Identification and partial characterization of immunoreactive and bioactive atrial natriuretic peptide from eel heart

Summary Cardiocytes positive for human atrial natriurectic peptide (hANP) were identified histochemically in the eel atrium, but they were not found in the ventricule. Secretory granules were frequently observed in atrial cardiocytes by electron microscopy, but the number of such granules was quite small in the ventricle. Immunogold cytochemistry revealed that immunoreactive ANP (IR-ANP) in atrial cardiocytes was localized in these granules. In spite of poor immunostaining of the eel ventricle, an acid extract of the ventricle contained 25±4 ng·g tissue^-1 (n=9) of IR-ANP when the level of IR-ANP was measured by radioimmunoassay (RIA) for hANP. This level was one eight of that measured in atrial extracts (203±13 ng·g tissue^-1, n=9). Plasma contained 116.7±18.6 pg·ml^-1 (n=9) of IR-ANP. An extract of eel hearts decreased arterial pressure in eels and quail as did hANP. The level of ANP in the extract, as measured by an eel vasodepressor bioassay, was much greater than that measured by RIA for hANP. The immunoreactive and bioactive ANP in the heart extract are identical since the vasodepressor activity disappeared after IR-ANP was absorbed by excess antibodies raised against hANP. Chromatography on Sephadex G-75 generated a major peak of IR-ANP at a position that corresponded to a molecular weight of 14 kD and minor peaks at 3–7 kD from both plasma and heart extract. Reverse phase HPLC of plasma and heart extract generated several peaks of IR-ANP at positions more hydrophilic than those of mammalian ANPs. These results show that eel hearts contain immunoreactive and bioactive ANPs which are distinctly different from hANP. These ANPs are synthesized both in the atrium and in the ventricle, and they are secreted into the circulation mostly in the larger molecular form. The atrial ANP may be stored in the granules and secreted upon exposure of eels to certain stimuli, but the ventricular ANP may be secreted constitutively into the circulation without prior storage in the granules.Abbreviations ANP atrial natriuretic peptide - BSA bovine serum albumin - IR-ANP immunoreactive ANP - PBS phosphate-buffered saline - RIA radioimmunoassay     

Plasma immunoreactive atrial natriuretic peptide and changes in dietary sodium intake in man

Plasma levels of immunoreactive atrial natriuretic peptides (IrANP) have been measured in 8 normotensive subjects during alterations in dietary sodium intake. Subjects were studied on their normal sodium intake (2 days) then on a low sodium intake (7 days, 10 mmols Na+/day) and subsequently on a high sodium intake (14 days, 350 mmols Na+/day with the diets being given in a fixed order. Plasma levels (mean +/- S.E.M.) of IrANP on a normal sodium diet were 7.3 +/- 0.9 pg/ml; 4.5 +/- 0.8 on the 7th day of a low sodium intake and 10.8 +/- 1.3; 16.6 +/- 3.3; 15.5 +/- 4.2; 15.6 +/- 2.3 pg/ml respectively or the 1st, 3rd, 10th and 14th day on the high sodium intake. Changes in plasma IrANP were closely associated with changes in urinary sodium excretion. These results suggest that in normal subjects the atrial natriuretic peptides may play an important role in the adaptation to increases in dietary sodium intake both on a short and on a longer term basis.     

Characteristics of distension-induced release of immunoreactive atrial natriuretic peptide in isolated perfused rabbit atria

Atrial pressure- or distension-induced release of atrial natriuretic peptide (ANP) has been considered as an important regulatory mechanism of ANP release in cardiac atria. A new technique to permit graded continuous atrial distension has been developed in an isolated perfused single rabbit atrium. Graded atrial distension was induced by changing the elevation of the outflow catheter tip. Intra-atrial volume expansion resulted in an increase in immunoreactive ANP release. The graded increase in atrial distension from 43.9 +/- 10.2 to 207.7 +/- 29.1 microliter resulted in 6.2-27.1-fold increases in volume-dependent immunoreactive ANP release. A rise in immunoreactive ANP release induced by increasing atrial distension did not occur in the state of atrial distension but occurred only after return to the reduced distension. However, in the case of atrial distension with pacing, an increase in immunoreactive ANP release was observed during atrial distension with pacing and after return to the basal level. The present study shows that the new technique is applicable to the study of the 'stretch-secretion coupling' mechanism of ANP release in vitro, and that the more important factor involved in the release of immunoreactive ANP induced by atrial distension may be the atrial reduction to basal level after distension rather than the stretch itself.     

