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CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone

CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor... REFERENCES 1. ↵ Aoki K , Yamori Y , Ooshima A , Okamoto K . Effects of high or low sodium intake in spontaneously hypertensive rats . Jpn Circ J 36 : 539 – 545 , 1972 . OpenUrl CrossRef Medline 2. ↵ Squire LR , Berg D , Bloom FE , duLac S , Ghosh A , Spitzer NC. Byrne JH . Learning and Memory: Brain Mechanisms . In: Fundamental Neuroscience , 3rd ed. , edited by Squire LR , Berg D , Bloom FE , duLac S , Ghosh A , Spitzer NC. London : Academic , 2008 , chapt. 49 , p. 1133 – 1152 . 3. ↵ Chan SH , Wu CW , Chang AY , Hsu KS , Chan JY . Transcriptional upregulation of brain-derived neurotrophic factor in rostral ventrolateral medulla by angiotensin II: significance in superoxide homeostasis and neural regulation of arterial pressure . Circ Res 107 : 1127 – 1139 , 2010 . OpenUrl Abstract / FREE Full Text 4. ↵ Coderre TJ , Katz J , Vaccarino AL , Melzack R . Contribution of central neuroplasticity to pathological pain: review of clinical and experimental evidence . Pain 52 : 259 – 285 , 1993 . OpenUrl CrossRef Medline Web of Science 5. ↵ Cook NR , Cutler JA , Obarzanek E , Buring JE , Rexrode KM , Mukanyika SK , Appel LJ , Whelton PK . Long term effects of dietary sodium reduction on cardiovascular disease outcomes: observational follow-up of the trials of hypertension prevention (TOHP) . Br Med J 334 : 885 – 888 , 2007 . OpenUrl Abstract / FREE Full Text 6. ↵ Cowley AW Jr . , Nadeau JH , Baccarelli A , Berecek K , Fornage M , Gibbons GH , Harrison DG , Liang M , Nathanielsz PW , O'Connor DT , Ordovas J , Peng W , Soares MB , Szyf M , Tolunay HE , Wood KC , Zhao K , Galis ZS . Report of the National Heart, Lung, and Blood Institute Working Group on epigenetics and hypertension . Hypertension 59 : 899 – 905 , 2012 . OpenUrl CrossRef 7. ↵ Dahl LK , Heine M , Tassinari L . Role of genetic factors in susceptibility to experimental hypertension due to chronic excess salt ingestion . Nature 194 : 480 – 482 . 8. ↵ Dahl LK , Heine M , Tassinari L . Effects of chronia excess salt ingestion. Evidence that genetic factors play an important role in susceptibility to experimental hypertension . J Exp Med 115 : 1173 – 1190 , 1962 . OpenUrl Abstract 9. Douglas BH , Guyton AC , Langston JB , Bishop VS . Hypertension caused by salt loading. II. Fluid volume and tissue pressure changes . Am J Physiol 207 : 669 – 671 , 1964 . OpenUrl Web of Science 10. ↵ Florin M , Lo M , Liu KL , Sassard J . Salt sensitivity in genetically hypertensive rats of the Lyon strain . Kidney Int 59 : 1865 – 1872 , 2001 . OpenUrl CrossRef Medline Web of Science 11. ↵ Ghitza UE , Zhai H , Wu P , Airavaara M , Shaham Y , Lu L . Role of BDNF and GDNF in drug reward and relapse: a review . Neurosci Biobehav Rev 35 : 157 – 171 , 2010 . OpenUrl CrossRef Medline Web of Science 12. ↵ Gomez-Palacio-Schjetman A. , Escobar M. L . Neurotrophins and synaptic plasticity . Curr Top Behav Neurosci 15 : 117 – 136 , 2013 . OpenUrl CrossRef 13. ↵ Guild SJ , McBryde FD , Malpas SC , Barrett CJ . High dietary salt and angiotensin II chronically increase renal sympathetic nerve activity . Hypertension 9 : 614 – 620 , 2012 . OpenUrl 14. ↵ Guyenet PG . The sympathetic control of blood pressure . Nat Rev Neurosci 7 : 335 – 346 , 2006 . OpenUrl CrossRef Medline Web of Science 15. ↵ Haack KK , Mitra AK , Zucker IH . NF-κB and CREB are required for angiotensin II type 1 receptor upregulation in neurons . PLos One 8 : e78695 , 2013 . OpenUrl CrossRef 16. ↵ Huang BS , Leenen FH . Dietary Na and baroreflex modulation of blood pressure and RSNA in normotensive vs. spontaneously hypertensive rats . Am J Physiol Heart Circ Physiol 35 : H496 – H502 , 1994 . OpenUrl 17. ↵ Huang BS , Wang H , Leenen FH . Enhanced sympathoexcitatory and pressor responses to central Na + in Dahl salt-sensitive vs. -resistant rats . Am J Physiol Heart Circ Physiol 281 : H1881 – H1889 , 2001 . OpenUrl Abstract / FREE Full Text 18. ↵ Ikeda T , Tobian L , Iwai J , Goosens P . Central nervous system pressor responses in rats susceptible and resistant to sodium chloride hypertension . Clin Sci Mol Med 54 : 225s – 227s , 1978 . OpenUrl 19. ↵ Kanbay M , Chen Y , Solak Y , Sanders PW . Mechanisms and consequences of salt sensitivity and dietary salt intake . Curr Opin Nephrol Hypertens 20 : 37 – 43 , 2011 . OpenUrl CrossRef Medline 20. ↵ Kaplan DR , Miller FD . Neurotrophin signal transduction in the nervous system . Curr Opin Neurobiol 10 : 381 – 391 , 2000 . OpenUrl CrossRef Medline Web of Science 21. ↵ Kelly TN , He J . Gene-sodium interaction and blood pressure: findings from genomics research of blood pressure salt sensitivity . Prog Mol Biol Transl Sci 108 : 237 – 260 , 2012 . OpenUrl CrossRef Medline 22. King AJ , Fink GD . Chronic low-dose angiotensin II infusion increases venomotor tone by neurogenic mechanisms . Hypertension 48 : 927 – 933 , 2006 . OpenUrl CrossRef 23. ↵ Kline DD . Plasticity in glutamatergic nucleus solitarius tract neurotransmission . Respir Physiol Neurobiol 164 : 105 – 111 , 2008 . OpenUrl CrossRef Medline Web of Science 24. ↵ Kramer JM , Plowey ED , Beatty JA , Little HR , Waldrop TG . Hypothalamus, hypertension, and exercise . Brain Res Bull 53 : 77 – 85 , 2000 . OpenUrl CrossRef Medline Web of Science 25. ↵ Lawler JE , Abel MM , Naylor SK . Effects of salt intake on blood pressure and heart rate responses to footshock stress in SHR, BHR, and WKY rats . Physiol Behav 53 : 97 – 102 , 1993 . OpenUrl CrossRef Medline Web of Science 26. ↵ Lawler JE , Sanders BJ , Chen YF , Nagahama S , Oparil S . Hypertension produced by a high sodium diet in the borderline hypertensive rat (BHR) . Clin Exp Hypertens A 9 : 1713 – 1731 , 1987 . OpenUrl Medline 27. ↵ Lo M , Liu KL , Clemitson JR , Sassard J , Samani NJ . Chromosome 1 blood pressure QTL region influences renal function curve and salt sensitivity in SHR . Physiol Genomics 8 : 15 – 21 , 2002 . OpenUrl Abstract / FREE Full Text 28. ↵ McGinty JF , Whitfield TW Jr . , Berglind WJ . Brain-derived neurotrophic factor and cocaine addiction . Brain Res 1314 : 183 – 193 , 2010 . OpenUrl CrossRef Medline Web of Science 29. ↵ Sweatt JD , Meaney MJ , Nestler EJ , Akbarian S Meaney MJ , Akbarian S , Nestler EJ , Sweatt JD . Epigenetics: defining the frontiers of genomic function . In: Epigenetic Regulation: Basic Mechanisms and Clinical Impact , edited by Sweatt JD , Meaney MJ , Nestler EJ , Akbarian S . London : Academic , chapt. 14 , p. 341 – 350 , 2013 . 30. ↵ Merighi A , Salio C , Ghirri A , Lossi L , Ferrini F , Betelli C , Bardoni R . BDNF as a pain modulator . Prog Neurobiol 85 : 297 – 317 , 2008 . OpenUrl CrossRef Medline Web of Science 31. ↵ Minichiello L . TrkB signalling pathways in LTP and learning . Nat Rev Neurosci 10 : 850 – 860 , 2009 . OpenUrl CrossRef Medline Web of Science 32. ↵ Mitchell GS , Baker TL , Nanda SA , Fuller DD , Zabka AG , Hodgeman BA , Bavis RW , Mack KJ , Olson EB Jr. . Intermittent hypoxia and respiratory plasticity . J Appl Physiol 90 : 2466 – 2475 , 2001 . OpenUrl Abstract / FREE Full Text 33. ↵ Miyajima E , Bunag RD . Dietary salt loading produces