C-type natriuretic peptide system in rabbit colon

C-type natriuretic peptide (CNP) is mainly distributed in the brain and vascular endothelium and is considered to act as a local regulator in many tissues. The present study was aimed to determine the presence of CNP system and its biological function in rabbit colon. The serial dilution curves of tissue extracts were parallel to the standard curve of CNP-22. With gel permeation chromatography and reverse-phase HPLC, the major immunoreactive peak of CNP was observed at the same elution time corresponding to the synthetic CNP-53. The concentration of CNP in the mucosal layer of colon was 212.49 ± 30.44 pg/g tissue wet weight (n = 7), which was significantly higher than that in the muscular layer. The presence of CNP mRNA was also detected by RT-PCR and Southern blot analysis. Production of cGMP by the activation of particulate guanylyl cyclase stimulated by BNP and CNP was higher in membranes obtained from the muscular layer than from mucosal layer. More cGMP was produced by CNP than by ANP. Both natriuretic peptide receptor-A and -B mRNAs were detected by RT-PCR and specific binding sites to ¹²⁵I-[Tyr⁰]-CNP-22 were mainly localized to the muscular layer. Synthetic CNP inhibited basal tension, frequency and amplitude of basal motility of taenia coli of the right colon. This study showing the presence of CNP system and its biological function in colon suggests that endogenous CNP synthesized in the mucosal layer may have a paracrine function as a local regulator of colonic motility.     

Dendroaspis natriuretic peptide binds to the natriuretic peptide clearance receptor

Dendroaspis natriuretic peptide (DNP) is a newly-described natriuretic peptide which lowers blood pressure via vasodilation. The natriuretic peptide clearance receptor (NPR-C) removes natriuretic peptides from the circulation, but whether DNP interacts with human NPR-C directly is unknown. The purpose of this study was to test the hypothesis that DNP binds to NPR-C. ANP, BNP, CNP, and the NPR-C ligands AP-811 and cANP(4-23) displaced [(125)I]-ANP from NPR-C with pM-to-nM K(i) values. DNP displaced [(125)I]-ANP from NPR-C with nM potency, which represents the first direct demonstration of binding of DNP to human NPR-C. DNP showed high pM affinity for the GC-A receptor and no affinity for GC-B (K(i)>1000 nM). DNP was nearly 10-fold more potent than ANP at stimulating cGMP production in GC-A expressing cells. Blockade of NPR-C might represent a novel therapeutic approach in augmenting the known beneficial actions of DNP in cardiovascular diseases such as hypertension and heart failure.     

Expression of C-type natriuretic peptide and of its receptor NPR-B in normal and failing heart

C-type natriuretic peptide (CNP) was recently found in the myocardium, but possible insights into differences between atrium and ventricle production are so far lacking. Our aim was to evaluate, in an experimental model of pacing-induced heart failure (HF), plasma and tissue levels of CNP and mRNA expression of the peptide and of its specific receptor, NPR-B. Cardiac tissue was collected from male adult minipigs without (control, n=5) and with pacing-induced HF (n=5). Blood samples were collected at baseline and after pacing (10 min, 1, 2, 3 weeks). CNP in plasma and in cardiac extracts was determined by a radioimmunoassay, while the expression of mRNA by real time PCR. Compared to control, plasma CNP was increased after 1 week of pacing stress (36.9+/-10.4 pg/ml vs.16.7+/-1.1, p=0.013, mean+/-S.E.M.). As to myocardial extract, at baseline, CNP was found in all cardiac chambers and its content was 10-fold higher in atria than in ventricles (RA: 13.7+/-1.9 pg/mg protein; LA: 8.7+/-3.8; RV: 1.07+/-0.33; LV: 0.93+/-0.17). At 3 weeks of pacing, myocardial levels of CNP in left ventricle were higher than in controls (15.8+/-9.9 pg/mg protein vs. 0.9+/-0.17, p=0.01). CNP gene expression was observed in controls and at 3 weeks of pacing. NPR-B gene expression was found in all cardiac regions analyzed, and a down-regulation was observed in ventricles after HF. The co-localization of the CNP system and NPR-B suggests a possible role of CNP in HF and may prompt novel therapeutical strategies.     

