UMLS:C0038187 - FACTA Search

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Query: UMLS:C0038187 (starvation)
24,951 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of total food deprivation on renal function were evaluated in normal Munich-Wistar rats submitted to starvation (S) periods of two to eight days (Groups S2 to S8). A prompt and sustained decrease in renal plasma flow (RPF) and an increase in total renal vascular resistance (TRVR) were observed after the second day, together with a gradual decrease in glomerular filtration rate (GFR) until the fourth day (40% in the S4 group, P less than 0.05). After this period, a spontaneous and progressive increase in GFR occurred in spite of continuing low RPF and high TRVR. Glomerular hemodynamics were evaluated in additional animals from groups S4 and S7. As observed for whole kidney GFR, mean single nephron (SN) GFR was reduced in group S4, but not in group S7. The decline in SNGFR in S4 was the result of a decline (approximately 40%) in glomerular plasma flow rate (QA) and glomerular capillary hydraulic pressure (PGC), due to a predominant increase (approximately 60%) in afferent arteriolar resistance. In S7, SNGFR and its determinants did not differ from the control. Angiotensin II (Ang II), prostaglandin (but not thromboxane A2, TxA2) inhibition blunted the alterations in whole kidney function observed in S4. Conversely in S7, the inhibition of vasoconstrictor agents (Ang II and TxA2) did not normalize GFR, suggesting that the intrarenal vasoconstriction could be an important factor to maintain GFR after a prolonged period of starvation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glomerular hemodynamics and hormonal evaluation during starvation in rats. 140 35

Patients with anorexia nervosa frequently demonstrate dehydration, electrolyte imbalance and low blood pressure that are secondary to starvation. Hyperactivity of the Renin-Aldosterone system and insensitivity to the pressor effects of exogenous angiotensin II are observed in Pseudo-Bartter syndrome caused by the abuse of diuretics or laxatives and self-induced vomiting, however, little information about the Renin-Aldosterone system has been reported in patients with anorexia nervosa. This study was designed to investigate the secretory function of the Renin-Aldosterone system in anorexia nervosa. The subjects were 13 patients with anorexia nervosa and 6 normal controls. Experiment 1: Angiotensin II infusion test was performed. Blood pressure was measured every 5 minutes, and the samples for plasma renin and serum aldosterone analysis were taken every 15 minutes during infusion test. Experiment 2: Plasma renin activity and serum aldosterone concentration were measured before and after one-hour walking. The results were as follows; (1) Basal plasma renin activity and serum aldosterone concentration in patients were not significantly higher than those in normal subjects. (2) Hypertensive response with elevation of the diastolic pressure during angiotensin II infusion in patients similar to that of normal subjects was observed. (3) Responses of plasma renin activity and serum aldosterone concentration after one-hour walking were significantly greater in patients than in normal subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Secretory function of the renin-aldosterone system in patients with anorexia nervosa. 201 46

Angiotensin II type 2 (AT2) receptor is expressed abundantly in the fetal vasculature with rapid decline after birth and re-expressed in the adult vasculature after injury, whereas angiotensin II type 1 (AT1) receptor is expressed. We studied their effects on apoptosis in cultured rat vascular smooth muscle cells (VSMC). Serum starvation induced VSMC DNA fragmentation and the stimulation of AT1 receptor inhibited this apoptotic change. We transfected rat AT2 receptor cDNA, since cultured adult VSMCs show very low level of endogenous AT2 receptor. In AT2 receptor transfected VSMC, selective stimulation of AT2 receptor facilitated serum-deprivation-induced apoptosis and AT1 receptor stimulation inhibited it. Moreover we observed that AT1 receptor stimulation activated extracellular signal-regulated kinase (ERK), whereas the AT2 receptor stimulation inhibited the activation of ERK. Taken together, our results suggest that AT1 and AT2 receptors exert counteracting effects on ERK activation and consequently VSMC apoptosis and differential expression of these receptors may participate in vascular development and vascular remodeling.
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PMID:Angiotensin II type 2 receptor mediates vascular smooth muscle cell apoptosis and antagonizes angiotensin II type 1 receptor action: an in vitro gene transfer study. 980 32

