Mark E. Steinhelper

Hypotension in transgenic mice expressing atrial natriuretic factor fusion genes.

Chronic regulation of the cardiovascular system by atrial natriuretic factor was investigated by generating transgenic mice with elevated hormone levels in the systemic circulation. A fusion gene comprising the mouse transthyretin promoter and mouse atrial natriuretic factor structural sequences was designed so as to target hormone expression to the liver. Hepatic expression of atrial natriuretic factor was detectable as early as embryonic day 15 in transgenic animals. In adult transgenic mice, plasma immunoreactive atrial natriuretic factor concentration was elevated at least eightfold as compared with nontransgenic littermates. The mean arterial pressure of conscious transgenic mice was 75.5 +/- 0.9 mm Hg, significantly less than that of nontransgenic siblings (103.9 +/- 2.0 mm Hg). This difference in mean arterial pressure was not accompanied by significant changes in several other physiological parameters, including heart rate, plasma and urinary electrolytes, water intake, and urine volume. This study demonstrates that a chronic elevation of plasma atrial natriuretic factor decreases arterial blood pressure without inducing diuresis and natriuresis in transgenic mice and also illustrates the value of the transgenic approach for the study of the cardiovascular system.

Gene expression and atrial natriuretic factor processing and secretion in cultured AT-1 cardiac myocytes.

BackgroundStudies were carried out to characterize several biochemical features of cultured AT-1 cells. Methods and ResultsThese cells were obtained from a transplantable atrial cardiomyocyte tumor lineage. Reverse transcriptase-polymerase chain reaction-based analyses demonstrated that the pattern of gene expression of cultured AT-1 cells was similar to that of adult atrial myocytes. AT-1 cells expressed atrial natriuretic factor (ANF), α-cardiac myosin heavy chain, α-cardiac actin, and connexin43. Radioimmunoassays verified that the cells synthesized, stored, and secreted ANF. Through size-exclusion, reversed-phase, and carboxymethyl-ion-exchange high-performance liquid chromatography, it was shown that cultured AT-1 cells stored ANF as pro-ANF (ANF-[1-126J), which was cosecretionally processed quantitatively to ANF-(i-98) and the bioactive 28-amino-acid ANF-(99-126). In addition, cultured AT-1 cells secreted ANF at almost a sixfold greater rate in response to endothelin-1, a potent secretagogue of ANF. KCI, metenkephalinamide, isoproterenol, phenylephrine, and 12-O-tetradecanoyl-phorbol-13-acetate also stimulated ANF release. ConclusionsThese studies, in combination with previous findings, demonstrated that cultured AT-1 cells, while maintaining the ability to proliferate, have retained functional, biochemical, and ultrastructural features that are characteristic of adult atrial myocytes.

Spontaneous activity in transgenic mouse heart: Comparison of primary atrial tumor with cultured AT-1 atrial myocytes

Spontaneous Activity in Transgenic Mouse Heart and AT‐1 Myocytes. Introduction: We have generated transgenic animals that heritably develop atrial tumors composed of difTerentiated proliferating cardiomyocytes. Experiments were initiated to characterize (he electrical properties of these cells.

Engineering the cardiovascular system. Blood pressure regulation.

We have generated several lineages of transgenic mice that exhibit chronic elevations in the steady-state concentration of atrial natriuretic factor (ANF) in the peripheral circulation. ANF, a peptide hormone synthesized primarily by atrial cardiomyocytes, is a potent natriuretic and diuretic. ANF also reduces blood pressure transiently when acutely administered. To address the potential role of ANF in chronic cardiovascular regulation, we generated transgenic mice that express the ANF gene in the liver. The fusion genes comprised either the mouse transthyretin (TTR) or rat phosphoenolpyruvate carboxykinase (PEPCK) promoters fused to the mouse ANF structural gene and were designed to target to the liver constitutive and inducible expression of pre-pro-ANF, respectively. Transgenic animals harboring the TTR-ANF fusion gene expressed chimeric ANF transcripts exclusively in the liver. In contrast, mice harboring the PEPCK-ANF fusion gene did not express detectable amounts of ANF mRNA in liver even after induction (24-hour fasting). In the TTR-ANF mice, hepatic and plasma immunoreactive ANF concentrations were proportional to the concentration of hepatic ANF transcripts. Moreover, mean arterial blood pressure recorded in conscious transgenic mice was inversely proportional to hepatic ANF expression. These transgenic models demonstrate that chronically elevated ANF concentration can induce sustained hypotension.