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• W2071397469 abstract "HomeHypertensionVol. 23, No. 6_pt_1Calcium dependency of frequency-stimulated atrial natriuretic peptide secretion. Free AccessAbstractPDF/EPUBAboutView PDFSections ToolsAdd to favoritesDownload citationsTrack citationsPermissions ShareShare onFacebookTwitterLinked InMendeleyReddit Jump toFree AccessAbstractPDF/EPUBCalcium dependency of frequency-stimulated atrial natriuretic peptide secretion. R J Schiebinger, Y Li and E J CragoeJr R J SchiebingerR J Schiebinger Department of Internal Medicine, Wayne State University, Detroit, Mich. Search for more papers by this author , Y LiY Li Department of Internal Medicine, Wayne State University, Detroit, Mich. Search for more papers by this author and E J CragoeJrE J CragoeJr Department of Internal Medicine, Wayne State University, Detroit, Mich. Search for more papers by this author Originally published1 Jun 1994https://doi.org/10.1161/01.HYP.23.6.710Hypertension. 1994;23:710–716AbstractIn this study we examined the mechanism whereby atrial natriuretic peptide secretion is increased when the frequency of contraction is raised from 2 to 5 Hz. We tested the hypothesis that calcium plays a significant role in the frequency-stimulated response. Using superfused rat left atria, we found that lowering the superfusate calcium concentration from 1.8 to 0.2 mmol/L abolished the frequency-stimulated atrial natriuretic peptide secretory response. Superfusion with ryanodine (1 mumol/L), an inhibitor of sarcoplasmic reticulum calcium release, resulted in a minimal inhibitory effect. Superfusion with 50 mumol/L nitrendipine or 10 mumol/L diltiazem inhibited the frequency-stimulated response by 46% to 48%. The lack of total inhibition suggested that an additional mechanism of calcium influx was involved, namely, inward calcium movement carried by Na(+)-Ca2+ exchange. As intracellular sodium has been reported to rise with an increase in beat frequency, a fall in the sodium gradient would favor inward calcium movement by Na(+)-Ca2+ exchange. Because we could not directly assess the role of Na(+)-Ca2+ exchange in this experimental paradigm, we examined the effect of lowering the transmembrane sodium gradient on atrial natriuretic peptide secretion by superfusion with the sodium channel activator veratridine or the sodium ionophore monensin. Superfusion with 1 mumol/L veratridine increased atrial natriuretic peptide secretion by 2.3-fold, and 1, 5, and 10 mumol/L monensin increased secretion by 1.1-, 2.1-, and 15.7-fold, respectively. In addition, we examined the possibility that the reported rise in intracellular sodium associated with increased beat frequency was due to enhanced Na(+)-H+ antiporter activity.(ABSTRACT TRUNCATED AT 250 WORDS) Previous Back to top Next FiguresReferencesRelatedDetailsCited By Cui H, Wen J, Choi H, Li X, Cho K, Kang D and Lee H (2011) Ursolic acid increases the secretion of atrial natriuretic peptide in isolated perfused beating rabbit atria, European Journal of Pharmacology, 10.1016/j.ejphar.2010.10.098, 653:1-3, (63-69), Online publication date: 1-Feb-2011. Shah A, Gul R, Yuan K, Gao S, Oh Y, Kim U and Kim S (2010) Angiotensin-(1–7) stimulates high atrial pacing-induced ANP secretion via Mas/PI3-kinase/Akt axis and Na + /H + exchanger , American Journal of Physiology-Heart and Circulatory Physiology, 10.1152/ajpheart.00608.2009, 298:5, (H1365-H1374), Online publication date: 1-May-2010. Zhang Y, Liu L, Liang Z, Li X, Jin Y and Cui X (2008) cAMP PRODUCED BY PITUITARY ADENYLATE CYCLASE-ACTIVATING POLYPEPTIDE 27 INHIBITS ATRIAL NATRIURETIC PEPTIDE SECRETION IN RABBIT BEATING ATRIA, Clinical and Experimental Pharmacology and Physiology, 10.1111/j.1440-1681.2008.04996.x, 35:10, (1233-1237), Online publication date: 1-Oct-2008. Schoonderwoerd B, Van Gelder I, Van Veldhuisen D, Van den Berg M and Crijns H (2005) Electrical and Structural Remodeling: Role in the Genesis and Maintenance of Atrial Fibrillation, Progress in Cardiovascular Diseases, 10.1016/j.pcad.2005.06.014, 48:3, (153-168), Online