baroreflex impairment and mild hypertension in rats . Am J Physiol Heart Circ Physiol 18 : H278 – H284 , 1985 . OpenUrl 34. ↵ Oparil S , Meng QC , Chen YF , Yang RH , Jin HK , Wyss JM . Genetic basis of NaCl-sensitive hypertension . J Cardiovasc Pharmacol 12 : S56 – S69 , 1988 . OpenUrl CrossRef 35. ↵ Osborn JL . Relation between sodium intake, renal function, and the regulation of arterial pressure . Hypertension 17 : I91 – I96 , 1991 . OpenUrl CrossRef 36. ↵ Ren K , Dubner R . Pain facilitation and activity-dependent plasticity in pain modulatory circuitry: role of BDNF-TrkB signaling and NMDA receptors . Mol Neurobiol 35 : 224 – 235 , 2007 . OpenUrl CrossRef Medline Web of Science 37. ↵ Russo SJ , Mazei-Robison MS , Ables JL , Nestler EJ . Neurotrophic factors and structural plasticity in addiction . Neuropharmacology 56 Suppl 1 : 73 – 82 , 2009 . OpenUrl Medline Web of Science 38. ↵ Sapirstein LA , Brandt WL , Drury DR . Production of arterial hypertension in the rat by substitution of hypertonic sodium chloride solutions for drinking water . Am J Med 8 : 525 – 526 , 1950 . OpenUrl Medline 39. Selye H , Hall CE , Rowley EM . Malignant hypertension produced by treatment with desoxycorticosterone acetate and sodium chloride . Can Med Assoc J 49 : 88 – 92 , 1943 . OpenUrl Medline 40. ↵ Seybold VS . The role of peptides in central sensitization . Hand Exp Pharmacol 194 : 451 – 491 , 2009 . OpenUrl CrossRef 41. ↵ Soulé J , Messaoudi E , Bramham CR . Brain-derived neurotrophic factor and control of synaptic consolidation in the adult brain . Biochem Soc Trans 34 : 600 – 604 , 2006 . OpenUrl CrossRef Medline Web of Science 42. ↵ Strazzullo P , D'Elia L , Kandala NB , Cappuccio FP . Salt intake, stroke, and cardiovascular disease: meta-analysis of prospective studies . Br Med J 339 : b4567 – b4567 , 2009 . OpenUrl Abstract / FREE Full Text 43. ↵ Sun W . Dopamine neurons in the ventral tegmental area: drug-induced synaptic plasticity and its role in relapse to drug-seeking behavior . Curr Drug Abuse Rev 4 : 270 – 285 , 2011 . OpenUrl CrossRef Medline 44. ↵ Telese F , Gamliel A , Skowronska-Krawczyk D , Garcia-Bassets I , Rosenfeld MG. “Seq-ing” insights into the epigenetics of neuronal gene regulation . Neuron 77 : 606 – 623 , 2013 . OpenUrl CrossRef Web of Science 45. ↵ Weinberger MH , Miller JZ , Luft FC , Grim CE , Fineberg NS . Definitions and characteristics of sodium sensitivity and blood pressure resistance . Hypertension 8 : II127 – II134 , 1986 . OpenUrl CrossRef 46. ↵ Whaley-Connell AT , Habibi J , Aroor A , Ma L , Hayden MR , Ferrario CM , Demarco VG , Sowers JR . Salt loading exacerbates diastolic dysfunction and cardiac remodeling in young female Ren2 rats . Metabolism 62 : 1761 – 1771 , 2013 . OpenUrl CrossRef Web of Science 47. ↵ Winder DG , Egli RE , Schramm NL , Matthews RT . Synaptic plasticity in drug reward circuitry . Curr Mol Med 2 : 667 – 676 , 2002 . OpenUrl CrossRef Medline 48. ↵ Xue B , Zhang Z , Johnson RF , Johnson AK . Sensitization of slow pressor angiotensin II (ANG II)-initiated hypertension: induction of sensitization by prior ANG II treatment . Hypertension 59 : 459 – 466 , 2012 . OpenUrl CrossRef 49. ↵ Xue B , Zhang Z , Roncari CF , Guo F , Johnson AK . Aldosterone acting through the central nervous system sensitizes angiotensin II-induced hypertension . Hypertension 60 : 1023 – 1030 , 2012 . OpenUrl CrossRef 50. ↵ Yirmiya R , Goshen I . Immune modulation of learning, memory, neural plasticity and neurogenesis . Brain Behav Immun 25 : 181 – 213 , 2011 . OpenUrl CrossRef Medline Web of Science Previous Next Back to top About the Cover