Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Not all possible mediators of lung I/R injury that have been studied, such as cyclooxygenase and lipoxygenase products, have been presented in this review, but it is very clear that oxygen free radicals are the primary mediators of the damage, regardless of their origin. Oxygen radicals are generated by neutrophils, which are sequestered and activated in the ischemic-reperfused pulmonary tissue, and by xanthine oxidase, which is upregulated by ischemia and/or activated neutrophils. The contributions to lung injury by different species of oxygen radicals may very depending upon the lung model used to study I/R. Also, nitric oxide may be injurious or protective in lung I/R injury, depending upon some critical alveolar PO2 level present either during ischemia or at reperfusion. I/R-induced lung microvascular injury ultimately depends upon some balance between lung metabolic stress, the extent of the I/R-induced inflammatory response, endogenous antioxidant levels, and the timing, magnitude, and duration of oxygen free radical generation during both periods of ischemia and reperfusion. The final common pathway causing microvascular permeability to increase after lung I/R is the activation of the endothelial cell's contractile machinery. Particularly, endothelial contraction may occur in a MLCK-dependent fashion. Endothelial contraction may also be related to an intracellular Ca++ increase and subsequent calmodulin activation. The initiating event causing increased intracellular Ca++ is not known, but may be due to endothelial cell/leukocyte interactions, oxygen radical-mediated Ca++ transients, mobilization of intracellular Ca++ pools by various second messengers, or stimulation of Ca++ influx secondarily to changes in the activity of membrane ion pumps such as the Na+/H+ antiport. Increasing cAMP levels in the postischemic lung can prevent and actually reverse I/R-induced microvascular injury, by affecting MLCK, the endothelial cell cytoskeleton, and/or the function of sequestered leukocytes. Also, cAMP elevation aids the resolution of pulmonary edema by facilitating capillary fluid reabsorption. Whatever the mechanism, elevation of cAMP in the setting of lung I/R injury represents a potentially useful therapy for improving early lung function following lung transplantation. Finally, additional studies are necessary to elucidate the complete mechanisms responsible for producing microvascular injury during lung I/R. Specifically, a better understanding of the relationships between the many factors required to produce lung damage is needed. Many interventions into the lung I/R process provide protection against microvascular injury, suggesting that regulation of the endothelial barrier permeability to fluid, protein, and leukocytes is accomplished by several redundant systems. This situation may be similar to mechanisms reported to regulate the immune response mediated by T cells (62a), where T cell activation depends upon multiple signal inputs for the full immune response to occur. Thus, multiple signals in a correct sequence delivered to the endothelium may be necessary to produce the microvascular injury associated with lung ischemia and reperfusion.
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PMID:Endothelial damage caused by ischemia and reperfusion and different ventilatory strategies in the lung. 890 6

The creatine kinase isoenzymes play an important role in maintaining ATP levels in some cell types during times of high energy demand. We have previously shown in primary cell cultures from rat brain that glial cells express much higher levels of brain creatine kinase (CKB) mRNA than neurons. In a separate earlier study we observed that transcription of CKB mRNA in glial cells can be stimulated by a forskolin-mediated increase in cAMP via a pathway involving protein kinase A (PKA). In this report, we show that the level of CKB mRNA in human U87 glioblastoma cells can be increased by either prostaglandin E1 (PGE1), prostaglandin E2 (PGE2), or cholera toxin (an activator of G alpha s proteins). The induction of CKB mRNA occurs rapidly (with maximal induction after 6 h), is at the level of transcription, and is mediated specifically through PKA. In addition, the results indicate that both PGE1 and PGE2 use the same or related signal transduction pathways to increase CKB transcription. These results suggest that in glial cells CKB mRNA can be regulated by extracellular signals acting through G-protein-coupled receptors. This study may contribute to an understanding of the mechanisms underlying the previously-reported, early postnatal increase in CKB enzyme activity in rat brain. The results are also discussed with regard to the potential involvement of the expression of prostaglandins and CKB during hypoxia and ischemia.
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PMID:Prostaglandin E1, E2, and cholera toxin increase transcription of the brain creatine kinase gene in human U87 glioblastoma cells. 892 40

