UMLS:C0038454 - FACTA Search

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Post-translational modification and functional impairment of proteins through carbamylation is thought to promote vascular dysfunction during end-stage renal disease. Cyanate, a reactive species in equilibrium with urea, carbamylates protein lysine residues to form epsilon-carbamyllysine (homocitrulline), altering protein structure and function. We now report the discovery of an alternative and quantitatively dominant mechanism for cyanate formation and protein carbamylation at sites of inflammation and atherosclerotic plaque: myeloperoxidase-catalyzed oxidation of thiocyanate, an anion abundant in blood whose levels are elevated in smokers. We also show that myeloperoxidase-catalyzed lipoprotein carbamylation facilitates multiple pro-atherosclerotic activities, including conversion of low-density lipoprotein into a ligand for macrophage scavenger receptor A1 recognition, cholesterol accumulation and foam-cell formation. In two separate clinical studies (combined n = 1,000 subjects), plasma levels of protein-bound homocitrulline independently predicted increased risk of coronary artery disease, future myocardial infarction, stroke and death. We propose that protein carbamylation is a mechanism linking inflammation, smoking, uremia and coronary artery disease pathogenesis.
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PMID:Protein carbamylation links inflammation, smoking, uremia and atherogenesis. 1791 60

Transient cerebral ischemia/stroke activates various post-translational protein modifications such as phosphorylation and ubiquitin conjugation that are believed to play a major role in the pathological process triggered by an interruption of blood supply and culminating in cell death. A new system of post-translational protein modification has been identified, termed as small ubiquitin-like modifier (SUMO) conjugation. Like ubiquitin, SUMO is conjugated to the lysine residue of target proteins in a complex process. This review summarizes observations from recent experiments focusing on the effect of cerebral ischemia on SUMO conjugation. Transient global and focal cerebral ischemia both induced a rapid, dramatic and long-lasting rise in levels of SUMO2/3 conjugation. After transient focal cerebral ischemia, SUMO conjugation was particularly prominent in neurons located at the border of the ischemic territory where SUMO-conjugated proteins translocated to the nucleus. Many SUMO conjugation target proteins are transcription factors and sumoylation has been shown to have a major impact on the activity, stability, and cellular localization of target proteins. The rise in levels of SUMO-conjugated proteins is therefore likely to have a major effect on the fate of post-ischemic neurons. The sumoylation process could provide an exciting new target for therapeutic intervention.
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PMID:Cerebral ischemia/stroke and small ubiquitin-like modifier (SUMO) conjugation--a new target for therapeutic intervention? 1841 May 5

Nitric oxide (NO) is important for the homeostasis of organ functions. We studied the structural and functional changes in the cardiovascular (CV) and renal systems following early NO deprivation by various nonspecific and specific NO synthase (NOS) inhibitors: N-nitro-L-arginine methyl ester (L-NAME), N-nitro-L-arginine (L-NA), S-methyl-isothiourea (SMT), and L-N6-(1-iminoethyl)-lysine (L-Nil). The aim is to elucidate the involvement of NO through endothelial or inducible NOS (eNOS and iNOS). Drugs were given to spontaneously hypertensive rats (SHR) and age-matched normotensive Wistar Kyoto rats (WKY) from a young age (5-wk-old). Physiological, biochemical, and pathological examinations were performed. L-NAME and L-NA treatment caused a rapid increase in tail cuff pressure (TCP). The TCP of SHR reached a malignant level within 30 days with signs of stroke, proteinuria [corrected] severe glomerular sclerosis, and moderate ventricular hypertrophy (VH). The plasma nitrite/nitrate was reduced, while creatinine, urea nitrogen and uric acid were elevated. The renal tissue cyclic guanosine monophosphate (cGMP) was decreased with an elevated collagen content. The numbers of sclerotic glomeruli, arteriolar and glomerular injury scores were markedly increased, accompanied by reduction in renal blood flow, filtration rate, and fraction. Plasma endothelin-1 was increased following L,-NAME or L-NA treatment for 10 days. The expression of eNOS and iNOS mRNA was depressed by L-NAME and L-NA. The relevant iNOS inhibitors, SMT and L-Nil depressed the iNOS expression, but did not produce significant changes in CV and renal systems. The continuous release of NO via the eNOS system provides a compensatory mechanism to prevent the genetically hypertensive rats from rapid progression to malignant phase. Removal of this compensation results in VH, stroke, glomerular damage, renal function impairment, and sudden death.
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PMID:Malignant alterations following early blockade of nitric oxide synthase in hypertensive rats. 1844 11

