UNIPROT:Q16637 - FACTA Search

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Query: UNIPROT:Q16637 (SMA)
8,107 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric Oxide's (NO) function in vasomotor control, inflammation, and signal transduction makes it an attractive potential mediator of the capillary leak seen in acute lung injury. Despite extensive study, the role of NO in intestinal ischemia/reperfusion-induced capillary leak remains controversial. Rats were treated with vehicle, norepinephrine, or L-NNA (nitric oxide synthase inhibitor) and then underwent sham laparotomy or 30 min SMA occlusion followed by 1 to 12 h of reperfusion. Evan's Blue dye was administered 1 h before animals were euthanized. Ratios of bronchoalveolar lavage or small-intestine lavage to serum dye concentrations were calculated as measures of capillary leak. Circulating neutrophil activation was measured with a nitroblue tetrazolium reduction assay. In vehicle-treated animals, both capillary leakage and PMN activation peaked at 4 h of reperfusion. These parameters returned to baseline by 12 h. Treatment with L-NNA accelerated ischemia/reperfusion-induced PMN activation as well as accelerated capillary leak from 4 to 1 h. Treatment with norepinephrine (hypertensive control) increased the magnitude of lung capillary leak but had no effect on the timing of ischemia/reperfusion-induced PMN activation or ischemia/reperfusion-induced capillary leak. These data show that intestinal ischemia/reperfusion-induced systemic capillary leak is associated with systemic neutrophil activation. Nitric oxide synthase inhibition accelerates ischemia/reperfusion-induced capillary leak and mediates the capillary leak seen in acute lung injury by modulating neutrophil activation.
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PMID:Nitric oxide mediates acute lung injury by modulation of inflammation. 973 31

With the remarkable progress in diagnostic techniques, the recent increase in the incidence of arteriosclerosis and the gradually aging population, a great deal of attention is now being focused on intestinal ischemia and this disease has come to be regarded as one of the clinically important pathological conditions. From the clinic aspect, special attention should be directed to the artery which is involved in intestinal ischemia. Furthermore acute superior mesenteric arterial ischemia (SMA ischemia), ischemic colitis, non-occlusive mesenteric ischemia (NOMI) require serious attentions. Few specific findings of these pathological conditions can be obtained in general examinations, therefore angiography is the most useful technique for making difinitive diagnoses. SMA ischemia and NOMI are progressive diseases and their prognoses are poor. The progress of ischemic colitis is gradual and the conservative therapy consisting of fasting, drip infusion and antibiotic administration is generally effective in treating this disease.
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PMID:[Ischemic disease of the intestine]. 978 Jul 21

A 56-year-old man presented with complete occlusion of the superior and inferior mesenteric arteries resulting in chronic mesenteric ischemia. After a minimal angioplasty a Wallstent was inserted across the superior mesenteric artery occlusion. This produced immediate clinical relief, with a successful angiographic result. Eight months later, an intrastent occlusion with acute bowel infarction was treated in emergency by saphenous vein bypass graft. Despite the death of the patient a few days later from a multivisceral failure syndrome, this method seemed to us feasible in treating a chronically occluded SMA in patients with high operative risk.
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PMID:Transient relief of abdominal angina by Wallstent placement into an occluded superior mesenteric artery. 1129 15

Cell transplantation has been proposed as a future therapy for various myocardial diseases. It is unknown, however, whether the encouraging results obtained in animal models of ischemia and reperfusion, cryoinjury or cardiomyopathy can be reproduced in the setting of permanent coronary artery occlusion and extensive myocardial infarction (MI). Embryonic cardiac cells were isolated and cultured for 3 days to confirm viability, morphology and to label cells with BrdU or the reporter gene LacZ. Seven days after extensive MI, rats were randomized to cell (1.5x10(6)) transplantation (n=11) or culture medium injection (n=16) into the myocardial scar. Echocardiography study was performed before and 53+/-3 days after implantation to assess left ventricular (LV) remodeling and function. During follow-up, there was no mortality among cell-treated rats v 4 of 16 control rats (P=0.12). X-gal staining, BrdU and alpha -SMA immunohistochemistry identified the engrafted cells 1 week, 4 weeks and 8 weeks after transplantation, respectively. Antibodies against alpha -SMA, connexin-43, fast and slow myosin heavy chain revealed grafts in various stages of differentiation in 10 of 11 cell-treated hearts. Many of them, however, kept their embryonic phenotype and were isolated from the host myocardium by scar tissue. Serial echocardiography studies revealed that cell transplantation prevented scar thinning, LV dilatation and dysfunction while control animals developed scar thinning, significant LV dilatation accompanied by progressive deterioration in LV contractility. Transplantation of embryonic cardiomyocytes after extensive MI in a rat model attenuate LV dilatation, infarct thinning, and myocardial dysfunction. Still, many grafts remain isolated and do not differentiate into an adult phenotype, even when studied 2 months after grafting.
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PMID:Influence of embryonic cardiomyocyte transplantation on the progression of heart failure in a rat model of extensive myocardial infarction. 1143 38