We recently reported that pretreatment with the type IV phosphodiesterase inhibitor Ro 20-1724 attenuates the development of endotoxin-induced acute renal failure in rats. Norepinephrine is an important therapeutic agent in human endotoxemia, but its efficacy is limited by its deleterious side effect of potent renal and mesenteric vasoconstriction. In this study we examined whether posttreatment with Ro 20-1724 after endotoxin infusion 1) attenuates increased renal vascular resistance and the development of acute renal failure in the absence and presence of norepinephrine infusion, 2) improves mesenteric blood flow in the presence of norepinephrine and 3) improves survival rates in the absence and presence of norepinephrine infusion. Forty-eight rats were anesthetized and instrumented, and eight 20-min clearance periods were performed. Endotoxin (20 mg/kg i.v.) was administered after the first period, and a constant-rate i.v. infusion of either Ro 20-1724 (10 micrograms/kg/min) or vehicle was initiated after period 3, in the absence and presence of norepinephrine infusion (1 microgram/kg/ min, begun after period 4). Urinary cAMP excretion in the Ro 20-1724-treated groups was 2- to 3-fold (P < .001) higher, compared with the vehicle-treated groups. Ro 20-1724 markedly attenuated endotoxin-induced (P < .01) increases in renal vascular resistance and attenuated norepinephrine-induced (P < .05) increases in renal vascular resistance in rats pretreated with endotoxin. Moreover, Ro 20-1724 reduced endotoxin-induced decreases in renal blood flow (P < .05) and glomerular filtration rate (P < .01) in the absence and presence of norepinephrine. In animals pretreated with endotoxin, Ro 20-1724 attenuated norepinephrine-induced increases in mesenteric vascular resistance (P = .054) and decreases in mesenteric blood flow (P < .01). Ro 20-1724 also improved survival rates for endotoxin-treated rats, whether or not the rats were administered norepinephrine (P < .01). Type IV-specific phosphodiesterase inhibitors warrant further study as selective therapeutic agents that protect against endotoxin/vasopressor-induced renal and mesenteric ischemia and death.
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PMID:Treatment with the type IV phosphodiesterase inhibitor Ro 20-1724 protects renal and mesenteric blood flow in endotoxemic rats treated with norepinephrine. 896 41

Expression and function of the beta 2-adrenergic receptor (beta 2-AR), a critical modulator of motor function, is altered in ischemic tissues. However, the mechanism by which ischemia influences gene expression remains controversial, in part because of the conflicting results reported by numerous investigators. To determine the relative importance of hypoxia and acidosis on beta 2-AR expression and function, steady-state mRNA levels and receptor function were measured in DDT1MF-2 hamster smooth muscle cells grown in 10% serum and 3 nM epinephrine in 5% CO2 (pH 7.50) and then exposed for 48 h to either combined hypoxia with acidosis (through incubation in 2% O2, 10% CO2, mean pH 7.14 at 48 h), hypoxia alone (2% O2, 2.5% CO2, pH 7.36), normoxia-acidosis (21% O2, 10% CO2, pH 7.12) or continued normoxia (21% O2, 2.5% CO2, pH 7.49). Combined hypoxia-acidosis downregulated the beta 2-AR membrane density by 50% compared to hypoxia alone and normoxia alone at 48 h. beta 2-AR coupling in these cells, as measured by cellular cAMP production in response to 10(-4) M isoproterenol, was decreased by hypoxia but increased by acidosis. The effect of hypoxia-acidosis on Bmax was abolished by inhibiting transcription with 1.0 microgram/ml actinomycin D. A quantitative reverse transcriptase polymerase chain reaction assay demonstrated a decrease in steady-state mRNA concentration with hypoxia-acidosis. Our experiments demonstrate an important distinction between the effects of modeled hypoxia and ischemia on beta 2-AR gene expression.
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PMID:pH is critical to the regulation of expression of the beta 2-adrenergic receptor gene in hypoxia. 897 14

