Renal Medulla in Hypertension

Allen W. Cowley; Richard J. Roman; David L. Mattson; Kleber G. Franchini; Paul M. O’Connor; Ayako Makino; Norman E. Taylor; Louise C. Evans; Takefumi Mori; Jeffrey G. Dickhout; Chunhua Jin; Noriyuki Miyata; Kazushige Nakanishi; Mátyás Szentiványi; Frank Park; Meredith M. Skelton; Theresa Kurth; Satoshi Shimada

doi:10.1161/HYPERTENSIONAHA.124.21711

Renal Medulla in Hypertension

Allen W. Cowley, Richard J. Roman, David L. Mattson, Kleber G. Franchini, Paul M. O’Connor, Ayako Makino, Norman E. Taylor, Louise C. Evans, Takefumi Mori, Jeffrey G. Dickhout, Chunhua Jin, Noriyuki Miyata, Kazushige Nakanishi, Mátyás Szentiványi, Frank Park, Meredith M. Skelton, Theresa Kurth, Satoshi Shimada

Research output: Contribution to journal › Review article › peer-review

Abstract

Studies have found that blood flow to the renal medulla is an important determinant of pressure-natriuresis and the long-term regulation of arterial pressure. First, a brief review of methods developed enabling the study of the medullary circulation is presented. Second, studies performed in rats are presented showing medullary blood flow plays a vital role in the pressure-natriuresis relationship and thereby in hypertension. Third, it is shown that chronic reduction of medullary blood flow results in hypertension and that enhancement of medullary blood flow reduces hypertension hereditary models of both salt-sensitive rats and salt-resistant forms of hypertension. The key role that medullary nitric oxide production plays in protecting this region from ischemic injury associated with circulating vasoconstrictor agents and reactive oxygen species is presented. The studies cited are largely the work of my students, research fellows, and colleagues with whom I have performed these studies dating from the late 1980s to more recent years.

Original language	English (US)
Pages (from-to)	2383-2394
Number of pages	12
Journal	Hypertension
Volume	81
Issue number	12
DOIs	https://doi.org/10.1161/HYPERTENSIONAHA.124.21711
State	Published - Dec 1 2024
Externally published	Yes

Keywords

hypertension
inbred Dahl rats
inbred SHR rats
nitric oxide
reactive oxygen species
renal blood flow
renal perfusion pressure

ASJC Scopus subject areas

Internal Medicine

Access to Document

10.1161/HYPERTENSIONAHA.124.21711

Cite this

Cowley, A. W., Roman, R. J., Mattson, D. L., Franchini, K. G., O’Connor, P. M., Makino, A., Taylor, N. E., Evans, L. C., Mori, T., Dickhout, J. G., Jin, C., Miyata, N., Nakanishi, K., Szentiványi, M., Park, F., Skelton, M. M., Kurth, T., & Shimada, S. (2024). Renal Medulla in Hypertension. Hypertension, 81(12), 2383-2394. https://doi.org/10.1161/HYPERTENSIONAHA.124.21711

@article{60e1d400ec474c339d1eec45cd241dde,

title = "Renal Medulla in Hypertension",

abstract = "Studies have found that blood flow to the renal medulla is an important determinant of pressure-natriuresis and the long-term regulation of arterial pressure. First, a brief review of methods developed enabling the study of the medullary circulation is presented. Second, studies performed in rats are presented showing medullary blood flow plays a vital role in the pressure-natriuresis relationship and thereby in hypertension. Third, it is shown that chronic reduction of medullary blood flow results in hypertension and that enhancement of medullary blood flow reduces hypertension hereditary models of both salt-sensitive rats and salt-resistant forms of hypertension. The key role that medullary nitric oxide production plays in protecting this region from ischemic injury associated with circulating vasoconstrictor agents and reactive oxygen species is presented. The studies cited are largely the work of my students, research fellows, and colleagues with whom I have performed these studies dating from the late 1980s to more recent years.",

keywords = "hypertension, inbred Dahl rats, inbred SHR rats, nitric oxide, reactive oxygen species, renal blood flow, renal perfusion pressure",

