Three immunologically similar atrial natriuretic factor receptors

One of the atrial natriuretic factor (ANF) receptors is a 180 kDa protein (180 kDa mGC) which possesses the extraordinary characteristic of being bifunctional: it is both a receptor and a guanylate cyclase. In addition to the 180 kDa mGC, there exists another 120–130 kDa protein which is also bifunctional and a 120 kDa disulfide-linked dimeric cell surface protein that is an ANF receptor, but is not a part of guanylate cyclase. A fundamental question that needs to be resolved is: Are these three apparently biochemically distinct ANF receptors structurally similar? With the aid of affinity crosslinking techniques, a highly specific antibody to the 180 kDa mGC, and GTP-affinity techniques, we now demonstrate the presence of three immunologically similar proteins in rat adrenal gland and testes. These proteins migrate as 180 kDa, 130 kDa and 65 kDa under denaturing sodium dodecyl sulfate polyacrylamide gel electrophoresis and specifically bind ANF, raising one or more of the following possibilities about their relationships: 1) Degradation of 180 kDa to 130 kDa and 65 kDa occurs during purification; 2) 180 kDa bears a precursor-product relationship with 130 kDa and 65 kDa, suggesting the role of a protease in the processing procedure; 3) these proteins are a result of gene splicing; or 4) they are the products of three separate, but very closely related genes.     

Rat atrial natriuretic factor: Isolation,structure and biological activities of four major peptides

Four peptides possessing both natriuretic activity and smooth muscle relaxant activity were isolated from rat atrium and their amino acid sequences determined. The four peptides designated ANF-I, ANF-II, ANF-III and ANF-IV containing 35, 31, 30 and 25 amino acid residues, respectively, were obtained in a molar ratio of 4:60:20:16. The predominant species ANF-II, which may represent the native form of ANF, has the following sequence: (H₂N)-G-P-R-S-L-R-R-S-S-C-F-G-G-R-I-D-R-I-G-A-Q-S-G-L-G-C-N-S-F-R-Y-(COOH) in which Cys-10 and Cys-26 are disulfide linked. Cleavage of the aspartyl linkage at position 16 by staphylococcal protease caused complete inactivation, indicating that the ring conformation is essential. The dose-response relationships determined for the four pepdides in relaxing norepinephrine-induced contraction of rabbit thoracic aorta showed half-maximum relaxation at concentrations ranging from 1.5 × 10^?9 to 2.5 × 10^?9 M. Comparable dose-response relationships were observed in relaxation of carbacol-induced contraction of chick rectum strips as tested with ANF-II and ANF-IV.     

Atrial natriuretic factor inhibits adenylate cyclase activity

The synthetic atrial natriuretic factor (ANF) (8- 33AA ) inhibited adenylate cyclase activity in aorta washed particles, mesenteric artery, and renal artery homogenates in a concentration dependent manner with an apparent Ki between 0.1 to 1nM . The extent of inhibition of adenylate cyclase by ANF varied from tissue to tissue. The adenylate cyclase from mesenteric artery and renal artery was inhibited to a greater extent as compared to that from aorta. ANF was also able to inhibit the stimulatory effects of hormones on adenylate cyclase activity and of agents such as F- and forskolin which activate adenylate cyclase by receptor- independent mechanism. In addition, ANF showed an additive effect with the inhibitory response of angiotensin II on adenylate cyclase from rat aorta. These studies for the first time demonstrate that ANF is an inhibitor of adenylate cyclase of several systems.     

Discovery of atrial natriuretic factor in the brain: Its characterization and cardiovascular implication

1. We have devised a radioimmunoassay for atrial natriueretic factor (ANF). Its application to rat brain extract led to the discovery of ANF in the brain. In addition to the hypothalamus and the pontine medullary region, it was widely distributed. 2. ANF in the brain is stored in a low molecular weight form, in contrast to pro-ANF in the atria. Thus, the processing of pro-ANF in the bran neuronal cells is different from that in the atria. 3. ANF was found in the anterior and posterior lobes of the pituitary, the peripheral ganglia, adrenergic neurons, and the adrenal medulla. 4. Brain ANF suppressed stimulated dipsogenesis, basal and stimulated vasopressin release, and angiotensin II-stimulated pressor effects. 5. ANF in the peripheral neuronal system inhibits catecholamine synthesis and release. Thus, central ANF functions to reduce the peripheral fluid volume and vascular tone in concert with the peripheral ANF.     