Presence of immunoreactive atrial natriuretic peptide in follicular fluid, ovary and ovarian perfusates

Immunoreactive atrial natriuretic peptide (ir-ANP) was measured in the follicular fluid of pig ovarian follicle, and rabbit ovarian homogenates and perfusates using a specific radioimmunoassay (RIA). Serial dilution curves made with the extracts of follicular fluid, ovarian homogenates and perfusates using SepPak C18 cartridges were parallel with the RIA standard curve. On gel filtration chromatography and reverse phase HPLC, all extracted materials showed high and low molecular weight forms of ir-ANP. The amount of ir-ANP in rabbit ovary was 40.70 +/- 0.39 pg/mg and that in follicular fluid of pig ovarian follicle was 18.88 +/- 2.49 pg/ml.     

Presence and release of immunoreactive atrial natriuretic peptide in granulosa cells of the pig ovarian follicle.

Atrial natriuretic peptide (ANP) has been reported to be locally synthesized in the ovary although its physiological roles are still unknown. To define the origin of ovarian ANP, we demonstrated the presence and release of immunoreactive (ir) ANP in pig granulosa cells and characterized its biochemical properties. Serial dilution curves made with the extracts of pig granulosa cells, their perfusates and follicular fluid were paralleled to the standard curve of ANP. The amount of irANP in the granulosa cell was 2 fg/cell. The total amount of irANP in granulosa cells significantly correlated with the levels of irANP in follicular fluid. Additionally, the total content of irANP in the follicle negatively correlated with the follicular size. On reverse phase HPLC, the major form of irANP in granulosa cells and follicular fluid was high molecular weight but that in perfusate was low molecular weight. In Northern blot analysis, ANP mRNA was detected in the pig granulosa cells. Immunohistochemistry showed ANP prohormone location in granulosa cells of rat ovary. These data strongly suggest that the granulosa cells synthesize and secrete ANP.     

Immunoreactive atrial natriuretic peptide and autoradiographic distribution of atrial natriuretic peptide binding sites in the brain of the Antarctic fish, Chionodraco hamatus

The anatomical distribution of atrial natriuretic peptide (ANP)-immunoreactive structures and the autoradiographic localization of ANP binding sites were studied in the brain of the Antarctic fish, Chionodraco hamatus. ANP-containing elements were colocated with ANP binding sites in the dorsal medial and lateral subdivisions of the telencephalon, prethalamic nuclear complex, and in the nucleus of the medial longitudinal fasciculus of the mesencephalon. However, mismatching was observed in other brain regions, particularly at mesencephalic and metencephalic levels. In the pituitary, ANP immunoreactivity occurred only in the pars distalis, whereas ANP binding sites were localized in the whole pituitary. In this paper we describe the occurrence of ANP immunoreactivity and ANP binding sites in the brain and pituitary of an Antarctic fish. In particular, in the cerebellum and pituitary of C. hamatus, ANP binding sites are distributed in corresponding brain regions of dipnoans, amphibians and mammals. The immunocytochemical and histoautoradiographic data suggest that ANP acts as neuromodulator in the brain of C. hamatus. Moreover, the presence of ANP-like substances in tanycytes lining the diencephalic ventricle suggests a chemosensorial role for such liquor-contacting cells and a possible modulatory effect of ANP on the osmoregulation of the cerebrospinal fluid. Accepted: 3 April 2000     

Identification of an atrial natriuretic peptide specific receptor in human kidney

A specific receptor for human atrial natriuretic peptide (h-ANP) was identified in the human kidney using the radioligand binding assay. Samples were prepared from non-malignant renal tissues obtained at nephrectomy of patients with renal carcinoma. Binding studies using [125I]hANP were performed at 0 degree C for 20 minutes and terminated by a rapid filtration technique. Scatchard plot analysis revealed [125I]hANP bound to a single class of binding site (Kd = 0.4 +/- 0.2 nM) with a density of 16 +/- 4 fmol/mg protein in the renal cortex (n = 7). The binding was rapid and maximal binding was obtained within 20 minutes after the start of incubation. Radioligand displacement was observed in a dose dependent fashion when cold hANP was entered into the reaction mixture. However, unrelated agents, such as angiotensin II or 1-epinephrine, did not affect the binding. This is the first time characterization of the hANP receptor in the human kidney has been conducted using a Scatchard plot analysis.     

Distribution and characterization of immunoreactive porcine C-type natriuretic peptide.