The brain's response to ischemia, which helps determine clinical outcome after stroke, is regulated partly by competing genetic programs that respectively promote cell survival and delayed cell death. Many genes involved in this response have been identified individually or systematically, providing insights into the molecular basis of ischemic injury and potential targets for therapy. The development of microarray systems for gene expression profiling permits screening of large numbers of genes for possible involvement in biological or pathological processes. Therefore, we used an oligodeoxynucleotide-based microarray consisting of 374 human genes, most implicated previously in apoptosis or related events, to detect alterations in gene expression in the hippocampus of rats subjected to 15 minutes of global cerebral ischemia followed by up to 72 hours of reperfusion. We found 1.7-fold or greater increases in the expression of 57 genes and 1.7-fold or greater decreases in the expression of 34 genes at 4, 24, or 72 hours after ischemia. The number of induced genes increased from 4 to 72 hours, whereas the number of repressed genes decreased. The induced genes included genes involved in protein synthesis, genes mutated in hereditary human diseases, proapoptotic genes, antiapoptotic genes, injury-response genes, receptors, ion channels, and enzymes. We detected transcriptional induction of several genes implicated previously in cerebral ischemia, including ALG2, APP, CASP3, CLU, ERCC3, GADD34, GADD153, IGFBP2, TIAR, VEGF, and VIM, as well as other genes not so implicated. We also found coinduction of several groups of related genes that might represent functional modules within the ischemic neuronal transcriptome, including VEGF and its receptor, NRP1; the IGF1 receptor and the IGF1-binding protein IGFBP2; Rb, the Rb-binding protein E2F1, and the E2F-related transcription factor, TFDP1; the CACNB3 and CACNB4 beta-subunits of the voltage-gated calcium channel; and caspase-3 and its substrates, ACINUS, FEM1, and GSN. To test the hypothesis that genes identified through this approach might have roles in the pathophysiology of cerebral ischemia, we measured expression of the products of two induced genes not heretofore implicated in cerebral ischemia-GRB2, an adapter protein involved in growth-factor signaling pathways, and SMN1, which participates in RNA processing and is deleted in most cases of spinal muscular atrophy. Western analysis showed enhanced expression of both proteins in hippocampus at 24 to 72 hours after ischemia, and SMN1 was localized by immunohistochemistry to hippocampal neurons. These results suggest that microarray analysis of gene expression may be useful for elucidating novel molecular mediators of cell death and survival in the ischemic brain.
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PMID:Microarray analysis of hippocampal gene expression in global cerebral ischemia. 1145 15

Two cases of atypical mesenteric ischemia where color Doppler US demonstration of the underlying arterial abnormality and collateral supply was possible are presented. Significant stenosis of the celiac axis and thrombosis of the SMA were clearly depicted, along with the presence of collateral arterial supply. Endovascular treatment was successful in both cases. These cases confirm the possibility of detecting collateral flow at Doppler imaging in patients with mesenteric ischemia, both for diagnosis of mesenteric ischemia and endovascular treatment planning.
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PMID:[Chronic arterial mesenteric ischemia: Doppler color ultrasonography demonstration of collateral flow]. 1189 52

Identification of novel modulators of ischemic neuronal death helps in developing new strategies to prevent the stroke-induced neurological dysfunction. Hence, the present study evaluated the gene expression changes in rat cerebral cortex at 6 and 24 h of reperfusion following transient middle cerebral artery occlusion (MCAO) by GeneChip analysis. Transient MCAO resulted in selective increased mRNA levels of genes involved in stress, inflammation, transcription and plasticity, and decreased mRNA levels of genes which control neurotransmitter function and ionic balance. In addition to a number of established ischemia-related genes, many genes not previously implicated in transient focal ischemia-induced brain damage [suppressor of cytokine signaling (SOCS)-3, cAMP responsive element modulator (CREM), cytosolic retinol binding protein (CRBP), silencer factor-B, survival motor neuron (SMN), interferon-gamma regulatory factor-1 (IRF-1), galanin, neurotrimin, proteasome subunit RC8, synaptosomal-associated protein (SNAP)-25 A and B, synapsin 1a, neurexin 1-beta, ras-related rab3, vesicular GABA transporter (VGAT), digoxin carrier protein, neuronal calcium sensor-1 and neurodap] were observed to be altered in the ischemic cortex. Real-time PCR confirmed the GeneChip results for several of these transcripts. SOCS-3 is a gene up-regulated after ischemia which modulates inflammation by controlling cytokine levels. Antisense knockdown of ischemia-induced SOCS-3 protein expression exacerbated transient MCAO-induced infarct volume assigning a neuroprotective role to SOCS-3, a gene not heretofore implicated in ischemic neuronal damage.
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PMID:Gene expression analysis of spontaneously hypertensive rat cerebral cortex following transient focal cerebral ischemia. 1243 78

