Steroid biosynthesis and renal excretion in human essential hypertension: association with blood pressure and endogenous ouabain.

Background: Endogenous ouabain (EO) has been linked with long-term changes in sodium balance and cardiovascular structure and function. The biosynthesis of EO involves, cholesterol side-chain cleavage (CYP11A1), 3-beta-hydroxysteroid dehydrogenase (HSD3B) with sequential metabolism of pregnenolone and progesterone. Furthermore, the renal excretion of cardiac glycosides is mediated by the organic anion transporter (SLCO4C1) at the basolateral membrane and the P-glycoprotein (PGP) (encoded by MDR1) at the apical membrane of the nephron.

Haplotype analysis of carnitine transporters and left ventricular mass in human essential hypertension.

Objective: The carnitine-associated alteration of myocardial fatty acid metabolism may be one of the molecular mechanisms underlying left ventricular hypertrophy (LVH) in essential hypertension. We tested the hypothesis that polymorphisms of the genes involved in carnitine transport, OCTN2, CPT1A, CPT1B, and CPT2, might be associated with LVH.

Design: Haplotype-based association analysis in an observational study.

Effect of Add1 gene transfer on blood pressure in reciprocal congenic strains of Milan rats.

Genetic variants of alpha adducin (ADD1) taken alone or in interaction with those of beta (ADD2) and gamma (ADD3) subunits have been associated with primary hypertension in humans and in Milan hypertensive (MHS) rats. In this study, we report the dissection of the individual contribution of each rat Add gene to blood pressure, by congenic substitution mapping. Congenic strains were developed by introgressing Add1, Add2, and Add3 genes (and chr14, chr4, and chr1 associated segments) of MHS in the Milan normotensive rat (MNS) genetic background (MNS.

Tissue-specific modulation of beta-adducin transcripts in Milan hypertensive rats.

Genetic variants in Adducins, a family of cytoskeleton proteins (alpha, beta, and gamma) encoded by three genes, have been associated with primary hypertension in humans and in Milan hypertensive (MHS) rats. The present paper describes the identification of a rat beta 4 alternative splicing isoform differing from beta subunit for an in-frame insertion of 18 amino acids and showing a polymorphic site (R592W) between MHS and its normotensive control (MNS). Furthermore, we established a quantitative real-time PCR assay for analyzing the tissue expression of adducin gene family and determining whether any subunit transcript demonstrates altered expression during the development of MHS hypertension, especially in tissues relevant for the control of cardiovascular phenotypes (i.