C-type natriuretic peptide (CNP) is a new member of the natriuretic peptide family recently identified in porcine brain (1). We raised an antiserum against porcine CNP and set up a radioimmunoassay (RIA) for CNP. Using this RIA system, distribution of immunoreactive (ir-) CNP in porcine tissue was measured and compared with that of ir-atrial natriuretic peptide (ANP) and ir-brain natriuretic peptide (BNP). Tissue concentration of ir-CNP in brain was the highest of the three natriuretic peptides at about 0.79 pmol/g wet wt. CNP was present in medulla-pons in high concentration, with a significant concentration detected in cerebellum. In contrast, ir-CNP was not detected in peripheral tissue, including heart, in a significant concentration. These data demonstrated sharp contrasts in the distribution of the three natriuretic peptides, suggesting that CNP is a natriuretic peptide functioning in the central nervous system.     

Evaluation of atrial natriuretic peptide and brain natriuretic peptide in atrial granules of rats with experimental congestive heart failure.

The natriuretic peptides are believed to play an important role in the pathophysiology of congestive heart failure (CHF). We utilized a quantitative cytomorphometric method, using double immunocytochemical labeling, to assess the characteristics of atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) in atrial granules in an experimental model of rats with CHF induced by aortocaval fistula. Rats with CHF were further divided into decompensated (sodium-retaining) and compensated (sodium-excreting) subgroups and compared with a sham-operated control group. A total of 947 granules in myocytes in the right atrium were analyzed, using electron microscopy and a computerized analysis system. Decompensated CHF was associated with alterations in the modal nature of granule content packing, as depicted by moving bin analysis, and in the granule density of both peptides. In control rats, the mean density of gold particles attached to both peptides was 347.0 +/- 103.6 and 306.3 +/- 89.9 gold particles/microm2 for ANP and BNP, respectively. Similar mean density was revealed in the compensated rats (390.6 +/- 81.0 and 351.3 +/- 62.1 gold particles/microm2 for ANP and BNP, respectively). However, in rats with decompensated CHF, a significant decrease in the mean density of gold particles was observed (141.6 +/- 67.3 and 158.0 +/- 71.2 gold particles/microm2 for ANP and BNP, respectively; p<0.05 compared with compensated rats, for both ANP and BNP). The ANP:BNP ratio did not differ between groups. These findings indicate that the development of decompensated CHF in rats with aortocaval fistula is associated with a marked decrease in the density of both peptides in atrial granules, as well as in alterations in the quantal nature of granule formation. The data further suggest that both peptides, ANP and BNP, may be regulated in the atrium by a common secretory mechanism in CHF.     

Characterization of immunoreactive human C-type natriuretic peptide in brain and heart.

Amino acid sequence of human C-type natriuretic peptide (CNP) has recently been deduced to be identical to those of porcine and rat CNPs in the bioactive unit of C-terminal 22 residues (CNP-22) (1). Thus, tissue concentrations and molecular forms of immunoreactive (ir-) CNP in human brain and heart were determined or characterized using a radioimmunoassay established for porcine CNP. In human brain (hypothalamus and medullapons), ir-CNP was detected at a concentration of 1.04 pmol/g, being about 25 times or 70 times higher than ir-atrial (A-type) natriuretic peptide (ANP) or ir-brain (B-type) natriuretic peptide (BNP). CNP was present mainly as CNP-53, with CNP-22 as well as 13K CNP (presumed to be pro-CNP) as minor components. In heart, 1 approximately 5 pmol/g of ir-CNP was detected in both atrium and ventricle, but this ir-CNP was shown to be derived from crossreactivity of ANP. These results demonstrated that human CNP functions exclusively in the central nervous system in contrast to ANP and BNP which mainly function in the circulation system.     

Secretion of atrial natriuretic peptide (ANP) from fish atrial and ventricular myocytes in tissue culture

Primary cultures of atrial and ventricular myocytes (approx. 1 x 10(5) cells/culture) were prepared from adult teleost fish Gila atraria and maintained for 10 days. Immunoreactive atrial natriuretic peptide (ir-ANP) from fish atrial and ventricular cells was 3.9 and 2.8 ng/culture respectively, values not significantly different. Atriocytes from rat and mouse secreted comparable amounts of ANP which were not significantly different from atrial fish cultures (5.2 and 4.3 ng/culture). In contrast, their ventricular myocytes secreted only small quantities of ANP (0.8 and 0.3 ng/culture). When analyzed by reversed-phase HPLC, the media of both fish atrial and ventricular myocytes contained a peptide which exhibited properties similar to authentic human ANP (Ser 99-Tyr 126), suggesting a significant degree of sequence homology between fish and mammalian ANP. Fish ventricular cells, unlike normal mammalian ventricular cells, secrete substantial quantities of immunoreactive-ANP.     