Ischemic preconditioning renders the mouse kidney resistant to subsequent ischemia. Understanding the mechanisms responsible for ischemic preconditioning is important for formulating therapeutic strategies aimed at mimicking protective mechanisms. We report that the resistance afforded by 30 min of bilateral kidney ischemia persists for 12 weeks after preconditioning. The protection is reflected by improved postischemic renal function, reduced leukocyte infiltration, reduced postischemic disruption of the actin cytoskeleton, and reduced postischemic expression of kidney injury molecule-1 (Kim-1). The protection is observed in both BALB/c and C57BL/6J strains of mice. Thirty minutes of prior ischemia increases the expression of inducible nitric-oxide synthase (iNOS) and endothelial NOS (eNOS) and the expression of heat shock protein (HSP)-25 and is associated with increased interstitial expression of alpha-smooth muscle actin (alpha-SMA), an indication of long term postischemic sequelae. Treatment with Nomega-nitro-l-arginine (l-NNA), an inhibitor of NO synthesis, increases kidney susceptibility to ischemia. Gene deletion of iNOS increases kidney susceptibility to ischemia, whereas gene deletion of eNOS has no effect. Pharmacological inhibition of NOS by l-NNA or l-N6-(1-iminoethyl) lysine (l-NIL, a specific inhibitor of iNOS) mitigates the kidney protection afforded by 30 min of ischemic preconditioning. Fifteen minutes of prior ischemic preconditioning, which does not result in the disruption of the actin cytoskeleton, impairment of renal function, increased interstitial alpha-SMA, or increased iNOS or eNOS expression, but does increase HSP-25 expression, partially protects the kidney from ischemia on day 8 via a mechanism that is not abolished by l-NIL treatment. Thus, iNOS is responsible for a significant component of the long term protection afforded the kidney by ischemic preconditioning, which results in persistent renal interstitial disease, but does not explain the preconditioning seen with shorter periods of ischemia.
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PMID:Inducible nitric-oxide synthase is an important contributor to prolonged protective effects of ischemic preconditioning in the mouse kidney. 1268 64

Ischemic injury to the gastrointestinal tract can threaten bowel viability with potential catastrophic consequences, including intestinal necrosis and gangrene. The presenting symptoms and signs are relatively nonspecific and diagnosis requires a high index of clinical suspicion. AMI often results from an embolus or thrombus within the SMA, although a low-flow state through an area of profound atherosclerosis may also induce severe ischemia. Because most laboratory and radiologic studies are nonspecific in early ischemia an aggressive approach to diagnosis with imaging of the splanchnic vasculature by mesenteric angiography is advocated. Various therapeutic approaches, including the infusion of vasodilators and thrombolytics, may then be used. Proper diagnosis and management of patients with AMI requires vigilance and a readiness to pursue an aggressive course of action.
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PMID:Intestinal ischemia. 1469

Ischemic preconditioning (IP), obtained by exposure to brief periods of vascular occlusion, improves organ tolerance to prolonged ischemia. The aim of this study was to evaluate the effects of IP on intestinal morphology. Forty rats were subjected to sham surgery (n = 20, group I) or intestinal preconditioning (n = 20, group II) with a cycle of brief ischemia/reperfusion (10-minute occlusion of superior mesenteric artery [SMA], followed by 10-minute reperfusion) before prolonged ischemia produced by SMA occlusion (45 minutes). Five animals in each group were sacrificed 2, 12, 24, and 48 hours after reperfusion. Intestinal samples were processed for light and electron microscopy. A TUNEL assay was performed to detect apoptosis. Statistical analysis used Student t test and Kaplan-Meier survival curves. The overall mortality for the sham-operated group was 15%, while no animals of group II died (NS). Histological evaluation showed early detachment of epithelial cells from villous stroma accompanied by marked congestion and edema. Successive morphological changes were represented by leukocyte infiltration, focal necrosis, and marked villus denudation or loss. Group II animals showed significantly reduced inflammatory infiltrates in the lamina propria and a greater villus height compared to group I. The maximum number of apoptotic nuclei was observed in both groups, Following 2 hours of reperfusion group II animals showed significantly, greater apoptosis at 2 and 12 hours after reperfusion (P <.05). Electron microscopy showed severe mitochondrial and basement membrane damage. The findings from this study confirm that IP preconditioning attenuates morphological alterations that are invariably present after prolonged ischemia and reperfusion.
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PMID:Ischemic preconditioning protects intestine from prolonged ischemia. 1505 Jan 34

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