血管钠肽对低氧大鼠心脏钠尿肽C受体表达的影响

目的 :探讨低氧对大鼠心脏钠尿肽C受体 (NPR C)表达的调节作用 ,以及血管钠肽 (VNP)对这一过程的影响。方法 :将大鼠随机分为 3组 :对照组、低氧组 (3～ 2 8d)和VNP(2 5～ 75 μg/kgbw) 低氧组 ,采用放射免疫的方法测定大鼠血浆心房钠尿肽 (ANP)的浓度 ,并采用定量PCR的方法分析NPR C的mRNA水平。结果 :低氧 2 8d大鼠血浆ANP浓度显著高于正常大鼠 (P <0 .0 5 ) ,而且每天注射 75 μg/kgbw的VNP使ANP浓度进一步升高 (P <0 .0 1)。低氧 3d对大鼠心脏NPR C的mRNA的量没有显著影响 ;低氧 7d使大鼠心脏NPR C的mRNA的拷贝数显著升高 (P <0 .0 5 ) ;低氧 14d、2 8d使大鼠心脏NPR C的mRNA的拷贝数进一步升高 (P <0 .0 1)。每日注射 2 5μg/kgbw的VNP对低氧诱导的大鼠心脏NPR C表达没有显著影响 ;5 0 μg/kgbw的VNP显著降低低氧大鼠心脏NPR C的表达 (P <0 .0 5 ) ;75 μg/kgbw的VNP进一步降低低氧大鼠心脏NPR C的表达 (P <0 .0 1)。 结论 :VNP可以升高低氧大鼠的血浆ANP水平 ;低氧可以使大鼠心脏NPR C表达增加 ,而且具有时间依赖性 ,而VNP对这一过程有抑制作用 ,并且呈剂量依赖性     

Vasonatrin peptide stimulates both of the natriuretic peptide receptors,NPRA and NPRB

Vasonatrin peptide (VNP) is an active cardiovascular factor and a novel synthetic natriuretic peptide with unknown natriuretic peptide receptor (NPR) binding properties. We set out to design binding models of NPRA/VNP and NPRB/VNP, and then assessed their recognition and binding affinities using molecular dynamics. Molecular dynamics analysis indicated decreases in the values of Van der Waals, electrostatic energy and potential energy of NPRB/VNP compared to NPRA/VNP. There was a 25% increase in H-bond formation between VNP and NPRB. The cGMP stimulated by VNP in NPRB-transfected HEK-293 cells was 11-fold higher than that of NPRA. We therefore demonstrated that VNP binds with both NPRA and NPRB, but with a preference for NPRB.     

C型钠尿肽的扩血管作用及机制

目的和方法：用常规离体血管灌流方法,观察钠尿肽家族新成员C型钠尿钛（CNP）对家兔腹主静脉及腹主动脉的作用及作用机制。结果：CNP在10^-1-10^-6mol/L浓度范围内对家兔静脉及动脉均呈剂量依赖性的舒张效应。其对静脉的作用与硝酸甘油（NTG）相似,且扩血管作用无ANP强,以腹主动脉为主对象分别施加阿托品（10^-7mol/L）,酚妥拉明（20μg）或消炎痛（20μg）等均不影响CNP的舒血管作用,优降糖和心得安可明显降低CNP对腹主动脉的舒张作用。CNP在基础状态下提前加入不抑制NE的缩血管反应。结论：CNP可能是一种静脉系统的扩张剂,同时亦是调节动脉张力的选择性调节肽,CNP舒血管作用机制至少有两途径：一是与K^ -ATP通道的开放有关,二是与激活β受体有关。     

C-type natriuretic peptide plasma levels are reduced in obese adolescents

The high prevalence of obesity in children may increase the magnitude of lifetime risk of cardiovascular disease (CD). At present, explicit data for recommending biomarkers as routine pre-clinical markers of CD in children are lacking. C-type natriuretic peptide (CNP) is assuming increasing importance in CD; in adults with heart failure, its plasma levels are related to clinical and functional disease severity. We have previously reported five different reference intervals for blood CNP as a function of age in healthy children; however, data on plasma CNP levels in obese children are still lacking. Aim of this study was to assess CNP levels in obese adolescents and verify whether they differ from healthy subjects. Plasma CNP was measured in 29 obese adolescents (age: 11.8 ± 0.4 years; BMI: 29.8 ± 0.82) by radioimmunoassay and compared with the reference values of healthy subjects. BNP was also measured. Both plasma CNP and BNP levels were significantly lower in the obese adolescents compared to the appropriate reference values (CNP: 3.4 ± 0.2 vs 13.6 ± 2.3 pg/ml, p < 0.0001; BNP: 18.8 ± 2.6 vs 36.9 ± 5.5 pg/ml, p = 0.003). There was no significant difference between CNP values in males and females. As reported in adults, we observed lower plasma CNP and BNP levels in obese children, suggesting a defective natriuretic peptide system in these patients. An altered regulation of production, clearance and function of natriuretic peptides, already operating in obese adolescents, may possibly contribute to the future development of CD. Thus, the availability of drugs promoting the action of natriuretic peptides may represent an attractive therapeutic option to prevent CD.     