About the Cover Cover image Image 1: Scully CG, Mitrou N, Braam B, Cupples WA, Chon KH. Detecting physiological systems with laser speckle perfusion imaging of the renal cortex . Am J Physiol Regul Integr Comp Physiol ; published ahead of print April 3, 2013, doi:10.1152/ajpregu.00002.2013. Image 2: Roy A, Derakhshan F, Wilson RJ. PACAP engages multiple signaling pathways within the carotid body to initiate excitatory responses in respiratory and sympathetic chemosensory afferents . Am J Physiol Regul Integr Comp Physiol ; published ahead of print April 17, 2013, doi:10.1152/ajpregu.00465.2012. Image 3: Shih T, Horng J, Lai Y, Lin L. Rhcg1 and Rhbg mediate ammonia excretion by ionocytes and keratinocytes in the skin of zebrafish larvae: H+-ATPase-linked active ammonia excretion by ionocytes . Am J Physiol Regul Integr Comp Physiol ; published ahead of print April 17, 2013, doi:10.1152/ajpregu.00550.2012. Table of Contents Back Matter (PDF) Ed Board (PDF) Keywords angiotensin II aldosterone sensitization neuroplasticity salt sensitivity Article Abstract METHODS RESULTS DISCUSSION GRANTS DISCLOSURES AUTHOR CONTRIBUTIONS REFERENCES Figures & Data Info PDF Alert me when this article is cited Alert me if a correction is posted Email Thank you for your interest in spreading the word on Regulatory, Integrative and Comparative Physiology. NOTE: We only request your email address so that the person you are recommending the page to knows that you wanted them to see it, and that it is not junk mail. We do not capture any email address. Your Email * Your Name * Send To * Enter multiple addresses on separate lines or separate them with commas. You are going to email the following CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone Message Subject (Your Name) has sent you a message from Regulatory, Integrative and Comparative Physiology Message Body (Your Name) thought you would like to see the Regulatory, Integrative and Comparative Physiology web site. Your Personal Message Print Citation Tools CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone Sarah C. Clayton , Zhongming Zhang , Terry Beltz , Baojian Xue , Alan Kim Johnson American Journal of Physiology - Regulatory, Integrative and Comparative Physiology Jun 2014, 306 (12) R908-R917; DOI: 10.1152/ajpregu.00010.2014 Citation Manager Formats BibTeX EndNote (tagged) EndNote 8 (xml) RefWorks Tagged RIS Medlars Bookends Mendeley Request Permissions Share CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone Sarah C. Clayton , Zhongming Zhang , Terry Beltz , Baojian Xue , Alan Kim Johnson American Journal of Physiology - Regulatory, Integrative and Comparative Physiology Jun 2014, 306 (12) R908-R917; DOI: 10.1152/ajpregu.00010.2014 Permalink: Copy View Full Page PDF Tweet Widget Facebook Like Google Plus One Reddit CiteULike Mendeley StumbleUpon More in this TOC Section Characterization of the effects of the vasopressin V2 receptor on sweating, fluid balance and performance during exercise Hindbrain nucleus tractus solitarius glucagon-like peptide-1 receptor signaling reduces appetitive and motivational aspects of feeding Lack of hormonal stimulation prevents the landlocked Biwa salmon ( Oncorhynchus masou subsp.) from adapting to seawater Show more Research Article Related Articles No related articles found. 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CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone

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References (54)

Publisher
The American Physiological Society
Copyright
Copyright © 2014 the American Physiological Society
ISSN