Release of atrial natriuretic peptide by atrial distension

A heterologous radioimmunoassay was used to measure the concentration of immunoreactive atrial natriuretic peptide (iANP) in plasma from the femoral artery of eight chloralose anaesthetized dogs. Mitral obstruction which increased left atrial pressure by 11 cmH2O increased plasma iANP from 97 +/- 10.3 (mean +/- SE) to 135 +/- 14.3 pg/mL. Pulmonary vein distension increased heart rate but did not increase plasma iANP. Bilateral cervical vagotomy and administration of atenolol (2 mg/kg) did not prevent the increase in iANP with mitral obstruction. Samples of blood from the coronary sinus had plasma iANP significantly higher than simultaneous samples from the femoral artery confirming the cardiac origin of the iANP. Release of iANP depends on direct stretch of the atrium rather than on a reflex involving left atrial receptors.     

Lack of diurnal rhythm in plasma atrial natriuretic peptide.

The occurrence of a circadian rhythm in the concentration of circulating atrial natriuretic peptide (ANP) is not clearly established. To investigate diurnal changes, plasma levels of ANP were measured at 10-min intervals for 24 hours in six normal volunteers. The subjects were studied once during a normal sleep-wake cycle and once during a cycle with a shifted sleep period. They received continuous enteral nutrition from 8 hours preceding the experiment until the end of the experiment, throughout this time the subjects remained in a supine position. The mean ANP levels did not differ significantly between the sleep periods and the periods spent awake in either of the protocols, which provides evidence of a lack of a sleep-related influence of ANP. A significant linearity of the mean ANP profile was observed, smoothing out the transient and randomly occurring fluctuations in individual ANP concentration. These results lead to the conclusion that ANP secretion is neither under the control of endogenous circadian rhythmicity nor is it affected by sleep-regulatory mechanisms.     

Regulation of atrial natriuretic peptide release in normal humans.

Atrial volume, pressure, and heart rate are considered the most important modulators of atrial natriuretic peptide (ANP) release, although their relative role is unknown. Continuous positive-pressure breathing in normal humans may cause atrial pressure and atrial volume to go in opposite directions (increase and decrease, respectively). We utilized this maneuver to differentially manipulate atrial volume and atrial pressure and evaluate the effect on ANP release. Effective filling pressure (atrial pressure minus pericardial pressure) was also monitored, because this variable has been proposed as another modulator of ANP secretion. We measured right atrial (RA) pressure, RA area, esophageal pressure (reflection of pericardial pressure), and RA and peripheral venous ANP in seven healthy adult males at rest and during continuous positive-pressure breathing (19 mmHg for 15 min). Continuous positive-pressure breathing decreased RA area (mean +/- SE, *P less than 0.05) 13.6 +/- 1.1 to 10.5 +/- 0.8* cm2, increased RA pressure 4 +/- 1 to 16 +/- 1* mmHg, increased esophageal pressure 2 +/- 1 to 12 +/- 1* mmHg, and increased effective filling pressure 2 +/- 0 to 4 +/- 1* mmHg. RA ANP increased from 67 +/- 17 to 91 +/- 18* pmol/l and peripheral venous ANP from 43 +/- 4 to 58 +/- 6* pmol/l.(ABSTRACT TRUNCATED AT 250 WORDS)     

血管钠肽、 C型钠尿肽和心房钠尿肽舒血管作用的对比

本实验采用离体血管灌流方法,观察和比较血管钠肽（ＶＮＰ）,Ｃ型钠尿肽（ＣＮＰ）和心房钠尿肽（ＡＮＰ）对大鼠肺动脉,腹主动脉和腹腔静脉的舒张作用。．结果表明,ＶＮＰ,ＣＮＰ和ＡＮＰ对离体大鼠的保留内皮与去内皮的肺动脉,腹主动脉和腹腔静脉均有浓度依赖性舒张作用。     

A comparative study on the innervation and the vascularization of the bulbus arteriosus in teleost fish

Summary The structure of the bulbus arteriosus of a wide range of teleost fish is described with particular reference to the vascularization and innervation. The adventitia of the organ consists of blood vessels and large nerve bundles in a collagen matrix. The nerve bundles contain monoamines, and fluorescence studies show small terminal bundles penetrating the muscular media; this is confirmed by electron microscopy. The media consists of an extensive elastic tissue matrix with a spiral arrangement of smooth muscle cells joined end to end by desmosomes and presumed electrotonic junctions. The muscle cells are innervated only at the adventitia/media boundary and the significance of this innervation is discussed. It is proposed that there is a correlation between the degree of vascularization and innervation and the activity of a particular species offish.