Comparative aspects of natriuretic peptide physiology in non-mammalian vertebrates: a review

The natriuretic peptide system is a complex family of peptides and receptors that is primarily linked to the maintenance of osmotic and cardiovascular homeostasis. A natriuretic peptide system is present in each vertebrate class but there are varying degrees of complexity in the system. In agnathans and chondrichthyians, only one natriuretic peptide has been identified, while new data has revealed that multiple types of natriuretic peptides are present in bony fish. However, it seems in tetrapods that there has been a reduction in the number of natriuretic peptide genes, such that only three natriuretic peptides are present in mammals. The peptides act via a family of guanylyl cyclase receptors to generate the second messenger cGMP, which mediates a range of physiological effects at key targets such as the gills, kidney and the cardiovascular system. This review summarises the current knowledge of the natriuretic peptide system in non-mammalian vertebrates and discusses the physiological actions of the peptides.Abbreviations ANP atrial natriuretic peptide - AVT arginine vasotocin - BNP brain natriuretic peptide - cDNA complementary deoxyribonucleic acid - CNP C-type natriuretic peptide - cAMP adenosine 3, 5 cyclic monophosphate - cGMP guanosine 3, 5 cyclic monophosphate - GC guanylyl cyclase - GFR glomerular filtration rate - mRNA messenger ribonucleic acid - NPR natriuretic peptide receptor - NPs natriuretic peptides - sCP salmon cardiac peptide - VIP vasoactive intestinal peptide - VNP ventricular natriuretic peptide Communicated by I.D. Hume     

Glycosylation is critical for natriuretic peptide receptor-B function

Co-transfection of a truncated natriuretic peptide receptor-B (NPR-B) with the full length receptor results in a decrease of 60–80% in wild-type receptor activity. This reduction correlates with a loss of glycosylation of the full length NPR-B. This effect is dose-dependent, and occurs with no change in the glycosylation of the truncated receptor. Co-transfection of the full length NPR-B with other receptors yields similar results. These data suggest that glycosylation may be crucial for NPR-B function. Cross-linking studies further demonstrate that only fully glycosylated NPR-B receptors are able to bind ligand. Our data therefore argue that carbohydrate modification may be critical for NPR-B receptor ligand binding.Abbreviations as amino acids - ANF atrial natriuretic factor - ANOVA analysis of variance - BS³ bis(sulfosuccinimidyl) suberate - BSA bovine serum albumin - CNP C-type natriuretic peptide - DEAE dextran-diethylaminoethyl-dextran - DMEM Dulbecco's modified Eagle medium - DMSO dimethyl sulfoxide - dNTP deoxynucleotide triphosphate - EDTA ethylenediamine tetraacetic acid - IBMX 3-isobutyl-l-methyl-=xanthine - min minutes - N-linked asparagine-linked - NPR natriuretic peptide receptor - nt nucleotide - PCR polymerase chain reaction - RIA radioimmunoassay - RP-HPLC reverse phase-high performance liquid chromatography - RP-HPLC reverse phase-high performance liquid chromatography - SDS sodium dodecyl sulfate - UV ultraviolet Address for offprints:Department of Pharmacology, University of Montreal, 2900 Edouard Montpetit, Montreal, Quebec, H3C3J7, Canada     