0363-6119
eISSN
1522-1490
DOI
10.1152/ajpregu.00010.2014
pmid
24694383
Publisher site
See Article on Publisher Site

Abstract

REFERENCES 1. ↵ Aoki K , Yamori Y , Ooshima A , Okamoto K . Effects of high or low sodium intake in spontaneously hypertensive rats . Jpn Circ J 36 : 539 – 545 , 1972 . OpenUrl CrossRef Medline 2. ↵ Squire LR , Berg D , Bloom FE , duLac S , Ghosh A , Spitzer NC. Byrne JH . Learning and Memory: Brain Mechanisms . In: Fundamental Neuroscience , 3rd ed. , edited by Squire LR , Berg D , Bloom FE , duLac S , Ghosh A , Spitzer NC. London : Academic , 2008 , chapt. 49 , p. 1133 – 1152 . 3. ↵ Chan SH , Wu CW , Chang AY , Hsu KS , Chan JY . Transcriptional upregulation of brain-derived neurotrophic factor in rostral ventrolateral medulla by angiotensin II: significance in superoxide homeostasis and neural regulation of arterial pressure . Circ Res 107 : 1127 – 1139 , 2010 . OpenUrl Abstract / FREE Full Text 4. ↵ Coderre TJ , Katz J , Vaccarino AL , Melzack R . Contribution of central neuroplasticity to pathological pain: review of clinical and experimental evidence . Pain 52 : 259 – 285 , 1993 . OpenUrl CrossRef Medline Web of Science 5. ↵ Cook NR , Cutler JA , Obarzanek E , Buring JE , Rexrode KM , Mukanyika SK , Appel LJ , Whelton PK . Long term effects of dietary sodium reduction on cardiovascular disease outcomes: observational follow-up of the trials of hypertension prevention (TOHP) . Br Med J 334 : 885 – 888 , 2007 . OpenUrl Abstract / FREE Full Text 6. ↵ Cowley AW Jr . , Nadeau JH , Baccarelli A , Berecek K , Fornage M , Gibbons GH , Harrison DG , Liang M , Nathanielsz PW , O'Connor DT , Ordovas J , Peng W , Soares MB , Szyf M , Tolunay HE , Wood KC , Zhao K , Galis ZS . Report of the National Heart, Lung, and Blood Institute Working Group on epigenetics and hypertension . Hypertension 59 : 899 – 905 , 2012 . OpenUrl CrossRef 7. ↵ Dahl LK , Heine M , Tassinari L . Role of genetic factors in susceptibility to experimental hypertension due to chronic excess salt ingestion . Nature 194 : 480 – 482 . 8. ↵ Dahl LK , Heine M , Tassinari L . Effects of chronia excess salt ingestion. Evidence that genetic factors play an important role in susceptibility to experimental hypertension . J Exp Med 115 : 1173 – 1190 , 1962 . OpenUrl Abstract 9. Douglas BH , Guyton AC , Langston JB , Bishop VS . Hypertension caused by salt loading. II. Fluid volume and tissue pressure changes . Am J Physiol 207 : 669 – 671 , 1964 . OpenUrl Web of Science 10. ↵ Florin M , Lo M , Liu KL , Sassard J . Salt sensitivity in genetically hypertensive rats of the Lyon strain . Kidney Int 59 : 1865 – 1872 , 2001 . OpenUrl CrossRef Medline Web of Science 11. ↵ Ghitza UE , Zhai H , Wu P , Airavaara M , Shaham Y , Lu L . Role of BDNF and GDNF in drug reward and relapse: a review . Neurosci Biobehav Rev 35 : 157 – 171 , 2010 . OpenUrl CrossRef Medline Web of Science 12. ↵ Gomez-Palacio-Schjetman A. , Escobar M. L . Neurotrophins and synaptic plasticity . Curr Top Behav Neurosci 15 : 117 – 136 , 2013 . OpenUrl CrossRef 13. ↵ Guild SJ , McBryde FD , Malpas SC , Barrett CJ . High dietary salt and angiotensin II chronically increase renal sympathetic nerve activity . Hypertension 9 : 614 – 620 , 2012 . OpenUrl 14. ↵ Guyenet PG . The sympathetic control of blood pressure . Nat Rev Neurosci 7 : 335 – 346 , 2006 . OpenUrl CrossRef Medline Web of Science 15. ↵ Haack KK , Mitra AK , Zucker IH . NF-κB and CREB are required for angiotensin II type 1 receptor upregulation in neurons . PLos One 8 : e78695 , 2013 . OpenUrl CrossRef 16. ↵ Huang BS , Leenen FH . Dietary Na and baroreflex modulation