Dennis A. Wigle

Differential expression and activity of p34cdc2 in cultured aortic adventitial fibroblasts derived from spontaneously hypertensive and Wistar???Kyoto rats

Objective: The present investigation was undertaken to determine whether p34cdc2, a cell-cycle regulatory kinase, is involved in the manifestation of the altered proliferation evident in fibroblasts isolated from spontaneously hypertensive rats (SHR). Design: Experiments were performed on quiescent aortic adventitial fibroblasts stimulated to re-enter the cell cycle in order to examine the timing of cell cycle-related events. Methods: The cell-cycle phase was determined by flow cytometry and was related to the cellular content and kinase activity of p34cdc2. Results: SHR fibroblasts displayed a heightened basal level of p34cdc2 at quiescence relative to Wistar-Kyoto (WKY) rat cells. Both SHR and WKY fibroblasts showed a cell cycle-dependent increase in p34cdc2 content, beginning in S phase. However, the SHR adventitial fibroblasts exited Go—G-] several hours earlier than the WKY fibroblasts as indicated by the time of initiation of DNA synthesis and increase in activity of p34cdc2. Conclusions: SHR aortic adventitial fibroblasts appear to have a heightened proliferative capacity relative to WKY fibroblasts, which is evident in a quicker exit from Co and faster transition to DNA synthesis, followed by the earlier activation of p34cdc2

Acute ethanol ingestion modifies the circulating plasma levels of atrial natriuretic peptide

Since ethanol ingestion is associated with a disruption of water and electrolyte balance in a variety of species, we sought to evaluate the regulatory control of atrial natriuretic peptide (ANP) in response to acute doses of ethanol. Male Sprague-Dawley rats were administered a 5-g/kg dose of ethanol (40% w/v) via a gastric tube, while control animals received an equivalent volume of water. Expressed as a percentage of control, plasma ANP levels were 39.0%, 28.5%, and 23.6% in the ethanol-treated animals at 30, 60, and 120 min postintubation, respectively. Ethanol-treated animals displayed blood alcohol concentrations of 89.0, 137.6, and 214.1 mg/dl at the same time periods. After 120 min, plasma renin activity was elevated from 8.7 to 20.3 ng/ml/h in conjunction with an increase in the levels of circulating aldosterone from 16.3 to 42.5 ng/dl and an increase in plasma vasopressin from 2.2 to 3.6 pg/ml. Levels of atrial ANP mRNA remained consistent over the time course of the experiment, and no changes in the amount of ventricular ANP transcript were observed. Tissue ANP levels were similar between ethanol-treated and water-loaded control animals. In vitro experiments using cultured cardiac myocytes suggest that ethanol exposure may not directly affect ANP secretion. We propose that acute ethanol treatment may inhibit atrial distension and subsequently modify the control of ANP release under volume loading conditions.

Radioimmunoassay for Rat B-Type Natriuretic Peptide (BNP-45)

Rat BNP-45 is the main circulating form of BNP in rat plasma. To understand the role of BNP in physiological and pathophysiological conditions, a specific radioimmunoassay (RIA) for the quantitative determination of the peptide in plasma and tissues is necessary. An assay using rBNP-45 as the standard in conjunction with antisera directed against this peptide has not been described in the literature, though some investigators have reported values ranging from 0.73-2.0 pmol/L using either BNP-26 or BNP-32 as the standard peptide. Unfortunately, these forms of BNP do not exist in rat plasma. In our studies, we have developed a specific RIA for rBNP-45 using rBNP-45 as the standard peptide and Tyro-rBNP-45 as the radioligand. We have used two specific antisera for assay purposes; one against rBNP-45, and the second to a peptide composed of the first 20 amino acids of rBNP-45 (rBNP[1-20]). The recovery of various amounts of rBNP-45 added to control plasma was 50-80% depending on the method of extraction and purification. The interassay and intraassay coefficients of variation were 12% and 6% respectively. Values obtained were similar for blood sampled by either cardiac puncture, decapitation, or aortic puncture. The method was used to measure rBNP-45 in the plasma of normal (WKY) and Spontaneously Hypertensive (SHR) rats. The values obtained were 5.46 +/- 0.43 and 19.6 +/- 2.36 pmol/L respectively. The rat atrial natriuretic peptide (ANP[99-126]) values in the same extracts were 23.2 +/- 0.45 and 51.6 +/- 3.16 pmol/L.