Central natriuretic peptides regulation of peripheral atrial natriuretic factor release

Atrial natriuretic factor (ANF) and C-type natriuretic peptide (CNP) receptors have been described in encephalic areas and nuclei related to the regulation of cardiovascular as well as sodium and water homeostasis. Stimulation of the anterior ventral third ventricular region of the brain modifies plasma ANF concentration, suggesting the participation of the central nervous system in the regulation of circulating ANF. The aim of this work was to study the effect of centrally applied ANF or CNP on plasma ANF. Normal and blood volume expanded rats (0.8 ml isotonic saline/100 g body weight) were intra cerebralventricularly injected with 1, 10 or 100 ng/μl/min ANF. Blood volume expanded animals were also centrally injected with the same doses of CNP. Blood samples were collected at 5 and 15 min. after intracerebralventricular administration of either ANF or CNP. Centrally applied ANF did not affect circulating ANF in normal blood volume rats. In blood volume expanded animals both ANF (1, 10 or 100 ng/μl/min) and CNP (1 ng/μl/min) decreased plasma ANF concentration after 15 min. Moreover, CNP (10 and 100 ng/μl/min) lowered circulating ANF levels not only at 15 min but also at 5 min. Neither ANF nor CNP elicited any change in mean arterial pressure and heart rate in normal and blood volume expanded rats. These results suggest the existence of a central regulation exerted by natriuretic peptides on circulating ANF levels. Furthermore, this is the first study reporting an effect on plasma ANF induced by centrally applied CNP.     

Rat atrial natriuretic factor. Purification and vasorelaxant activity

The atrial natriuretic activity of rat heart has been found to exist in multiple forms. One of these factors has been purified to apparent homogeneity by a combination of gel filtration and high pressure liquid chromatography in two different systems and its amino acid composition determined. The purified active peptide is shown to have a molecular weight of approximately 3800. In addition, the vasorelaxant activity of rat atrium has been purified and found to cochromatograph with the natriuretic activity in all chromatographic systems employed. Thus, the vasorelaxant activity resides in the natriuretic factor. The existence of this new multifunctional peptide implies a higher level of complexity for cardiovascular control of blood volume and pressure.     

Expression of atrial natriuretic factor gene in heart ventricular tissue

A novel peptide hormone, atrial natriuretic factor (ANF), was recently isolated and characterized in mammalian atria. This hormone has potent natriuretic, diuretic and vasorelaxant activities. Since ANF bioactivity was initially found in atria but not in ventricles, it was assumed that the ANF gene is specifically expressed in atria. We now report that ANF mRNA is present in ventricular tissue as well as in atria. This is clearly demonstrated by in situ hybridization and by Northern blot analysis. Rat ventricular ANF mRNA concentration is a hundred-fold lower than in atria. As in atria, the 126 amino acids precursor form of ANF is predominant in ventricles and it is present at a thousand-fold lower concentration. The ten-fold discrepancy in the ratio of ANF mRNA to immunoreactivity between atria and ventricles could reflect a higher rate of peptide release in the latter. Thus, ventricular ANF production may be physiologically significant in view of the much larger ventricular mass.     

重组人心房利钠肽 (ANP) 的原核表达、纯化及鉴定

为提高重组人心房利钠肽(Atrial natriuretic peptide,ANP)的表达量,将3个ANP通过赖氨酸(Lysine,K)串联,并构建相对应的重组表达载体p ET28a(+)/ANP3。转染大肠杆菌进行诱导表达,目的蛋白约占菌体总蛋白的60%。经过包涵体变复性,赖氨酸酶(Lys-C)和羧肽酶(CPB)水解,以及一系列层析纯化,每升培养液可获得约16 mg的ANP蛋白。最终,纯化后的ANP经UPLC及Tricine SDS-PAGE鉴定,纯度大于90%,LC-MS鉴定显示其分子量为3 080 Da,且为二硫键正确形成的ANP单体,通过ELISA试剂盒检测,其具有和参比品一致活性。本研究为ANP的大规模制备打下了基础。同时,所采用的串联表达技术也为其他多肽类药物的重组表达提供了新的思路。     

Spatial and temporal distribution of atrial natriuretic factor in the rat testis.

