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Query: EC:3.4.11.18 (
MAP
)
7,412
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Men have an increased risk of cardiovascular and renal diseases and develop greater renal injury despite similar levels of blood pressure when compared with women. The mechanisms responsible for this predisposition are unknown. Using the spontaneously hypertensive rat (SHR), we have found that androgens play an important role in the development of hypertension in young male SHR. However, the role that androgens play in age-related renal injury and dysfunction in SHR is unknown. Our hypothesis was that despite reductions in serum testosterone with age, androgens mediate renal injury and dysfunction in male SHR. Male SHR were castrated at 8 months of age, studied at 18 months of age, and compared with age-matched, intact males and young intact males (4 months). Serum testosterone was reduced by 30% in aging males compared with young SHR. With castration, blood pressure (mean arterial pressure [
MAP
]) was decreased by >20 mm Hg compared with old males, glomerular filtration rate (GFR) was increased by >35%, and renal vascular resistance (RVR) was reduced by >40%.
MAP
, GFR, and RVR in castrated, old males were similar to values in young males. With castration, glomerular sclerosis was reversed and proteinuria was also decreased by >80% when compared with old intact males. In addition, in castrated old males, plasma
renin
activity was decreased by 30% compared with old males and by 60% compared with young rats. The data support the hypothesis that despite a reduction in testosterone with age, androgens play an important role in age-related renal injury and dysfunction in SHR.
...
PMID:Role of androgens in mediating renal injury in aging SHR. 1456 2
This study was undertaken to identify combinations ('neutral points', NP) of orthostatic (tilt: head-down = HDT, head-up = HUT) and pseudo-orthostatic (lower body pressure: positive = LBPP, negative = LBNP) stimuli able to compensate one another in their effect on hemodynamic variables, electrical thoracic impedance (TI), hematocrit and plasma mass density (PD), and blood hormone concentrations. We asked if NP's exist for tested variables (hypothesis 1), if NP's differ with variables (hypothesis 2), and if NP's change as a function of time (hypothesis 3). For the blood volume sensitive variables (PD, plasma total protein concentration, and hematocrit) we found a NP at > or = 30 degrees HDT at LBNP-35 and -15 degrees HUT with LBPP+35. There was no clear PD / total plasma protein concentration effect with various degrees of LBNP-15 / HDT. NP's could be derived for some hemodynamic variables: With LBNP-35, a NP for heart rate was derived at -25 degrees HDT and for
MAP
at -30 degrees HDT. Heart rate intersected at > or = 30 degrees HDT with LBNP-15 (extrapolated), stroke volume index (SVI) at -20 degrees HDT. With LBPP+35, SVI had its NP at 11 degrees HUT. The hormonal responses displayed a pattern where plasma
renin
activity (PRA) NP's were logically scattered with LBNP intensity, whereas aldosterone displayed similar NP's with both LBNP intensities.
...
PMID:'Neutral point titration': cardiovascular regulation during combined (LBNP/HDT vs. LBPP/HUT) stimulation. 1500 98
We have previously shown that the splenorenal reflex controls
renin
release through splenic afferent and renal sympathetic nerves. We proposed that this reflex would also affect renal blood flow (RBF). RBF was measured in male Long Evans rats using transit-time flow probes. There were no significant differences between any of the experimental groups with respect to baseline values of RBF (8.9 +/- 0.4 ml min(-1), n= 25) or mean arterial pressure (
MAP
, 98.7 +/- 2.5 mmHg, n= 25). Splenic venous pressure was selectively raised (from 7.9 +/- 0.6 to 21.6 +/- 0.3 mmHg, n= 25) in anaesthetized rats by partial ligation of the splenic vein. This caused an immediate fall in RBF (-2.1 +/- 0.2 ml min(-1), n= 7) and in
MAP
(-12.4 +/- 2.8 mmHg, n= 7). The fall in RBF, but not the fall in blood pressure, was attenuated by renal denervation (DeltaRBF: - 0.7 +/- 0.1 ml min(-1), n= 6), splenic denervation (DeltaRBF: -0.8 +/- 0.1 ml min(-1), n= 6) and close renal arterial injection of the alpha1-adrenergic blocker phenoxybenzamine (12.5 microg; DeltaRBF: -0.8 +/- 0.1 ml min(-1), n= 6). Renal conductance fell only in the intact control group, i.e. the residual fall in RBF in the denervated and phenoxybenzamine-treated animals could be attributed to the fall in
MAP
. We also showed that splenic vein occlusion increased both splenic afferent (from 3.0 +/- 0.3 to 6.6 +/- 0.6 spikes s(-1), n= 5) and renal efferent (from 24.8 +/- 2.0 to 50.2 +/- 4.9 spikes s(-1), n= 9) nerve activity. We conclude that obstruction to splenic venous outflow, such as would occur in portal hypertension, initiates increased splenic afferent nerve activity and renal vasoconstriction through the splenorenal reflex, as well as a fall in blood pressure. We propose that this contributes to the renal and cardiovascular dysfunction observed in portal hypertension.