of blood pressure and RSNA in normotensive vs. spontaneously hypertensive rats . Am J Physiol Heart Circ Physiol 35 : H496 – H502 , 1994 . OpenUrl 17. ↵ Huang BS , Wang H , Leenen FH . Enhanced sympathoexcitatory and pressor responses to central Na + in Dahl salt-sensitive vs. -resistant rats . Am J Physiol Heart Circ Physiol 281 : H1881 – H1889 , 2001 . OpenUrl Abstract / FREE Full Text 18. ↵ Ikeda T , Tobian L , Iwai J , Goosens P . Central nervous system pressor responses in rats susceptible and resistant to sodium chloride hypertension . Clin Sci Mol Med 54 : 225s – 227s , 1978 . OpenUrl 19. ↵ Kanbay M , Chen Y , Solak Y , Sanders PW . Mechanisms and consequences of salt sensitivity and dietary salt intake . Curr Opin Nephrol Hypertens 20 : 37 – 43 , 2011 . OpenUrl CrossRef Medline 20. ↵ Kaplan DR , Miller FD . Neurotrophin signal transduction in the nervous system . Curr Opin Neurobiol 10 : 381 – 391 , 2000 . OpenUrl CrossRef Medline Web of Science 21. ↵ Kelly TN , He J . Gene-sodium interaction and blood pressure: findings from genomics research of blood pressure salt sensitivity . Prog Mol Biol Transl Sci 108 : 237 – 260 , 2012 . OpenUrl CrossRef Medline 22. King AJ , Fink GD . Chronic low-dose angiotensin II infusion increases venomotor tone by neurogenic mechanisms . Hypertension 48 : 927 – 933 , 2006 . OpenUrl CrossRef 23. ↵ Kline DD . Plasticity in glutamatergic nucleus solitarius tract neurotransmission . Respir Physiol Neurobiol 164 : 105 – 111 , 2008 . OpenUrl CrossRef Medline Web of Science 24. ↵ Kramer JM , Plowey ED , Beatty JA , Little HR , Waldrop TG . Hypothalamus, hypertension, and exercise . Brain Res Bull 53 : 77 – 85 , 2000 . OpenUrl CrossRef Medline Web of Science 25. ↵ Lawler JE , Abel MM , Naylor SK . Effects of salt intake on blood pressure and heart rate responses to footshock stress in SHR, BHR, and WKY rats . Physiol Behav 53 : 97 – 102 , 1993 . OpenUrl CrossRef Medline Web of Science 26. ↵ Lawler JE , Sanders BJ , Chen YF , Nagahama S , Oparil S . Hypertension produced by a high sodium diet in the borderline hypertensive rat (BHR) . Clin Exp Hypertens A 9 : 1713 – 1731 , 1987 . OpenUrl Medline 27. ↵ Lo M , Liu KL , Clemitson JR , Sassard J , Samani NJ . Chromosome 1 blood pressure QTL region influences renal function curve and salt sensitivity in SHR . Physiol Genomics 8 : 15 – 21 , 2002 . OpenUrl Abstract / FREE Full Text 28. ↵ McGinty JF , Whitfield TW Jr . , Berglind WJ . Brain-derived neurotrophic factor and cocaine addiction . Brain Res 1314 : 183 – 193 , 2010 . OpenUrl CrossRef Medline Web of Science 29. ↵ Sweatt JD , Meaney MJ , Nestler EJ , Akbarian S Meaney MJ , Akbarian S , Nestler EJ , Sweatt JD . Epigenetics: defining the frontiers of genomic function . In: Epigenetic Regulation: Basic Mechanisms and Clinical Impact , edited by Sweatt JD , Meaney MJ , Nestler EJ , Akbarian S . London : Academic , chapt. 14 , p. 341 – 350 , 2013 . 30. ↵ Merighi A , Salio C , Ghirri A , Lossi L , Ferrini F , Betelli C , Bardoni R . BDNF as a pain modulator . Prog Neurobiol 85 : 297 – 317 , 2008 . OpenUrl CrossRef Medline Web of Science 31. ↵ Minichiello L . TrkB signalling pathways in LTP and learning . Nat Rev Neurosci 10 : 850 – 860 , 2009 . OpenUrl CrossRef Medline Web of Science 32. ↵ Mitchell GS , Baker TL , Nanda SA , Fuller DD , Zabka AG , Hodgeman BA , Bavis RW , Mack KJ , Olson EB Jr. . Intermittent hypoxia and respiratory plasticity . J Appl Physiol 90 : 2466 – 2475 , 2001 . OpenUrl Abstract / FREE Full Text 33. ↵ Miyajima E , Bunag RD . Dietary salt loading produces baroreflex impairment and mild hypertension in rats . Am