The atrial natriuretic factor (ANF) is a cardiac hormone whose gene and receptor are widely expressed in extracardiac tissues and organs. ANF induces its biological effects by binding to its specific guanylyl-cyclase-A receptor, which synthesizes the intracellular second messenger cGMP. Increasing evidences indicate that the testis shows the highest reactivity of stimulation of guanylate cyclase by ANF. The well-established functionally active ANF receptors in seminiferous tubules raise the question of the origin and function of ANF in the testis. Therefore, the current study was carried out to investigate the spatial and temporal distribution of ANF in the rat testis by use of immunocytochemistry. Our immunocytochemical results showed that at different pre- and postnatal ages of testicular development ANF was constantly expressed in Leydig cell cytoplasm. However, the intensity of immunoreaction varied between the different Leydig cell populations (fetal, progenitor and immature) and apparently depends on the acquisition of testosterone producing ability. In seminiferous tubules ANF staining was established in the cytoplasm of the developing spermatocytes, in degenerating germ cells (23-day of age) in the cytoplasm of Sertoli cells, cap phase of acrosomal development and in the spermatids (55-day of age). The observed staining patterns suggest a broader spectrum of ANF activities and a possible participation in the whole process of regulation of germ cell development. Our data provide additional support for the hypothesis that ANF plays a major role in autocrine/paracrine regulation of the rat male gonad.     

Interaction of atrial natriuretic factor and endothelin-1 signals through receptor guanylate cyclase in pulmonary artery endothelial cells

The endothelial cell has a unique intrinsic feature: it produces a most potent vasopressor peptide hormone, endothelin (ET-1), yet it also contains a signaling system of an equally potent hypotensive hormone, atrial natriuretic factor (ANF). This raises two related curious questions: does the endothelial cell also contain an ET-1 signaling system? If yes, how do the two systems interact with each other? The present investigation was undertaken to determine such a possibility. Bovine pulmonary artery endothelial (BPAE) cells were chosen as a model system. Identity of the ANF receptor guanylate cyclase was probed with a specific polyclonal antibody to the 180 kDa membrane guanylate cyclase (mGC) ANF receptor. A Western-blot analysis of GTP-affinity-purified endothelial cell membrane proteins recognized a 180 kDa band; the same antibody inhibited the ANF-stimulated guanylate cyclase activity; the ANF-dependent rise of cyclic GMP in the intact cells was dose-dependent. By affinity cross-linking technique, a predominant 55 kDa membrane protein band was specifically labeled with [¹²⁵I]ET-1. ET-1 treatment of the cells showed a migration of the protein kinase C (PKC) activity from cytosol to the plasma membrane; ET-1 inhibited the ANF-dependent production of cyclic GMP in a dose-dependent fashion with an EC₅₀ of 100 nM. This inhibitory effect was duplicated by phorbol 12-myristate 13-acetate (PMA), a known PKC-activator. The EC₅₀ of PMA was 5 nM. A PKC inhibitor, 1-(5-isoquinolinyl-sulfonyl)-2-methyl piperazine (H-7), blocked the PMA-dependent attenuation of ANF-dependent cyclic GMP formation. These results demonstrate that the 180 kDa mGC-coupled ANF and ET-1 signaling systems coexist in endothelial cells and that the ET-1 signal negates the ANF-dependent guanylate cyclase activity and cyclic GMP formation. Furthermore, these results support the paracrine and/or autocrine role of ET-1.     

Change of insulin-like growth factor gene expression in Chinese hamster ovary cells cultured in serum-free media