Plasma C-type natriuretic peptide levels in healthy children

C-type natriuretic peptide (CNP) is assuming increasing importance in cardiovascular disease, and in adults its plasma levels are related to clinical and functional disease severity. Data are scarce regarding the reference values for CNP in infancy. Aim of this study was to assess the reference intervals for CNP in human healthy newborns and infants. Plasma CNP was measured in 121 healthy children divided into: 41 newborns (age 0-3 days), 24 newborns (4-30 days), 22 infants (1-12 months) and 32 children (1-12 years). A group of 32 healthy adult subjects (age 64 ± 1 years) was also studied. CNP was measured by a specific radioimmunoassay. Between- and within-assay variability resulted ≤ 30 and 20%, respectively and analytical sensitivity 0.77 ± 0.05 pg/tube. Plasma CNP resulted significantly higher in children than in adult subjects (13.6 ± 1.2 pg/ml vs. 7.4 ± 1.0 pg/ml, p=0.030). When the results were analyzed as a function of the age the reference intervals for plasma CNP resulted: 11.6 ± 2.1 pg/ml for newborns (0-3 days), 16.4 ± 3.7 pg/ml for newborns (4-30 days), 15.4 ± 2.7 pg/ml for infants (1-12 months), 13.6 ± 2.3 pg/ml for children (1-12 years) [p=0.01 newborns (4-30 days) vs. adults; p=0.03 infants (1-12 months) vs. adults]. CNP showed the highest concentrations after 12h of life with a peak between 4 and 5 days of life and with a progressive decline afterwards. According to these data at least five different reference intervals for CNP determinations should be used. These observations may be helpful for future clinical application of CNP in human children.     

Neutral endopeptidase and natriuretic peptide receptors participate in the regulation of C-type natriuretic peptide expression in renal interstitial fibrosis

The initiation and progression of renal interstitial fibrosis (RIF) is a complicated process in which many factors may play an activate role. Among these factors, C-type natriuretic peptide (CNP) is an endothelium-derived hormone and acts in a local, paracrine fashion to regulate vascular smooth muscle tone and proliferation. In this study, we established a rat model of unilateral ureteral obstruction (UUO). CNP expression tends to be higher immediately after ligation and declined at later time points, occurring predominantly in tubular epithelial cells. A high-level CNP may contribute to the elevated expression of natriuretic peptide receptor (NPR)-B in the early phase of UUO. However, the sustained expression of NPR-C and neutral endopeptidase (NEP) observed throughout the study period (that is up to 3 months) helps to, at least partly, explain the subsequent decline of CNP. Thus, NEP and NPRs participate in the regulation of CNP expression in RIF.     

Receptor-specific ligands distinguish natriuretic peptide receptors-A and -C in primate tissues

Systemic clearance of atrial natriuretic peptide (ANP) is in part due to neutral endopeptidase (NEP) proteolysis and natriuretic peptide receptor-C (NPR-C) mediated endocytosis. Biological responses to ANP are primarily mediated by the membrane guanylyl cyclase-A/natriuretic peptide receptor-A (NPR-A). Analogs of ANP selective for NPR-A and/or resistant to NEP may have increased activity in those tissues where NPR-C and NEP are coexpressed with NPR-A. The analog of ANP termed vANP; [(R3D, G9T, R11S, M12L, G16R)ANP] is selective for human NPR-A with at least 10,000 fold reduction in affinity for human NPR-C. We report that rat NPR-A is insensitive to 10 nM vANP, demonstrating the limitations of this species in evaluating human therapeutic candidates. As an alternative approach we tested the binding and potency of receptor-selective and NEP-resistant ANP analogs in rhesus monkey tissues. Competition binding studies with a simplified version of vANP, sANP [(G9T, R11S, G16R)rANP], in rhesus monkey kidney and lung membrane preparations shows displacement of ¹²⁵I-ANP from only a fraction of the total ANP receptor population, 30 and 85%, respectively. The remaining ANP binding sites can be occupied with the NPR-C selective ligand cANP(4-23). These data strongly suggest that only two classes of ANP receptor are present in these membrane preparations, NPR-A and NPR-C. The NEP resistant sANP derivative called sANP(TAPR) was 8 fold more potent (ED₅₀ = 0.6 nM) than rANP (ED₅₀ = SnM) in stimulating cGMP production in the lung membrane preparation. Our results demonstrate that the rhesus monkey natriuretic peptide receptors reflect the pharmacology of the human receptors, and that this species may be suitable to determine the role of NPR-C and NEP in peptide clearance and attenuating functional responses.     

