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  • Title: Alpha1 Na,K-ATPase and Na,K,2Cl-cotransporte/D3mit3 loci interact to increase susceptibility to salt-sensitive hypertension in Dahl S(HSD) rats.
    Author: Herrera VL, Lopez LV, Ruiz-Opazo N.
    Journal: Mol Med; 2001 Feb; 7(2):125-34. PubMed ID: 11471547.
    Abstract:
    BACKGROUND: Essential (multigenic) hypertension is a complex multifactorial disease whose genetic etiology has not been unraveled on a major locus-effect investigative paradigm. As with other complex genetic diseases, applying an interacting loci paradigm could be critical in the elucidation of genetic determinants. Having defined the alpha1 Na,K-ATPase (alpha1NK) as a hypertension susceptibility gene in Dahl salt-sensitive (Dahl S) rats, we determined whether alphaINK interacts with another renal epithelial Na transporter to increase susceptibility to salt-sensitive hypertension. We focused on alpha1NK and Na,K,2Cl-cotransporter (NKC) as an a priori candidate interacting gene pair because they comprise a functionally linked Na transport system in renal thick ascending limb of Henle (TALH) epithelial cells and exhibit altered function in prehypertensive Dahl S rats in contrast to Dahl salt-resistant normotensive (Dahl R) rats. MATERIAL AND METHOD: Cosegregation analysis of alphaNK and NKC loci was done in a (Dahl S x Dahl R) F2 cohort characterized for blood pressure by radiotelemetry using the D2mghII microsatellite marker in the alpha1NK gene and the D3mit3 microsatellite marker close to the NKC gene (NKC/D3mit3 locus). Single locus and digenic analyses were performed to establish the individual and interactive genetic contribution to salt-sensitive hypertension. Molecular analysis was then done to support the NKC gene as the likely candidate gene interacting with alpha1NK in Dahl salt-sensitive hypertension pathogenesis. RESULTS: Compared with respective single locus analysis, digenic analysis of 96 F2 (Dahl S x Dahl R) hybrid male rats revealed cosegregation of alpha1NK and NKC/D3mit3 loci as interacting pair with salt-sensitive hypertension with markedly increased significance for systolic (one-way ANOVA p = 10(-6)), diastolic (p = 10(-5)), and mean arterial (p = 10(-6)) blood pressures. Concordantly, two-way ANOVA detected interaction between alpha1NK and NKC loci in determining the levels of systolic (p = 0.004), diastolic (p = 0.008), and mean arterial (p = 0.006) pressures. To unravel potential NKC molecular dysfunction(s) involved in hypertension pathogenesis, we investigated putative differences between Dahl S and Dahl R rats in nucleotide sequence and isoform gene expression of the renal-specific Na,K,2Cl-cotransporter. Molecular analysis revealed an inversion of alternatively spliced NKC-isoform ratios (4B:4A:4F) between Dahl S and Dahl R prehypertensive kidneys supported by four mutations in intron-3 immediately upstream to alternatively spliced exons 4B, 4A, and 4F. No nucleotide changes were detected within the aminoacid encoding exons of NKC. CONCLUSIONS: Altogether, these current data and previous characterization of the role of the Q276L alpha1NK molecular variant in Dahl S hypertension provide cumulative compelling evidence that alpha1NK and NKC/D3mit3 loci interact to increase susceptibility to hypertension in Dahl S rats and that NKC is the likely candidate gene that interacts with alpha 1NK. More importantly, the data substantiate gene interaction as an operative mechanism in multigenic hypertension.
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