J Physiol Heart Circ Physiol 18 : H278 – H284 , 1985 . OpenUrl 34. ↵ Oparil S , Meng QC , Chen YF , Yang RH , Jin HK , Wyss JM . Genetic basis of NaCl-sensitive hypertension . J Cardiovasc Pharmacol 12 : S56 – S69 , 1988 . OpenUrl CrossRef 35. ↵ Osborn JL . Relation between sodium intake, renal function, and the regulation of arterial pressure . Hypertension 17 : I91 – I96 , 1991 . OpenUrl CrossRef 36. ↵ Ren K , Dubner R . Pain facilitation and activity-dependent plasticity in pain modulatory circuitry: role of BDNF-TrkB signaling and NMDA receptors . Mol Neurobiol 35 : 224 – 235 , 2007 . OpenUrl CrossRef Medline Web of Science 37. ↵ Russo SJ , Mazei-Robison MS , Ables JL , Nestler EJ . Neurotrophic factors and structural plasticity in addiction . Neuropharmacology 56 Suppl 1 : 73 – 82 , 2009 . OpenUrl Medline Web of Science 38. ↵ Sapirstein LA , Brandt WL , Drury DR . Production of arterial hypertension in the rat by substitution of hypertonic sodium chloride solutions for drinking water . Am J Med 8 : 525 – 526 , 1950 . OpenUrl Medline 39. Selye H , Hall CE , Rowley EM . Malignant hypertension produced by treatment with desoxycorticosterone acetate and sodium chloride . Can Med Assoc J 49 : 88 – 92 , 1943 . OpenUrl Medline 40. ↵ Seybold VS . The role of peptides in central sensitization . Hand Exp Pharmacol 194 : 451 – 491 , 2009 . OpenUrl CrossRef 41. ↵ Soulé J , Messaoudi E , Bramham CR . Brain-derived neurotrophic factor and control of synaptic consolidation in the adult brain . Biochem Soc Trans 34 : 600 – 604 , 2006 . OpenUrl CrossRef Medline Web of Science 42. ↵ Strazzullo P , D'Elia L , Kandala NB , Cappuccio FP . Salt intake, stroke, and cardiovascular disease: meta-analysis of prospective studies . Br Med J 339 : b4567 – b4567 , 2009 . OpenUrl Abstract / FREE Full Text 43. ↵ Sun W . Dopamine neurons in the ventral tegmental area: drug-induced synaptic plasticity and its role in relapse to drug-seeking behavior . Curr Drug Abuse Rev 4 : 270 – 285 , 2011 . OpenUrl CrossRef Medline 44. ↵ Telese F , Gamliel A , Skowronska-Krawczyk D , Garcia-Bassets I , Rosenfeld MG. “Seq-ing” insights into the epigenetics of neuronal gene regulation . Neuron 77 : 606 – 623 , 2013 . OpenUrl CrossRef Web of Science 45. ↵ Weinberger MH , Miller JZ , Luft FC , Grim CE , Fineberg NS . Definitions and characteristics of sodium sensitivity and blood pressure resistance . Hypertension 8 : II127 – II134 , 1986 . OpenUrl CrossRef 46. ↵ Whaley-Connell AT , Habibi J , Aroor A , Ma L , Hayden MR , Ferrario CM , Demarco VG , Sowers JR . Salt loading exacerbates diastolic dysfunction and cardiac remodeling in young female Ren2 rats . Metabolism 62 : 1761 – 1771 , 2013 . OpenUrl CrossRef Web of Science 47. ↵ Winder DG , Egli RE , Schramm NL , Matthews RT . Synaptic plasticity in drug reward circuitry . Curr Mol Med 2 : 667 – 676 , 2002 . OpenUrl CrossRef Medline 48. ↵ Xue B , Zhang Z , Johnson RF , Johnson AK . Sensitization of slow pressor angiotensin II (ANG II)-initiated hypertension: induction of sensitization by prior ANG II treatment . Hypertension 59 : 459 – 466 , 2012 . OpenUrl CrossRef 49. ↵ Xue B , Zhang Z , Roncari CF , Guo F , Johnson AK . Aldosterone acting through the central nervous system sensitizes angiotensin II-induced hypertension . Hypertension 60 : 1023 – 1030 , 2012 . OpenUrl CrossRef 50. ↵ Yirmiya R , Goshen I . Immune modulation of learning, memory, neural plasticity and neurogenesis . Brain Behav Immun 25 : 181 – 213 , 2011 . OpenUrl CrossRef Medline Web of Science Previous Next Back to top About the Cover About the Cover Cover image Image 1: Scully