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。     

Alterations in atrial natriuretic peptide and its receptors in streptozotocin-induced diabetic rat kidneys

In this study the effect of diabetes mellitus on atrial natriuretic peptide (ANP) receptors in streptozotocin- (STZ-) induced diabetic rat kidneys was studied. Moreover, plasma ANP concentration was evaluated in diabetic and control rats by using radioimmunoassay. In addition, the expression of ANP in the kidneys of control and diabetic rats was evaluated by immunohistochemistry. Body-weight loss and increased glucose levels were used as indices of diabetes mellitus in the STZ-induced rats. There was a significant loss in the body weight of the diabetic rats compared to controls. The efficacy of STZ administration was confirmed by rising blood glucose levels, which were significantly higher in diabetic rats compared to controls. Plasma ANP concentration was significantly greater in the diabetic rats in comparison with controls. Moreover, our immunohistochemical results show that the expression of ANP in diabetic rats was higher than that in age-matched controls. ANP was observed in the cells lining the proximal convoluted tubules in the cortex. The distribution and levels of ANP receptors in the kidneys of diabetic rats and age-matched controls were investigated using quantitative receptor autoradiography. Our results demonstrate significant decrease in ANP receptors in the kidneys of the diabetic rats compared to controls. The significant decrease was found in the juxtaglomerular medulla, inner medulla, and the papillae. The decrease in ANP receptors observed in the diabetic kidneys could have pathological consequences resulting in renal resistance to ANP in diabetes. (Mol Cell Biochem 261: 3–8, 2004)     

Gene expression of C-type natriuretic peptide and of its specific receptor NPR-B in human leukocytes of healthy and heart failure subjects

C-type natriuretic peptide (CNP), a member of the family of natriuretic peptides, is synthesized and secreted from monocytes and macrophages that resulted to be a source of CNP at inflammatory sites. This suggests that special attention should be focused on the possible role of CNP in the immune system, in addition to its effects on the cardiovascular system. The aim of this study was to evaluate the possibility of measuring the mRNA expression of CNP and NPR-B, its specific receptor, in human whole blood samples of healthy (N; n=7) and heart failure (HF; n=7) subjects by Real-Time PCR (RT-PCR). Total RNA was extracted from leukocytes with QIAamp RNA Blood Kit and/or with PAXgene Blood RNA Kit. RT-PCR was performed and optimized for each primer. The experimental results were normalized with the three most stably expressed genes. CNP and NPR-B expression trend was similar in both fresh and frozen human whole blood. Significant higher levels of CNP and NPR-B mRNA expression were found in HF patients with respect to controls (CNP: N=1.23±0.33 vs. HF=6.54±2.09 p=0.027; NPR-B: N=0.85±0.23 vs. HF=5.31±1.98 p=0.04). A significant correlation between CNP and NPR-B (r=0.86, p<0.0001) was observed. Further studies are needed to clarify the pathophysiological properties of this peptide but the possibility to measure CNP and NPR-B mRNA expression in human leukocytes with a fast and easy procedure is a useful starting point for future investigation devoted to better understand the biomolecular processes associated to different diseases.     

The role of iNOS-derived NO in the antihypertrophic actions of B-type natriuretic peptide in neonatal rat cardiomyocytes

In the infarcted rat heart, the increase of NO occurs in the hypertrophied myocardium of non-infarcted areas and its antihypertrophic efficacy has been well established. As another endogenous regulator and the reliable index of heart pathology, B-type natriuretic peptide also exhibits the antihypertrophic properties in many tissues by elevating intracellular cGMP. Several studies indicate that natriuretic peptides family may exert some actions in part via a nitric oxide pathway following receptor-mediated stimulation of iNOS. Therefore, it raises our great interest to ask what role NO plays in the antihypertrophic actions of B-type natriuretic peptide in cardiomyocytes. Incubation of cardiomyocytes under mild hypoxia for 12 h caused a significant increase in cellular protein content, protein synthesis and cell surface sizes. This growth stimulation was suppressed by exogenous B-type natriuretic peptide in a concentration dependent manner. Furthermore, the generation of intracellular cGMP, the upregulation of iNOS mRNA expression, the increase of iNOS activity and subsequent nitrite generation in hypertrophic cardiomyocytes was also increased by B-type natriuretic peptide. AG, a selective iNOS inhibitor, inhibited the upregulation of iNOS expression and the increase of iNOS activity by the combination of B-type natriuretic peptide/mild hypoxia or by the combination of 8-bromo-cGMP/mild hypoxia. Rp-8-br-cGMP, cGMP dependent protein kinase inhibitor, attenuated the actions of B-type natriuretic peptide and 8-bromo-cGMP which increases intracellular cGMP independent of B-type natriuretic peptide. In conclusion, our present data suggest that B-type natriuretic peptide exerted the antihypertrophic effects in cardiomyocytes, which was partially attributed to induction of iNOS-derived NO by cGMP pathway.     