The present study was designed to evaluate the relevance of arginine transport in nitric oxide (NO) synthesis in vascular smooth muscle cells. For this purpose, NO synthesis and arginine transport (system B0,+ and y+) were evaluated in cells treated with IL-1beta or angiotensin II (Ang II). In addition, the effects of 5 mM lysine and glutamine, competitive inhibitors of systems y+ and B0,+ respectively, were examined. L-arginine transport was estimated with 3H-labelled arginine and NO was determined with the Griess reagent. These studies were done in control conditions, arginine-starved cells, and in cells incubated in media containing 10 mM arginine. Our data indicate that induction of NO biosynthesis by IL-1beta depends on external arginine when cells are arginine-depleted for 24 hours. The concentration of arginine producing half maximal activation of NO synthesis in arginine-depleted cells ([arginine]i < 10 microM) was 41.1 +/- 18 microM. By contrast, in normal culture conditions, NO synthesis occurred independently of arginine transport. Neither 5 mM lysine or glutamine which abolished arginine transport through systems y+ and B0,+, respectively, reduced nitrite release in cells incubated in normal media. This suggests that the relevance of arginine uptake to NO synthesis depends on the status of intracellular arginine pools. Intracellular arginine concentrations were not affected by the stimulation of NO production using IL-1beta or its inhibition using Ang II, but were markedly reduced by arginine starvation for 48h. Aspartate levels were also reduced by arginine-depletion, but were not affected in cells incubated with 10 mM arginine. By contrast, glutamate levels were reduced in arginine-starved cells and were increased in cells incubated in arginine-supplemented medium. Ornithine levels were markedly increased by arginine supplementation. Altogether, these findings indicate that NO synthesis is normally independent of membrane transport. However in arginine-depleted cells, membrane transport is essential for NO synthesis. It is concluded that arginine transport is required for the long-term maintenance of intracellular arginine pools.
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PMID:Relationship between NO synthesis, arginine transport, and intracellular arginine levels in vascular smooth muscle cells. 1112 52

Caveolin, a major protein component of caveolae, directly interacts with multiple signaling molecules, such as Ras and growth factor receptors, and inhibits their function. However, the role of the second messenger system in mediating this inhibition by caveolin remains poorly understood. We examined the role of Ca2+-dependent signal in caveolin- mediated growth inhibition using a rat cardiac myoblast cell line (H9C2), in which the expression of caveolin- 3, the muscle specific subtype, can be induced using the LacSwitch system. Upon induction with IPTG and serum-starvation, the expression of caveolin-3 was increased by 3.3-fold relative to that of mock-induced cells. The recombinant caveolin-3 was localized to the same subcellular fraction as endogenous caveolin-3 after sucrose gradient purification. Angiotensin II enhanced ERK phosphorylation, but this enhancement was significantly decreased in caveolin-3-induced cells in comparison to that in mock-induced cells. Similarly, when cells were stimulated with fetal calf serum, DNA synthesis, as determined by [3H]-thymidine incorporation, was significantly decreased in caveolin- 3-induced cells. When cells were treated with Ca2+ chelator (BAPTA and EGTA), however, this attenuation was blunted. Calphostin (PKC inhibitor), but not cyclosporine A treatment (calcineurin inhibitor), blunted this attenuation in caveolin-3 induced cells. Our findings suggest that caveolin exhibits growth inhibition in a Ca2+-dependent manner, most likely through PKC, in cardiac myoblasts.
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PMID:Caveolin-3 inhibits growth signal in cardiac myoblasts in a Ca2+-dependent manner. 1656 33

Angiotensin (Ang) II is produced locally in various tissues, but its role in the regulation of tissue metabolism is still unclear. Recent studies have revealed the role of type 2 Ang II receptor (AT2R) in the control of energy homeostasis and lipid metabolism. The contribution of the AT2R to adaptation to starvation was tested using AT2R-deficient (AT2R (y)(/-)) mice. Fasted AT2R (y)(/-) mice exhibited a lower loss of adipose tissue weight associated to a decreased free fatty acid (FFA) release from stored lipids than the controls. In vitro studies show that Ang II causes an AT1R-mediated antilipolytic effect in isolated adipocytes. AT1R expression is up-regulated by fasting in both genotypes, but the increase is more pronounced in AT2R (y/-) mice. In addition, the increased muscle beta-oxidation displayed in AT2R (y/-) mice on a fed state, persists after fasting compared with wild-type mice. In liver from fed mice, AT2R deficiency did not modify the expression of genes involved in fatty acid oxidation. However, in response to fasting, the large increase of the expression of this subset of genes exhibited by wild-type mice, was impaired in AT2R (y/-) mice. Taken together, decreased lipolytic capacity and increased muscle fatty acid oxidation participate in the decreased plasma FFA observed in fasted AT2R (y/-) mice and could account for the lower FFA metabolism in the liver. These data reveal an important physiological role of AT2R in metabolic adaptations to fasting.
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PMID:Prevention of adipose tissue depletion during food deprivation in angiotensin type 2 receptor-deficient mice. 1688 12

The serum- and glucocorticoid-inducible kinase 1 (SGK1) is known to regulate a wide variety of cellular processes, including renal sodium retention and cell survival. Angiotensin II (Ang II) is one of the many signaling molecules capable of regulating SGK1 expression, and is also known to impact cell survival. Here, we examined the role of SGK1 in Ang II-mediated cell survival. We hypothesized that Ang II protects cells from apoptosis by upregulating and activating SGK1. To test this, we examined the effects of Ang II stimulation on SGK1 expression and downstream signaling. We also examined the effects of Ang II treatment and siRNA-mediated SGK1 knockdown on apoptosis after serum starvation. We found that after 2h of Ang II treatment, SGK1 mRNA expression was increased approximately 2-fold. This induction was sensitive to reductions in intracellular calcium levels after pretreatment with BAPTA-AM, but insensitive to the L-type calcium channel blocker verapamil. SGK1 induction was also sensitive to the tyrosine kinase inhibitor genistein. Ang II treatment also caused a rapid increase in the level of phosphorylation of SGK1 at Ser422 and Thr256, and Ser422 phosphorylation was rapamycin-sensitive. We found that Ang II treatment was protective against serum starvation-induced apoptosis, and this protective effect was significantly blunted when SGK1 was silenced via siRNA. Lastly, Ang II induced FOXO3A phosphorylation in an SGK1-dependent manner, thereby reducing the pro-apoptotic actions of FOXO3A. Overall, these results indicate that Ang II upregulates and activates SGK1, leading to increased cell survival via multiple, non-redundant mechanisms.
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PMID:Angiotensin II mediates cell survival through upregulation and activation of the serum and glucocorticoid inducible kinase 1. 2196 29