Intraluminal temporary middle cerebral artery occlusion (MCAO) is a common model of ischemic stroke in the rat with significant, suture and weight-dependent variability along with increased risk of subarachnoid haemorrhage (SAH). Our purpose was to increase reproducibility and decrease SAH using a modification of the Koizumi suture. We compared a Koizumi 5/0 Ethilon poly-l-lysine-coated suture (s-2, group B) to an identical, uncoated one (s-1, group A) and the Belayev's 3/0 suture (s-3, group C), in the 2-h MCAO model in Wistar rats of varying weight (310-527 g). Assessment included successful infarction rates, the modified neurological stroke scale (mNSS), a modified Bederson's scale (mBS), the grid-walking test (GWT), infarction volume (with rostrocaudal subanalysis and analysis of cortical/striatal involvement) and hemispheric edema. The s-2 suture increased the successful MCAO from 61.1% and 66.6% (groups A and C) to 97.5% in group B and induced a more severe clinical stroke (P<0.05) irrespective of animal's weight, with no incidence of SAH. Infarction volume and ipsilateral hemispheric edema significantly (P<0.05) increased and well correlated with the mNSS (P<or=0.005), the mBS (P<or=0.01) and GWT outcomes. Our data suggest that the new modified suture induces a more reproducible ischemic stroke in Wistar rats for temporary-MCAO experiments, overcoming the variability of weight and the risk of SAH.
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PMID:Effectiveness of a new modified intraluminal suture for temporary middle cerebral artery occlusion in rats of various weight. 1863 24

Up-regulation of c-Jun is a common event in the developing, adult as well as in injured nervous system that serves as a model of transcriptional control of brain function. Functional studies employing in vivo strategies using gene deletion, targeted expression of dominant negative isoforms and pharmacological inhibitors all suggest a three pronged role of c-Jun action, exercising control over neural cell death and degeneration, in gliosis and inflammation as well as in plasticity and repair. In vitro, structural and molecular studies reveal several non-overlapping activation cascades via N-terminal c-Jun phosphorylation at serine 63 and 73 (Ser63, Ser73), and threonine 91 and 93 (Thr91, Thr93) residues, the dephosphorylation at Thr239, the p300-mediated lysine acetylation of the near C-terminal region (Lys268, Lys271, Lys 273), as well as the Jun-independent activities of the Jun N-terminal family of serine/threonine kinases, that regulate the different and disparate cellular responses. A better understanding of these non-overlapping roles in vivo could considerably increase the potential of pharmacological agents to improve neurological outcome following trauma, neonatal encephalopathy and stroke, as well as in neurodegenerative disease.
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PMID:c-Jun expression, activation and function in neural cell death, inflammation and repair. 1879 28

Thrombin activatable fibrinolysis inhibitor [carboxypeptidase B2 (plasma), CPB2] is a basic carboxypeptidase, which inhibits fibrinolysis by cleaving the C-terminal lysine residues on plasmin-modified partially degraded fibrin. Plasma CPB2 concentrations have been reported to be under the control of numerous single nucleotide polymorphisms located in the regulatory and coding regions of the gene encoding CPB2 (CPB2). High functional CPB2 levels have been found to be associated with an increased risk for ischemic stroke. The present study investigated CPB2 antigen levels and associated CPB2 polymorphisms in an acute onset non-cardioembolic stroke population compared with an age- and sex-matched healthy control population. This is, to the best of our knowledge, the first such study done in an Asian Indian population. CPB2 antigen levels were significantly associated with the disease phenotype (P < 0.001) and with CPB2 polymorphisms (P < 0.001). The haplotypes generated on analysis of the genotypic data accounted for 21% of the natural variation in the CPB2 antigenic levels. However none of the haplotype combinations generated showed any association with disease phenotype and therefore could not explain for the difference in CPB2 antigen levels between cases and controls.
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PMID:Thrombin activatable fibrinolysis inhibitor gene polymorphisms are associated with antigenic levels in the Asian-Indian population but may not be a risk for stroke. 1898 91

Prothrombotic and proatherogenic risk factors, including elevated lipoprotein (a), predispose an individual to initial and recurrent ischemic stroke. An increased plasma level of lipoprotein (a), over 25-30 mg/dL, is called hyperlipoprotein (a)-emia, and is largely determined by genetic polymorphisms in apolipoprotein (a). Apolipoprotein (a) is a major protein component of lipoprotein (a), and is connected with apolipoprotein B-100 of low density lipoprotein. The size of apolipoprotein (a) and concentration of lipoprotein (a) vary widely among individuals as well as between ethnic groups. The size of apolipoprotein (a) and plasma concentrations of lipoprotein (a) are inversely related. Accordingly, the number of tandemly repeated structures, named kringle-4 domains, determines the size of apolipoprotein (a), and consequently the plasma lipoprotein (a) level. In addition, the efficiency of apolipoprotein (a) gene expression is a determinant of lipoprotein (a) concentrations, since lipoprotein (a) levels vary more than 200-fold even among the individuals having the same apolipoprotein (a) size. First, we identified haplotypes in the 5'-promoter region of the apolipoprotein (a) gene as a regulating factor of plasma lipoprotein (a) levels. Second, a pentanucleotide repeat polymorphism upstream of the promoter region was also reported to affect plasma lipoprotein (a) levels. Third, two functional single nucleotide polymorphisms were identified in a distal enhancer region situated approximately 20 kb from the apolipoprotein (a) gene. Finally, several polymorphisms were identified in the kringle-4 domains, and found to influence plasma lipoprotein (a) levels as well as the lysine/fibrin-binding function. Since lower molecular weight forms of apolipoprotein (a) are closely associated with the incidence of ischemic stroke, both high plasma concentrations of lipoprotein (a) and small sizes (i. e., number of kringle-4 repeats in the gene) of apolipoprotein (a) are risk factors for the development of atherothrombosis.
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PMID:[Hyperlipoprotein (a)-emia determined by genetic polymorphisms in apolipoprotein (a) gene]. 1906 64