The endothelial cell response to hypoxia involves a range of adaptive mechanisms that reflect an active response of the cell's biosynthetic and metabolic apparatus. Hypoxia-mediated suppression of endothelial barrier function, resulting in increased vascular leakage, is likely to contribute to pulmonary and cerebral edema associated with high altitude and is closely associated with a fall in intracellular cyclic AMP levels. Buttressing of this second messenger pathway in the endothelium using membrane permeant cyclic AMP analogs prevents increased vascular leakage due to hypoxia. Application of this principle to organ preservation has shown that supplementation with cyclic AMP analogs or inhibition of endogenous cAMP metabolism enables extension of the time a harvested organ can remain extracorporeally, after which transplantation is successful. The underlying mechanism through which cyclic AMP exerts its effects appears to be maintenance of vascular homeostasis in the graft. A distinct adaptive mechanism triggered in the endothelium by hypoxia is expression of the cytokine interleukin-6 (IL-6) by a novel mechanism involving transcription driven by the nuclear factor IL-6 (NF-IL-6) DNA binding site in the promoter. IL-6 may exert protective effects on vascular function, thereby limiting vascular injury by a different mechanism than those recruited by elevated cAMP levels. These studies provide insights into tow independent mechanisms through which endothelium responds to oxygen deprivation, and suggest possible new approaches to attentuate vascular injury associated with ischemia.
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PMID:Hypoxia-induced modulation of endothelial cell properties: regulation of barrier function and expression of interleukin-6. 902 16

We examined the effects of FK506, a specific inhibitor of calcineurin, on the binding capacity of cyclic AMP-dependent protein kinase (cAMP-DPK) in gerbils subjected to 2-h cerebral hemispheric ischemia. FK506 (0.1 mg/kg) was infused intravenously at 15 min prior to the induction of ischemia by common carotid artery occlusion. The binding capacity of cAMP-DPK was evaluated by autoradiographic analysis of the cAMP binding, and cerebral blood flow (CBF) was measured by the [14C] iodoantipyrine method. In the sham-operated gerbils. FK506 significantly increased mean arterial blood pressure and tended to decrease CBF, suggesting that FK506 may constrict systemic blood vessels as well as cerebral blood vessels. On the other hand, cAMP binding was not altered by FK506 in the sham-operated gerbils. In the ischemia group of gerbils, FK506 prevented any significant reduction of cAMP binding in the hippocampus CA1 and cerebral cortices on the ischemic side, whereas it exerted no significant influence on the cAMP binding of the nonischemic side. The values of CBF were comparable between the vehicle-treated gerbils and FK506-treated gerbils in the ischemic regions. Preservation of cAMP binding indicates that intracellular signal transduction via cAMP-DPK can be maintained by FK506 despite ischemia, suggesting that this agent may be beneficial for reducing ischemic tissue damage.
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PMID:Calcineurin inhibitor, FK506, prevents reduction in the binding capacity of cyclic AMP-dependent protein kinase in ischemic gerbil brain. 914 23

Transplantation of lungs retrieved from non-heart-beating donors could expand the donor pool. Recent studies suggest that the ischemia-reperfusion injury (IRI) to the lung can be attenuated by increasing intracellular cAMP concentrations. The purpose of this study was to determine the effect of IRI on capillary permeability, as measured by Kfc, in lungs retrieved from non-heart-beating donors and reperfused with or without isoproterenol (iso). Using an in situ isolated perfused lung model, lungs were retrieved from non-heart-beating donor rats ventilated with O2 or not at varying intervals after death. The lungs were reperfused with or without iso (10 microM). Kfc, lung viability, and pulmonary hemodynamics were measured, and tissue levels of adenine nucleotides and cAMP were measured by HPLC. Iso-reperfusion decreased Kfc significantly (P < 0.05) compared to non-iso-reperfused groups at all postmortem ischemic times, irrespective of preharvest ventilation status. Pulmonary arterial pressures and resistances increased and venous resistances decreased with iso-reperfusion. Total adenine nucleotide (TAN) levels correlated with Kfc in non-iso-reperfused (r = 0.65) and iso-perfused (r = 0.84) lungs. cAMP levels increased significantly with iso-reperfusion. cAMP levels correlated with Kfc (r = 0.87) in iso-reperfused lungs. Iso-reperfusion of lungs retrieved from non-heart-beating donor rats results in decreased capillary permeability and increased lung tissue cAMP levels. Pharmacologic augmentation of tissue TAN and cAMP levels may further ameliorate the increased capillary permeability seen in lungs retrieved from non-heart-beating donors.
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PMID:Reduced ischemia-reperfusion injury with isoproterenol in non-heart-beating donor lungs. 922 12