Although the sera used in animal cell culture media provide the macromolecules, nutrients, hormones, and growth factors necessary to support cell growth, it could also be an obstacle to the production of recombinant proteins in animal cell culture systems used in many sectors of the biotechnology industry. For this reason, many research groups, including our laboratory, have been trying to develop serum-free media (SFM) or serum-supplemented media (SSM) for special or multi-purpose cell lines. The Chinese hamster ovary (CHO) cell, for example, is frequently used to produce proteins and is especially valuable in the large-scale production of pharmaceutically important proteins, yet information about its genome is lacking. Also, SFMs have only been evaluated by comparing growth patterns for cells grown in SFMs with those grown in SSM or by measuring the titer of the target protein obtained from cells grown in each type of medium. These are not reliable methods of obtaining the type of information needed to determine whether an SFM should be replaced with an SSM. We carried out a cDNA microarray analysis to evaluate MED-3, an SFM developed in our laboratory, as a CHO culture medium. When CHO cells were cultured in MED-3 instead of an SSM, several genes associated with cell growth were down-regulated, although this change diminished over time. We found that the insulin-like growth factor (IGF) gene was representative of the proteins that were down-regulated in cells cultured in MED-3. When several key supplements-including insulin, transferrin, ethanolamine, and selenium-were removed from MED-3, theIGF expression was consistently down-regulated and cell growth decreased proportionately. Based on these results, we concluded that when an SFM is used as a culture medium, it is important to supplement it with substances that can help the cells maintain a high level ofIGF expression. The data presented in this study, therefore, might provide useful information for the design and development of SFM or SSM, as well as for the design of genome-based studies of CHO cells to determine how they can be used optimally for protein production in pharmaceutical and biomedical research.     

大鼠心肌肥厚时左心室心房钠尿肽基因的转录

本工作运用ANF放射免疫测定和ANF核酸分子杂交的方法,测定了大鼠腹主动脉部分结扎引起心肌肥厚时血浆ANF及左心室ANF mRNA水平的变化。结果表明,心肌肥厚大鼠的血浆ANF及左心室ANF mRNA水平都明显升高,提示大鼠心肌肥厚可以促进其左心室ANF基因的转录和表达。此外,本工作还证明细胞内钙离子调节剂牛磺酸和血管松弛剂肼苯哒嗪可以分别促进和抑制大鼠心肌肥厚诱导的左心室ANF基因的转录和表达。     

Intracoronary and systemic release of the atrial natriuretic factor and cyclic-guanosine monophosphate during coronary angioplasty

Summary This study was undertaken to investigate intracoronary production and systemic release of the atrial natriuretic factor (ANF) and cyclic-guanosine monophosphate (c-GMP) during coronary angioplasty (PTCA). three coronary blood samples were collected, through a balloon catheter, from the area distal to the lesion: before balloon inflation, at maximum inflation and 5 min later. Four additional venous samples were collected: before PTCA, and 5 min, 2 h and 24 h after the procedure. Local intracoronary c-GMP production increased from the baseline level of 7.5±0.9 pmol/ml to 11.1±1.3 pmol/ml at maximum balloon inflation (p<0.01) and decreased 5 min later to 9.5 ±1.0 pmol/ml (p=NS). In contrast, intracoronary ANF production failed to show any significant change at any time during the procedure. Peripheral venous ANF levels increased from 79.1±11.1 pmol/ml to 99.9±16.6 pmol/ml 5 min after balloon inflation (p<0.05) and gradually decreased 2 h (91.9±13.6 pmol/ml) and 24 h (85.6±10.4 pmol/ml) after the procedure. Similarly, peripheral venous c-GMP levels increased from 11.3±1.7 pmol/ml before PTCA to 14.9±1.9 pmol/ml 5 min after balloon inflation (p<0.05), and then gradually decreased 2 h (10.8±1.4 pmol/ml) and 24 h (8.2±1.4 pmol/ml) after the procedure (p<0.01 and <0.0001 compared to the peak value, respectively). In conclusion, acute vessel occlusion and distension during balloon inflation stimulates intracoronary c-GMP production without affecting ANF release.     

Gene expression analysis in LLC-PK1 renal tubular cells by atrial natriuretic peptide (ANP): correlation of homologous human genes with renal response

We used human DNA microarray to explore the differential gene expression profiling of atrial natriuretic peptide (ANP)-stimulated renal tubular epithelial kidney cells (LLC-PK1) in order to understand the biological effect of ANP on renal kidney cell's response. Gene expression profiling revealed 807 differentially expressed genes, consisting of 483 up-regulated and 324 down-regulated genes. The bioinformatics tool was used to gain a better understanding of differentially expressed genes in porcine genome homologous with human genome and to search the gene ontology and category classification, such as cellular component, molecular function and biological process. Four up-regulated genes of ATP1B1, H3F3A, ITGB1 and RHO that were typically validated by real-time quantitative PCR (RT-qPCR) analysis serve important roles in the alleviation of renal hypertrophy as well as other related effects. Therefore, the human array can be used for gene expression analysis in pig kidney cells and we believe that our findings of differentially expressed genes served as genetic markers and biological functions can lead to a better understanding of ANP action on the renal protective system and may be used for further therapeutic application.     