...
PMID:Splenorenal reflex modulates renal blood flow in the rat. 1509 Jun 5
Our model of the
renin
-angiotensin system has become increasingly complex with the identification of new components and additional roles for angiotensin peptides and their receptors. A functional (pro)renin receptor has been cloned. It acts as (pro)
renin
co-factor on the cell surface, enhancing the efficiency of angiotensinogen cleavage by (pro)
renin
and unmasking prorenin catalytic activity. Binding of (pro)
renin
to the receptor mediates (pro)
renin
cellular effects by activating
MAP
kinases ERK1/2. Immunofluorescence studies have located the receptor on mesangial and vascular smooth-muscle cells in human heart and kidney. This suggests that the renin receptor may represent a mean of capturing (pro)
renin
from the circulation and concentrating it at the interface between smooth-muscle and endothelial cells. This recent discovery of a functional (pro)renin receptor forces the emergence of a new concept that casts
renin
as potentially playing a direct role in tissue damage, especially in situations where the tissue RAS is activated.
...
PMID:[The (pro)renin receptor: biology and functional significance]. 1558 81
The
renin
-angiotensin system is a central component of the physiological and pathological responses of cardiovascular system. Its primary effector hormone, angiotensin II (ANG II), not only mediates immediate physiological effects of vasoconstriction and blood pressure regulation, but is also implicated in inflammation, endothelial dysfunction, atherosclerosis, hypertension, and congestive heart failure. The myriad effects of ANG II depend on time (acute vs. chronic) and on the cells/tissues upon which it acts. In addition to inducing G protein- and non-G protein-related signaling pathways, ANG II, via AT(1) receptors, carries out its functions via
MAP
kinases (ERK 1/2, JNK, p38MAPK), receptor tyrosine kinases [PDGF, EGFR, insulin receptor], and nonreceptor tyrosine kinases [Src, JAK/STAT, focal adhesion kinase (FAK)]. AT(1)R-mediated NAD(P)H oxidase activation leads to generation of reactive oxygen species, widely implicated in vascular inflammation and fibrosis. ANG II also promotes the association of scaffolding proteins, such as paxillin, talin, and p130Cas, leading to focal adhesion and extracellular matrix formation. These signaling cascades lead to contraction, smooth muscle cell growth, hypertrophy, and cell migration, events that contribute to normal vascular function, and to disease progression. This review focuses on the structure and function of AT(1) receptors and the major signaling mechanisms by which angiotensin influences cardiovascular physiology and pathology.
...
PMID:Angiotensin II cell signaling: physiological and pathological effects in the cardiovascular system. 1687 Aug 27
Ang-(3-7) is a fragment of the
renin
-angiotensin system that can be derived both from Ang II or Ang-(1-7). In the present study we determined the cardiovascular effects produced by angiotensin-(3-7) [Ang-(3-7)] microinjection into the rostral ventrolateral medulla (RVLM), a key region for the control of sympathetic drive to the periphery. RVLM microinjection of Ang-(3-7) (20, 40 or 80 ng) in male Wistar rats anesthetized with urethane produced significant increases in
MAP
(19+/-3.8 mm Hg, n=5; 16+/-1.6 mm Hg, n=15 and 11+/-1.2 mm Hg, n=4, respectively) as compared to saline (4+/-0.7 mm Hg, n=6). These alterations were similar to that induced by Ang-(1-7) (14+/-1.3 mm Hg, 40 ng; n=12) and Ang II (17+/-2.3 mm Hg, 40 ng; n=7). Microinjection of losartan (AT(1) receptor antagonist, 100 pmol) or A779 (selective Mas receptor antagonist, 100 pmol) did not alter the pressor effect caused by Ang-(3-7). Microinjection of an Ang-(3-7) analogue, d-Ala(7)-Ang-(3-7) (100 pmol), completely abolished the pressor effect caused by Ang-(3-7). These results suggest that Ang-(3-7) may be an additional peptide of the RAS to act as neuromodulator, at least at the RVLM. Further, the Ang-(3-7) pressor effect is not mediated by the interaction with AT(1) or the Ang-(1-7), Mas, receptors.