author = "Cowley, {Allen W.} and Roman, {Richard J.} and Mattson, {David L.} and Franchini, {Kleber G.} and O{\textquoteright}Connor, {Paul M.} and Ayako Makino and Taylor, {Norman E.} and Evans, {Louise C.} and Takefumi Mori and Dickhout, {Jeffrey G.} and Chunhua Jin and Noriyuki Miyata and Kazushige Nakanishi and M{\'a}ty{\'a}s Szentiv{\'a}nyi and Frank Park and Skelton, {Meredith M.} and Theresa Kurth and Satoshi Shimada",

note = "Publisher Copyright: {\textcopyright} 2024 American Heart Association, Inc.",

year = "2024",

month = dec,

day = "1",

doi = "10.1161/HYPERTENSIONAHA.124.21711",

language = "English (US)",

volume = "81",

pages = "2383--2394",

journal = "Hypertension",

issn = "0194-911X",

publisher = "Lippincott Williams and Wilkins",

number = "12",

}

TY - JOUR

T1 - Renal Medulla in Hypertension

AU - Cowley, Allen W.

AU - Roman, Richard J.

AU - Mattson, David L.

AU - Franchini, Kleber G.

AU - O’Connor, Paul M.

AU - Makino, Ayako

AU - Taylor, Norman E.

AU - Evans, Louise C.

AU - Mori, Takefumi

AU - Dickhout, Jeffrey G.

AU - Jin, Chunhua

AU - Miyata, Noriyuki

AU - Nakanishi, Kazushige

AU - Szentiványi, Mátyás

AU - Park, Frank

AU - Skelton, Meredith M.

AU - Kurth, Theresa

AU - Shimada, Satoshi

PY - 2024/12/1

Y1 - 2024/12/1

N2 - Studies have found that blood flow to the renal medulla is an important determinant of pressure-natriuresis and the long-term regulation of arterial pressure. First, a brief review of methods developed enabling the study of the medullary circulation is presented. Second, studies performed in rats are presented showing medullary blood flow plays a vital role in the pressure-natriuresis relationship and thereby in hypertension. Third, it is shown that chronic reduction of medullary blood flow results in hypertension and that enhancement of medullary blood flow reduces hypertension hereditary models of both salt-sensitive rats and salt-resistant forms of hypertension. The key role that medullary nitric oxide production plays in protecting this region from ischemic injury associated with circulating vasoconstrictor agents and reactive oxygen species is presented. The studies cited are largely the work of my students, research fellows, and colleagues with whom I have performed these studies dating from the late 1980s to more recent years.

AB - Studies have found that blood flow to the renal medulla is an important determinant of pressure-natriuresis and the long-term regulation of arterial pressure. First, a brief review of methods developed enabling the study of the medullary circulation is presented. Second, studies performed in rats are presented showing medullary blood flow plays a vital role in the pressure-natriuresis relationship and thereby in hypertension. Third, it is shown that chronic reduction of medullary blood flow results in hypertension and that enhancement of medullary blood flow reduces hypertension hereditary models of both salt-sensitive rats and salt-resistant forms of hypertension. The key role that medullary nitric oxide production plays in protecting this region from ischemic injury associated with circulating vasoconstrictor agents and reactive oxygen species is presented. The studies cited are largely the work of my students, research fellows, and colleagues with whom I have performed these studies dating from the late 1980s to more recent years.

KW - hypertension

KW - inbred Dahl rats

KW - inbred SHR rats

KW - nitric oxide

KW - reactive oxygen species

KW - renal blood flow

KW - renal perfusion pressure

UR - http://www.scopus.com/inward/record.url?scp=85206462624&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85206462624&partnerID=8YFLogxK

U2 - 10.1161/HYPERTENSIONAHA.124.21711

DO - 10.1161/HYPERTENSIONAHA.124.21711

M3 - Review article

C2 - 39344517

AN - SCOPUS:85206462624

SN - 0194-911X

VL - 81

SP - 2383

EP - 2394

JO - Hypertension

JF - Hypertension

IS - 12

ER -

Renal Medulla in Hypertension

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this