Asymmetrical myocardial expression of natriuretic peptides in pacing-induced heart failure

High-frequency pacing of the left ventricle (LV) free wall causes a dyssynchronous pattern of contraction that leads to progressive heart failure (HF) with pronounced differences in regional contractility. Aim of this study was to evaluate possible changes in brain natriuretic peptide (BNP) and C-type natriuretic peptide (CNP) mRNA expression in the anterior/anterior lateral region (pacing site, PS) as compared to the infero-septal region (opposite site, OS) and to explore possible association between the contractiling pattern and biomarker expression. Cardiac tissue was collected from minipigs with pacing-induced HF (n = 8) and without (control, n = 6). The samples were selectively harvested from the anterior left ventricular (LV) wall, PS, and from an area remote to the pacing-site, OS. BNP and CNP mRNA expression was evaluated by semi-quantitative polymerase chain reaction (PCR). A significant difference in BNP expression was found in the PS between HF animals and controls (BNP/GAPDH: 0.65 ± 0.11 vs. 0.35 ± 0.04, p = 0.02), but not in the OS (BNP/GAPDH: 0.36 ± 0.05, ns vs. controls). CNP expression was not different compared to controls, although higher levels were observed in the PS and in the OS with respect to the controls (CNP/GAPDH: controls 0.089 ± 0.036, PS 0.289 ± 0.23, OS 0.54 ± 0.16). This finding was in tune with an increase of CNP tissue concentration (controls: 0.69 ± 0.13; PS = 1.56 ± 0.19; OS = 1.70 ± 0.42 pg/mg protein; p = 0.039 controls vs. OS). Higher BNP mRNA expression in the PS is consistent with a reduction in contractile function in this region, while higher CNP mRNA expression in the OS suggests the presence of concomitant endothelial dysfunction in the remote region.     

Human plasmacytoid dendritic cells express an atrial natriuretic peptide receptor, guanylyl cyclase-A

Atrial natriuretic peptide is a cardiovascular hormone secreted mainly by the cardiac atria and regulates the volume–pressure homeostasis. The action of ANP is mediated by GC-A. We previously reported that human monocyte-derived dendritic cells express GC-A and respond to ANP with polarization toward a Th2-inducing phenotype. In the present study, we explored the possibility that pDC are subjected to immunoregulation via the ANP/GC-A system. We examined GC-A expression on blood pDC and found that GC-A was not expressed on fresh pDC but was induced after stimulation with CpG-oligodeoxynucleotide AAC-30, IL-3, or interleukin-3 plus CD40 ligand. Activated pDC responded to ANP with an increase in cGMP production, indicating that GC-A expressed on pDC was functional. We investigated whether tonsillar pDC express GC-A by immunohistochemistry and immunofluorescence staining. We found that GC-A⁺ HLA-DR⁺ cells were present in the T-cell areas and the perivascular areas. Flow cytometric analysis with tonsillar cells confirmed that lineage⁻ CD123^high pDC express GC-A. These results indicate that the ANP/GC-A system is involved in immune regulation through pDC in secondary lymphoid organs.     

Expression of C-type natriuretic peptide and its receptor NPR-B in cardiomyocytes

C-type natriuretic peptide (CNP) was recently found in myocardium at the mRNA and protein levels, but it is not known whether cardiomyocytes are able to produce CNP. The aim of this study was to determine the expression of CNP and its specific receptor NPR-B in cardiac cells, both in vitro and ex vivo. CNP, brain natriuretic peptide (BNP) and natriuretic peptide receptor (NPR)-B mRNA expression were examined by RT-PCR in the H9c2 rat cardiac myoblast cell line, in neonatal rat primary cardiomyocytes and in human umbilical vein endothelial cells (HUVECs) as control. CNP protein expression was probed in cardiac tissue sections obtained from adult male minipigs by immunohistochemistry, and in H9c2 cells both by immunocytochemistry and by specific radioimmunoassay. The results showed that cardiac cells as well as endothelial cells were able to produce CNP. Unlike cardiomyocytes, as expected, in endothelial cells expression of BNP was not detected. NPR-B mRNA expression was found in both cell types. Production of CNP in the heart muscle cells at protein level was confirmed by radioimmunological determination (H9c2: CNP = 0.86 ± 0.083 pg/mg) and by immunocytochemistry studies. By immunostaining of tissue sections, CNP was detected in both endothelium and cardiomyocytes. Expression of CNP in cardiac cells at gene and protein levels suggests that the heart is actively involved in the production of CNP.