...
PMID:Angiotensin-(3-7) pressor effect at the rostral ventrolateral medulla. 1735 Jan 16
Angiotensin (ANG) II activating type 1 receptors (AT(1)Rs) enhances superoxide anion (O(2)*(-)) and arachidonate (AA) formation. AA is metabolized by cyclooxygenases (COXs) to PGH(2), which is metabolized by thromboxane (Tx)A(2) synthase to TxA(2) or oxidized to 8-isoprostane PGF(2alpha) (8-Iso) by O(2)*(-). PGH(2), TxA(2), and 8-Iso activate thromboxane-prostanoid receptors (TPRs). We investigated whether blood pressure in a rat model of early (3 wk) two-kidney, one-clip (2K,1C) Goldblatt hypertension is maintained by AT(1)Rs or AT(2)Rs, driving COX-1 or -2-dependent products that activate TPRs. Compared with sham-operated rats, 2K,1C Goldblatt rats had increased mean arterial pressure (
MAP
; 120 +/- 4 vs. 155 +/- 3 mmHg; P < 0.001), plasma
renin
activity (PRA; 22 +/- 7 vs. 48 +/- 5 ng x ml(-1) x h(-1); P < 0.01), plasma malondialdehyde (1.07 +/- 0.05 vs. 1.58 +/- 0.16 nmol/l; P < 0.01), and TxB(2) excretion (26 +/- 4 vs. 51 +/- 7 ng/24 h; P < 0.01). Acute graded intravenous doses of benazeprilat (angiotensin-converting enzyme inhibitor) reduced
MAP
at 20 min (-36 +/- 5 mmHg; P < 0.001) and excretion of TxA(2) metabolites. Indomethacin (nonselective COX antagonist) or SC-560 (COX-1 antagonist) reduced
MAP
at 20 min (-25 +/- 5 and -28 +/- 7 mmHg; P < 0.001), whereas valdecoxib (COX-2 antagonist) was ineffective (-9 +/- 5 mmHg; not significant). Losartan (AT(1)R antagonist) or SQ-29548 (TPR antagonist) reduced
MAP
at 150 min (-24 +/- 6 and -22 +/- 3 mmHg; P < 0.001), whereas PD-123319 (AT(2)R antagonist) was ineffective. Acute blockade of TPRs, COX-1, or COX-2 did not change PRA, but TxB(2) generation by the clipped kidney was reduced by blockade of COX-1 and increased by blockade of COX-2. 2K,1C hypertension in rats activates
renin
, O(2)*(-), and vasoconstrictor PGs. Hypertension is maintained by AT(1)Rs and by COX-1, but not COX-2, products that activate TPRs.
...
PMID:Roles of vasoconstrictor prostaglandins, COX-1 and -2, and AT1, AT2, and TP receptors in a rat model of early 2K,1C hypertension. 1776 73
Sepsis is associated with an activation of the
renin
-angiotensin system and causes acute kidney injury. The aim was to examine the effects of a low, nondepressor dose of the selective angiotensin II type 1 receptor antagonist candesartan on renal hemodynamics and function in endotoxemic rats. Endotoxemia was induced in Sprague-Dawley rats by a dose of LPS (Escherichia coli O127:B8; 7.5 mg kg(-1), i.p.). At 16 h after endotoxin administration, renal clearance experiments were performed in thiobutabarbital anesthetized rats. Study groups (1) sham-saline, (2) LPS-saline, and (3) LPS-candesartan received isotonic saline or candesartan (10 microg kg(-1), i.v.) after baseline measurements. Kidney function, renal blood flow (RBF), and cortical and outer medullary perfusion (laser-Doppler flowmetry) and oxygen tension (P(O2); Clark-type microelectrodes) were analyzed during 2 h after drug administration. At baseline, endotoxemic rats showed an approximately 50% reduction in glomerular filtration rate and RBF (P < 0.05), a decline in cortical and outer medullary perfusion, and Po2 (P < 0.05), but no significant alterations in
MAP
compared with saline-injected controls. Candesartan treatment significantly improved RBF (+40% +/- 6% vs. baseline), cortical perfusion (+18% +/- 3% vs. baseline), and cortical (+19% +/- 7% vs. baseline) and outer medullary (+22% +/- 10% vs. baseline) P(O2) in endotoxemic rats (P < 0.05 vs. LPS-saline). Candesartan did not significantly influence
MAP
or glomerular filtration rate, whereas filtration fraction was reduced by 27% +/- 5% vs. baseline (P < 0.05 vs. LPS-saline). In conclusion, candesartan, in a dose that did not significantly decrease
MAP
, caused renal vasodilation and markedly improved RBF and intrarenal P(O2) in endotoxemic rats. These findings suggest renoprotective effects of candesartan in sepsis.