We developed a DNA biochip specialized for detection of known base substitution mutations in mitochondrial DNA causing mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes (MELAS) and myoclonic epilepsy associated with ragged-red fibers (MERRF). A set of probes sharing a given allele-specific sequence with a single base substitution near the middle of the sequence was covalently immobilized. Cy5-labeled DNA targets were amplified from sample DNAs containing 31 potential MELAS and/or MERRF mutations by a multiplex PCR method. Detection parameters for the DNA biochip-based assay were accordingly optimized. Seven clinically confirmed patients with MELAS, 5 patients with MERRF, 1 suspected MERRF case and 25 healthy controls were tested using the DNA biochip. For discriminating of homoplasmic and heteroplasmic point mutations in mtDNA, a diagnostic factor based on the ratio between the hybridization signals from the reference and test targets with each probe was used. The results showed that all the cases with MELAS had a causal heteroplasmic A3243G tRNA(Leu(UUR)) mutation. In the MERRF patients, four cases were found to be a homoplasmic A8344G tRNA(Lys) mutation and one case was a heteroplasmic T8356C tRNA(Lys) mutation. None of the healthy controls carried the potential mutations. The results of the DNA biochip were completely consistent with those by DNA sequencing. Thus, the DNA biochip would potentially become a valuable tool in clinical specific screening of the mtDNA point mutations associated with MELAS and/or MERRF syndrome.
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PMID:Detection of known base substitution mutations in human mitochondrial DNA of MERRF and MELAS by biochip technology. 1915 71

Hearing loss is relatively common in mtDNA-related disorders. While auditory function has been assessed fully in the syndrome of mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes, few studies have investigated the degree of progressive hearing deficit in individuals bearing other mtDNA mutations. We performed a 4-year clinical and audiological follow up in a family carrying the 8363G>A mutation in the mitochondrial transfer ribonucleic acid lysine (tRNA(Lys)) gene who displayed a progressive neuromuscular disease. In addition to pure tone audiometry, we considered distortion products of otoacoustic emissions, a sensitive indicator of cochlear dysfunction, as well as brainstem auditory evoked responses. A generalized increase in the auditory threshold at follow up, indicating a cochlear impairment in three cases, was noted. Distortion products of otoacoustic emissions may reveal sub-clinical cochlear dysfunction, even in oligosymptomatic patients. A complete and periodical assessment of the hearing function should be encouraged in asymptomatic relatives of patients carrying the tRNA(Lys) 8363G>A mutation.
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PMID:Clinical and audiological follow up of a family with the 8363G>A mutation in the mitochondrial DNA. 1923 51

Several studies have shown the benefits of transplanting bone marrow-derived multipotent mesenchymal stromal cells (MSC) into neurodegenerative lesions of the central nervous system, despite a low engraftment rate and the poor persistence of grafts. It is known that the extracellular matrix (ECM) modulates neuritogenesis and glial growth, but little is known about effects of MSC-derived ECM on neural cells. In this study, we demonstrate in vitro that the ECM produced by MSC can support neural cell attachment and growth. We also compare the neurosupportive properties of MSC to the MSC derivative, SB623 cells, which is being developed as a cell therapy for stroke. Embryonic rat brain cortical cells cultured for 3 weeks on human MSC- and SB623 cell-derived ECM exhibit about a 1.5 and 3 times higher metabolic activity, respectively, compared with the cultures grown on poly-D-lysine (PDL), although the initial neural cell adhesion to cell-derived ECM and PDL is similar. The MSC- and SB623 cell-derived ECM protects neural cells from nutrient and growth factor deprivation. Under the conditions used, only neurons grow on PDL. In contrast, both MSC- and SB623 cell-derived ECMs support the growth of neurons, astrocytes, and oligodendrocytes, as demonstrated by immunostaining. Morphologically, neurons on cell-derived ECM form more complex and extended neurite networks than those cultured on PDL. Together, these data indicate that the beneficial effect of MSC and SB623 cells in neurotransplantation could be explained in part by the neurosupportive properties of the ECM produced by these cells.
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PMID:Extracellular matrix produced by bone marrow stromal cells and by their derivative, SB623 cells, supports neural cell growth. 1953 Jan 64

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