cell sodium-lithium countertransport (SLC) activity and intracellular sodium (ICNa) concentration in 634 baboons that comprise 11 pedigrees of 2 and 3 generations each. To detect and locate possible quantitative trait loci (QTLs) that affect SLC activity and ICNa concentration, we performed a genome screen by using a maximum likelihood-based variance-components linkage analysis program (SOLAR). SLC and ICNa phenotypes as well as genotypes on 281 microsatellite loci were available for all pedigreed animals. Both SLC and ICNa traits were highly heritable (residual heritability 0.593+/-0.083 [P<0.0001] and 0.739+/-0.082 [P<0.0001], respectively). We obtained evidence that a possible QTL for SLC activity is located on the baboon homologue of human chromosome 4 between D4S2456 and D4S2365 with a maximum multipoint lod score of 9.3 (P<10(-)(10)) near D4S1645. This QTL accounts for approximately two thirds of the total additive genetic variation in SLC activity in baboons. Although ICNa concentration was highly heritable, we found no evidence for linkage to a QTL with use of this methodology. Thus, we have evidence that a gene located on the baboon homologue of human chromosome 4 (baboon chromosome 5) affects cell sodium transport in baboons.
与某些原发性高血压形式相关的、参与细胞钠转运特性调节的基因尚未被鉴定出来。我们正在研究影响634只狒狒红细胞钠-锂逆向转运(SLC)活性和细胞内钠(ICNa)浓度的基因及环境因素,这些狒狒分属于11个两代或三代的家系。为了检测和定位影响SLC活性和ICNa浓度的可能的数量性状基因座(QTL),我们使用基于最大似然法的方差成分连锁分析程序(SOLAR)进行了全基因组筛选。所有家系动物都有关于281个微卫星位点的SLC和ICNa表型以及基因型数据。SLC和ICNa性状都具有高度遗传性(剩余遗传力分别为0.593±0.083 [P<0.0001]和0.739±0.082 [P<0.0001])。我们获得的证据表明,一个影响SLC活性的可能的QTL位于人类4号染色体的狒狒同源染色体上,在D4S2456和D4S2365之间,在D4S1645附近的最大多点连锁值为9.3(P<10^(-10))。这个QTL约占狒狒SLC活性总加性遗传变异的三分之二。虽然ICNa浓度具有高度遗传性,但我们没有发现使用这种方法与QTL连锁的证据。因此,我们有证据表明位于人类4号染色体的狒狒同源染色体(狒狒5号染色体)上的一个基因影响狒狒的细胞钠转运。