publication date: 1-Nov-2005. SCHOONDERWOERD B, CRIJNS H, VAN VELDHUISEN D, BOOMSMA F, VAN DEN BERG M, BEL K and VAN GELDER I (2004) Atrial Natriuretic Peptides During Experimental Atrial Tachycardia:, Journal of Cardiovascular Electrophysiology, 10.1046/j.1540-8167.2004.04093.x, 15:8, (927-932) Piao F, Cao C, Han J, Kim S, Cho K and Kim S (2004) Amylin-induced suppression of ANP secretion through receptors for CGRP1 and salmon calcitonin, Regulatory Peptides, 10.1016/j.regpep.2003.10.005, 117:3, (159-166), Online publication date: 1-Mar-2004. Zhang Y, Oliver J and Horowitz J (2004) The Role of Endothelin in Mediating Ischemia/Hypoxia-Induced Atrial Natriuretic Peptide Release, Journal of Cardiovascular Pharmacology, 10.1097/00005344-200402000-00010, 43:2, (227-233), Online publication date: 1-Feb-2004. Piao F, Cao C, Han J, Kim S and Kim S (2004) Calcitonin gene-related peptide-induced suppression of atrial natriuretic peptide release through receptors for CGRP1 but not for calcitonin and amylin, European Journal of Pharmacology, 10.1016/j.ejphar.2003.10.020, 483:2-3, (295-300), Online publication date: 1-Jan-2004. Cui X, Wen J, Jin J, Xu W, Kim S, Kim S, Lee H and Cho K (2002) Protein kinase-dependent and Ca 2+ -independent cAMP inhibition of ANP release in beating rabbit atria , American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 10.1152/ajpregu.00316.2001, 282:5, (R1477-R1489), Online publication date: 1-May-2002. Wen J, Cui X, Ahn J, Kim S, Seul K, Kim S, Park Y, Lee H and Cho K (2000) Distinct roles for L- and T-type Ca 2+ channels in regulation of atrial ANP release , American Journal of Physiology-Heart and Circulatory Physiology, 10.1152/ajpheart.2000.279.6.H2879, 279:6, (H2879-H2888), Online publication date: 1-Dec-2000. Church D, Rebsamen M, Morabito D, van der Bent V, Vallotton M and Lang U (2000) Role of cell contractions in cAMP-induced cardiomyocyte atrial natriuretic peptide release, American Journal of Physiology-Heart and Circulatory Physiology, 10.1152/ajpheart.2000.278.1.H117, 278:1, (H117-H125), Online publication date: 1-Jan-2000. Gardner D, Kovacic-Milivojevic B, Liang F and Chen S (1999) Natriuretic Peptides and the Heart Hormones and the Heart in Health and Disease, 10.1007/978-1-59259-708-6_1, (1-20), . Kourie J and Rive M (1999) Role of natriuretic peptides in ion transport mechanisms, Medicinal Research Reviews, 10.1002/(SICI)1098-1128(199901)19:1<75::AID-MED4>3.0.CO;2-6, 19:1, (75-94), Online publication date: 1-Jan-1999. Tóth A, Ivanics T, Ruttner Z, Slaaf D, Reneman R and Ligeti L (1998) Quantitative assessment of [Ca 2+ ] i levels in rat skeletal muscle in vivo , American Journal of Physiology-Heart and Circulatory Physiology, 10.1152/ajpheart.1998.275.5.H1652, 275:5, (H1652-H1662), Online publication date: 1-Nov-1998. Gardner D, Wu J and Kovacic-Milivojevic B (1997) Cellular and Molecular Aspects of the A-Type Natriuretic Peptide Natriuretic Peptides in Health and Disease, 10.1007/978-1-4612-3960-4_5, (71-94), . Soualmia H, Masson F, Barthelémy C, Maistre G and Carayon A (1996) Cellular mechanism of angiotensin II-induced atrial natriuretic peptide release in rat right atrial tissue, Life Sciences, 10.1016/0024-3205(96)00137-3, 58:19, (1621-1629), Online publication date: 1-Apr-1996. Piot C, Lemaire S, Albat B, Seguin J, Nargeot J and Richard S (1996) High Frequency–Induced Upregulation of Human Cardiac Calcium Currents , Circulation, 93:1, (120-128), Online publication date: 1-Jan-1996. Schiebinger R, Joseph C, Li Y and Cragoe E (1995) Mechanism of hyperosmolality stimulation of ANP secretion: its dependency on calcium and sodium, American Journal of Physiology-Endocrinology and Metabolism, 10.1152/ajpendo.1995.268.3.E476, 268:3, (E476-E483), Online publication date: 1-Mar-1995. June 1994Vol 23, Issue 6_pt_1 Advertisement Article InformationMetrics Copyright © 1994 by American Heart Associationhttps://doi.org/10.1161/01.HYP.23.6.710PMID: 8206567 Originally publishedJune 1, 1994 PDF download Advertisement" @default.
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