CG, Mitrou N, Braam B, Cupples WA, Chon KH. Detecting physiological systems with laser speckle perfusion imaging of the renal cortex . Am J Physiol Regul Integr Comp Physiol ; published ahead of print April 3, 2013, doi:10.1152/ajpregu.00002.2013. Image 2: Roy A, Derakhshan F, Wilson RJ. PACAP engages multiple signaling pathways within the carotid body to initiate excitatory responses in respiratory and sympathetic chemosensory afferents . Am J Physiol Regul Integr Comp Physiol ; published ahead of print April 17, 2013, doi:10.1152/ajpregu.00465.2012. Image 3: Shih T, Horng J, Lai Y, Lin L. Rhcg1 and Rhbg mediate ammonia excretion by ionocytes and keratinocytes in the skin of zebrafish larvae: H+-ATPase-linked active ammonia excretion by ionocytes . Am J Physiol Regul Integr Comp Physiol ; published ahead of print April 17, 2013, doi:10.1152/ajpregu.00550.2012. Table of Contents Back Matter (PDF) Ed Board (PDF) Keywords angiotensin II aldosterone sensitization neuroplasticity salt sensitivity Article Abstract METHODS RESULTS DISCUSSION GRANTS DISCLOSURES AUTHOR CONTRIBUTIONS REFERENCES Figures & Data Info PDF Alert me when this article is cited Alert me if a correction is posted Email Thank you for your interest in spreading the word on Regulatory, Integrative and Comparative Physiology. NOTE: We only request your email address so that the person you are recommending the page to knows that you wanted them to see it, and that it is not junk mail. We do not capture any email address. Your Email * Your Name * Send To * Enter multiple addresses on separate lines or separate them with commas. You are going to email the following CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone Message Subject (Your Name) has sent you a message from Regulatory, Integrative and Comparative Physiology Message Body (Your Name) thought you would like to see the Regulatory, Integrative and Comparative Physiology web site. Your Personal Message Print Citation Tools CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone Sarah C. Clayton , Zhongming Zhang , Terry Beltz , Baojian Xue , Alan Kim Johnson American Journal of Physiology - Regulatory, Integrative and Comparative Physiology Jun 2014, 306 (12) R908-R917; DOI: 10.1152/ajpregu.00010.2014 Citation Manager Formats BibTeX EndNote (tagged) EndNote 8 (xml) RefWorks Tagged RIS Medlars Bookends Mendeley Request Permissions Share CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone CNS neuroplasticity and salt-sensitive hypertension induced by prior treatment with subpressor doses of ANG II or aldosterone Sarah C. Clayton , Zhongming Zhang , Terry Beltz , Baojian Xue , Alan Kim Johnson American Journal of Physiology - Regulatory, Integrative and Comparative Physiology Jun 2014, 306 (12) R908-R917; DOI: 10.1152/ajpregu.00010.2014 Permalink: Copy View Full Page PDF Tweet Widget Facebook Like Google Plus One Reddit CiteULike Mendeley StumbleUpon More in this TOC Section Characterization of the effects of the vasopressin V2 receptor on sweating, fluid balance and performance during exercise Hindbrain nucleus tractus solitarius glucagon-like peptide-1 receptor signaling reduces appetitive and motivational aspects of feeding Lack of hormonal stimulation prevents the landlocked Biwa salmon ( Oncorhynchus masou subsp.) from adapting to seawater Show more Research Article Related Articles No related articles found. 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AJP - Regulatory, Integrative and Comparative PhysiologyThe American Physiological Society

Published: Jun 15, 2014

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