Plasma clearance and tissue binding of rANP[99–126] and iso-rANP[1–45] in the rat

Plasma clearance and tissue binding of atrial natriuretic peptide (ANP) and iso-ANP were compared in Inactin-anaesthetized rats. It was found that the plasma half-life of iso-ANP was comparable to ANP. Appearance of trichloroacetic acid-soluble radioactivity of iso-ANP in the plasma was considerably slower than that of ANP, suggesting that the metabolic process of these two peptides may be different. Although the binding distribution of these two peptides was similar, the total binding of iso-ANP to organs other than the kidney was much lower. The kidney, lung, heart and adrenal gland appeared to be major target organs for iso-ANP. Autoradiography showed that iso-ANP bound specifically to the renal glomerulus and proximal part of the proximal tubule. This latter binding site in the kidney was not apparent with ANP, suggesting that iso-ANP may exerts its physiological action at different sites in this organ.

The antidiuretic effect of pneumadin requires a functional arginine vasopressin system

Pneumadin is an antidiuretic decapeptide, recently isolated from rat and human lung. Bolus intravenous injection of 5 nmol of pneumadin into water-loaded rats caused a rapid and significant antidiuresis and a reduction in Na+ and Cl- excretion. Pneumadin administration did not alter mean arterial pressure, right atrial pressure, heart rate or haematocrit. Bolus intravenous injection of 20 nmol of pneumadin into non-water-loaded rats caused a significant increase in arginine vasopressin (AVP) within 10 min. Pneumadin administration also increased circulating atrial natriuretic peptide (ANP) but did not alter aldosterone or plasma renin activity levels. Injection of pneumadin into water-loaded Brattleboro rats, which genetically lack circulating AVP, did not change urine flow, confirming that the pneumadin induced antidiuresis is AVP dependent. Radioactive pneumadin was cleared from the circulation with a t1/2 beta of 480.3 s. Radioactive pneumadin, isolated from plasma, eluted at an altered position on reverse phase HPLC, which indicated that the peptide was modified in vivo. This modification was also observed when synthetic pneumadin was incubated in rat plasma in vitro. Purification and sequencing of the modified synthetic peptide indicated that the modification is not a proteolytic cleavage. These results indicate that pneumadin injected into the rat caused an antidiuresis by altering circulating AVP levels.

Time-dependent decreases of atrial natriuretic peptide release from the isolated rat atrium: evidence for a readily releasable pool

In vitro, atrial distension causes a rapid increase in atrial natriuretic peptide (ANP) release. This stretch-induced release, however, declines to baseline levels within minutes without significant depletion of the total hormone stores. It has been observed that the basal rate of ANP release from isolated atria also declines over time despite evidence that the tissue retains its viability. We examined this time-dependency of ANP release from isolated rat atria and some parameters that may explain the diminishing release. Mean ANP secretion was 60 pg/min for both spontaneously beating and electrically paced preparations. Although ANP secretion steadily declined over time, there was no time-dependent effect on the amplitude of intracellularly recorded action potentials. The total ANP content in atria obtained after dissection was 133 +/- 28.9 micrograms/g (n = 3) which was not significantly different from atria that were perfused for 3 h (137 +/- 21.2 micrograms/g; n = 3). Only the 28 amino acid circulating form of ANP was released. The ANP mRNA appeared to be partially degraded in atria after 30 min equilibration or after perfusion for 3 h. These results demonstrated that ANP release from isolated atrial preparations declines steadily despite the maintenance of normal electrophysiological activity. This decline was not due to significant depletion of the ANP stores suggesting that a readily releasable pool of ANP exists and represents only a small fraction of the total hormone stores. Finally, degradation of ANP mRNA implies a reduction of de novo synthesis in our preparation which suggests that the observed depletion of the releasable pool was related to a decline in newly synthesized ANP.