The renin-angiotensin-aldosterone system (RAAS) has evolved in humans as one of the main physiological networks by which blood pressure and blood flow to vital organs is maintained. The RAAS has evolved to circumvent life-threatening events such as hemorrhage and starvation. Although short-term activation of this system had been well suited to counteract such catastrophes of early man, excessive chronic activation of the RAAS plays a fundamental role in the development and progression of cardiovascular disease in modern man. The RAAS is an intricate network comprising a number of major organ systems (heart, kidney, and vasculature) and signaling pathways. The main protagonists are renin, angiotensinogen (Ang), angiotensin I (Ang I), angiotensin II (Ang II), and aldosterone (Aldo). The study and delineation of each of these substances has allowed modern medicine to create targets by which cardiovascular disease can be treated. The main modulators that have been synthesized in this respect are angiotensin-converting enzyme inhibitors (ACEIs), angiotensin receptor blockers (ARBs), mineralocorticoid receptor blockers (MRBs), and direct renin inhibitors (DRIs). Over the past few decades, each of these substances has proven efficacious to varying degrees amongst a number of clinical settings. Additionally, there exists data for and against the use of these agents in combination. The use of these agents in combination poses a larger question conceptually: can excessive pharmacological inhibition of the RAAS lead to patient harm? This perspective will examine the concept of a neurohormonal inhibition ceiling in pertinent experimental and clinical trials.
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PMID:The neurohormonal network in the RAAS can bend before breaking. 2252 88

Vascular remodelling is a critical vasculopathy found in atheromatous diseases and allograft failures. The local renin angiotensin system (RAS) has been implicated in vascular remodelling. However, the mechanisms by which the augmented local RAS is associated with the initial event of endothelial cell apoptosis in injured vasculature remain undefined. We induced the apoptosis of human umbilical vein endothelial cells (HUVECs) and vascular smooth muscle cells (VSMCs) through serum starvation (SS). After the cells were subjected to SS, we found that the mRNA expression of angiotensinogen (AGT) was increased by >3-fold in HUVECs and by approximately 2.5-fold in VSMCs. In addition, the expression of angiotensin-converting enzyme (ACE) mRNA was increased in VSMCs but decreased to 50% in HUVECs during the same apoptotic process. Increases in the expression of AGT protein and angiotensin II (Ang II) were found in a serum-free medium conditioned by HUVECs (SSC). The increased Ang II was suppressed using lisinopril (an ACE inhibitor) treatment. Moreover, the activation of ERK1/2 induced by the SSC in VSMCs was also suppressed by losartan. In conclusion, we first demonstrated that the augmented AGT released from apoptotic endothelial cells acts as a vital progenitor of Ang II to accelerate vascular remodelling, and we suggest that blocking local augmented Ang II might be an effective strategy for restraining intimal hyperplasia.
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PMID:Local Augmented Angiotensinogen Secreted from Apoptotic Vascular Endothelial Cells Is a Vital Mediator of Vascular Remodelling. 2614 66

Pathological cardiac hypertrophy is the main determinant of the development of heart failure, for which there is often no effective therapy. The dysregulation of autophagy is implicated in hypertrophy, but the mechanism linking these processes is unclear. In this study, we characterized the regulatory role of miR-208a-3p in autophagy in H9c2 cardiomyoblasts induced by Angiotensin II (Ang II). We found that miR-208a-3p was up-regulated in Ang II-induced H9c2 cardiomyoblasts and in starvation-induced autophagy. The overexpression of miR-208a-3p increased Ang II-induced autophagy, and this was accompanied by the inhibition of programmed cell death protein (PDCD4) and upregulation of autophagy protein 5 (ATG5). A dual-luciferase report assay confirmed the direct binding between miR-208a-3p and PDCD4. PDCD4 knockdown up-regulated autophagy, and its overexpression down-regulated this process. Moreover, the PDCD4-mediated regulation of autophagy was modulated by ATG5. Taken together, these findings indicate that miR-208a-3p promotes autophagy during Ang II-induced hypertrophy and provide a basis for the development of therapies for hypertrophic-induced cardiac dysfunction.
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PMID:MiR-208a-3p aggravates autophagy through the PDCD4-ATG5 pathway in Ang II-induced H9c2 cardiomyoblasts. 2924 Oct 69

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