...
PMID:Low-dose candesartan improves renal blood flow and kidney oxygen tension in rats with endotoxin-induced acute kidney dysfunction. 1809 74
The present study determined whether there are sex differences in the pressor response to angiotensin II (Ang II) when the endogenous
renin
-angiotensin system (RAS) is blocked by enalapril (ACEI), and whether this pressor response is changed in the presence of high salt (HS). Telemetry BP was measured in rats treated with ACEI (250 mg/L drinking water) (n=6 to 7/grp), or with ACEI and Ang II (150 ng/kg/min, sc; n=5 to 6/grp), for 3 wk. For the last 2 wk of the study, rats received HS (4% NaCl).
MAP
was lower in females during baseline (100.8+/-1.1 versus 105.2+/-1.3; P<0.05), and with ACEI the last 3 days on normal salt diet (78.8+/-1.2 versus 88.5+/-0.9; P<0.05), but increased to higher levels than in males on day 6 of Ang II (129.0+/-2.2 versus 117.3+/-2.9; P<0.05). One week of Ang II increased albuminuria in males, but not females, and urinary 8-iso-PGF2alpha (F2-isoP) was not increased in either males or females.
MAP
was salt-sensitive in both sexes receiving ACEI, but was only salt-sensitive in males with Ang II (129.3+/-3.7 versus 145.1+/-5.7; P<0.05). Albuminuria continued to increase with HS and Ang II in males, but not in females. F2-isoP excretion increased with
MAP
during the last week of HS and Ang II in males but was independent of
MAP
in females. With ACEI,
MAP
in females on normal salt is more responsive to Ang II but is independent of oxidative stress or renal injury.
MAP
in males is salt-sensitive with Ang II, which may be mediated by oxidative stress and renal injury.
...
PMID:Sex differences in the pressor response to angiotensin II when the endogenous renin-angiotensin system is blocked. 1825 17
The importance of dietary salt in the development of hypertension has long been a source of controversy. Recent studies suggest a combination of high-salt and ANG II infusion may increase sympathetic drive; however, the effect of a change in dietary salt alone is unclear. Using telemetry, we recorded renal sympathetic nerve activity (RSNA), arterial pressure (
MAP
), and heart rate (HR) in seven New Zealand white rabbits before and during a 6-day period of increased salt intake (normal NaCl 0.5 g x kg(-1) x day(-1), high NaCl 2.5 g x kg(-1) x day(-1)) and a second group of seven rabbits with normal salt intake throughout. The responses to stressful stimuli encountered in the laboratory were recorded and compared with rest in control and high-salt groups. Resting
MAP
, HR, and RSNA were not significantly altered with high salt intake [88 +/- 5 vs. 91 +/- 6 mmHg; 251 +/- 8 vs. 244 +/- 9 beats per minute (bpm); 9.7 +/- and 1.2 vs. 10.8 +/- 1.7 normalized units (nu)] despite significant reductions in plasma
renin
activity (1.88 +/- 0.18 vs. 1.27 +/- 0.15 nmol ANG I x l(-1) x h(-1); P < 0.05) and ANG II (7.5 +/- 1.2 vs. 4.3 +/- 0.8 pmol/l). Increasing levels of stressful stimuli (resting in home cage, containment in box, handling, and nasopharyngeal activation) in animals on a normal salt diet caused graded increases in
MAP
(89 +/- 2 mmHg, 95 +/- 2 mmHg, 107 +/- 4 mmHg, and 122 +/- 5 mmHg, respectively) and RSNA (9.7 +/- 0.9 nu; 11.8 +/- 2.7 nu; 31.4 +/- 3.7 nu; 100 nu) but not HR (245 +/- 8 bpm; 234 +/- 8 bpm; 262 +/- 9 bpm; 36 +/- 5 bpm). High dietary salt did not significantly alter the responses to stress. We conclude that a 6-day period of high salt intake does not alter the level of RSNA, with non-neural mechanisms primarily responsible for the observed
renin
-angiotensin system suppression.
...
PMID:A high-salt diet does not influence renal sympathetic nerve activity: a direct telemetric investigation. 1949 74
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