Regulation of guanylate cyclase activity by atrial natriuretic factor and protein kinase C

Summary The putative second messenger of certain atrial natriuretic factor (ANF) signal transductions is cyclic GMP. Recently, we purified a 180-kDa protein, apparently containing both ANF receptor and guanylate cyclase activities, and hypothesized that this is one of the cyclic GMP transmembrane signal transducers. The enzyme is ubiquitous and appears to be conserved. Utilizing the 180-kDa membrane guanylate cyclase, we now show that the 180-kDa guanylate cyclase is regulated in opposing fashions by two receptor signals—ANF stimulating it and protein kinase C inhibiting it. Furthermore, protein kinase C phosphorylates the 180-kDa enzyme. This suggests a novel switch on and switch off mechanism of the cyclic GMP signal transduction. Switch off represents the phosphorylation while switch on the dephosphorylation of the enzyme.     

Atrial natriuretic factor in the impulse-conduction system of rat cardiac ventricles

Summary A complex network of atrial natriuretic factor-producing cells has been delineated by biochemical and morphological techniques in the rat ventricular myocardium. The chordae tendineae spuriae (CTS; false tendons) contain ANF mRNA and the ANF propeptide (Asn 1-Tyr 126) as assessed by Northern blot analysis, high-pressure liquid chromatography and immunohisto- and -cytochemistry, using three different affinity-purified antibodies: monoclonal and polyclonal antibodies against C-terminal ANF (Arg 101-Tyr 126) and polyclonal antibodies against N-terminal ANF (Asp 11-Ala 37). Two types of cells harboring ANF-containing secretory granules constitute the CTS: the majority (Purkinje type I) have ultrastructural similarities with both atrial and classical Purkinje fibers. Purkinje type-II fibers resemble working ventricular cardiocytes. Both cell types harbor a large paranuclear Golgi complex. The subendocardial Purkinje network is also made up of these two cell types. In this location, Purkinje type-I fibers form cable-like structures while Purkinje type-II fibers are either located beneath the former or abut directly on the endocardium. The latter are not separated from adjacent working ventricular cardiocytes by connective tissue septa. Coronary arteries and arterioles, as in birds, are surrounded by a cushion of Purkinje type-II fibers which blend with the surrounding myocardium. These results indicate that, in the rat, the entire intraventricular conduction system is constituted of endocrine cells producing ANF.Supported by a Medical Research Council of Canada Group Grant to the Multidisciplinary Research Group on Hypertension, by the National Research Council of Canada, the Pfizer Company (England), Bio-Méga Inc. and the Canadian Heart Foundation     

Isolation and sequence determination of peptide components of atrial natriuretic factor

The independent isolation and sequence determination in our laboratories of three closely related Atrial Natriuretic Factor peptides from rat atria confirm the sequences of ANF peptides reported by Seidah et al and synthesized by Nutt et al [Proc. Natl. Acad. Sci., (1984) in press] and contain the sequences reported by Flynn et al [Biochem. Biophys. Res. Commun. (1983) 117: 859-865] and by Currie et al [Science (1984) 223: 67-69]. In addition, we provide proof for a C-terminal tyrosine rather than tyrosine amide in our isolated peptides.     

High-cell-density fermentation studies of a recombinantE. coli that expresses atrial natriuretic factor

Summary Studies are presented on the fermentation of recombinantEscherichia coli that express rat atrial natriuretic factor (ANF) as a fusion protein. Our objective was to achieve high cell density while maintaining ANF expression at the same level as observed in shake flasks. Improved fermentation conditions included: maintaining glucose concentrations at 1 g/l, using an enriched medium, adding concentrates of medium throughout the fermentation, and blending oxygen for adequate aeration. Cell densities of 12 g/l (dry weight) were achieved, which represented a 10-fold increase over non-improved conditions, while maintaining ANF levels at 7 mg/g of dry cell mass. When galactose was used as an initial carbon source or as a feed supplement, there was a 2-3-fold increase in the expression of ANF from these high-cell-density fermentations. The recombinant ANF was biologically active.