L-Glutamic acid is a major excitatory neurotransmitter in the mammalian central nervous system. The termination of the glutamatergic transmission and the clearance of the excessive, neurotoxic concentrations of glutamate is ensured by a high affinity glutamate uptake system. Four homologous types of Na/K-dependent high affinity glutamate transporters, glutamate/aspartate transporter, glutamate transporter 1, excitatory amino acid carrier 1, and excitatory amino acid transporter 4, have recently been cloned and were assigned to a separate gene family, together with two neutral amino acid carriers, alanine/serine/cysteine transporter 1/serine/alanine/threonine transporter and adipocyte amino acid transporter. The genomic organization of these transporters is still under investigation. Very little is known about the nature of the factors and molecular mechanisms that regulate developmental, regional, and cell type-specific expression of the glutamate transporters and their aberrant functioning in neurodegenerative diseases (e.g., amyotrophic lateral sclerosis and Alzheimer's disease). Some experimental conditions (e.g., ischemia, corticostriatal lesions, hyperosmolarity, culturing conditions) and several naturally occurring and synthetic compounds (e.g., glutamate receptor agonists, dopamine, alpha1- and beta-adrenergic agonists, cAMP, phorbol esters, arachidonic acid, nitric oxide, oxygen free radicals, amyloid beta-peptide, tumor necrosis factor-alpha, glucocorticosteroids, unidentified neuronal factors) affect the molecular expression and activity of glutamate transporters. Further elucidation of the molecular events that link epigenetic signals with transcriptional and post-transcriptional mechanisms (e.g., alternative splicing, translation and post-translational modifications) is crucial for the development of selective pharmacological tools and strategies interfering with the expression of the individual glutamate transporters.
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PMID:High affinity glutamate transporters: regulation of expression and activity. 922 6

Prostaglandins (PG) are cytoprotective for gastrointestinal epithelium, possibly because they enhance mucosal repair. The objective of the present studies was to assess the role of prostaglandins in intestinal repair. Intestinal mucosa from porcine ileum subjected to 1 h of ischemia was mounted in Ussing chambers. Recovery of normal transepithelial electrical resistance occurred within 2 h, and continued to increase for a further 2 h to a value twice that of control. The latter response was blocked by inhibition of prostaglandin synthesis, and restored by addition of both carbacyclin (an analog of PGI2) and PGE2, whereas the addition of each alone had little effect. Histologically, prostaglandins had no effect on epithelial restitution or villous contraction, indicating that elevations in transepithelial resistance were associated with increases in paracellular resistance. Furthermore, prostaglandin-stimulated elevations in resistance were inhibited with cytochalasin D, an agent known to stimulate cytoskeletal contraction. Synergistic elevations in transepithelial resistance, similar to those of carbacyclin and PGE2, were also noted after treatment with cAMP and A23187 (a calcium ionophore). We conclude that PGE2 and PGI2 have a synergistic role in restoration of intestinal barrier function by increasing intracellular cAMP and Ca2+, respectively, which in turn signal cytoskeletal-mediated tight junction closure.
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PMID:Prostaglandins I2 and E2 have a synergistic role in rescuing epithelial barrier function in porcine ileum. 932 55

To mimic the effect of ischemia on the integrity of airway epithelium and expression of cystic fibrosis transmembrane conductance regulator (CFTR), we induced an ATP depletion of the respiratory epithelium from upper airway cells (nasal tissue) and human bronchial epithelial 16HBE14o- cell line. Histological analysis showed that 2 h of ATP depletion led to a loss of the epithelium integrity at the interface between basal cells and columnar cells. The expression of connexin 43 (Cx43, subunit of the gap junctions) and desmoplakins 1 and 2 (DPs 1 and 2, major components of the desmosomes) proteins was inhibited. After 90 min of ATP depletion, a significant decrease of the transepithelial resistance (25%) was observed but was reversible. Similar results were obtained with the 16HBE14o- human bronchial epithelial cell line. ATP depletion led to actin filaments depolymerization. The expression of the mature CFTR (170 kDa) and fodrin proteins at the apical domain of the ciliated cells was down-regulated. The steady-state levels of CFTR, Cx43, DPs 1 and 2 mRNAs, semiquantified by RT-polymerase chain reaction kinetics, remained constant throughout ATP depletion in nasal tissue as in the homogeneous cell population of 16HBE14o- human bronchial epithelial cell line. This suggests that the down-regulation of these proteins might be posttranscriptional. The intercellular diffusion through gap junctions of Lucifer dye was completely inhibited after 90 min of ATP depletion but was reversible. The volume-dependent and the cAMP-dependent chloride secretion were inhibited in a nonreversible way. Taken together, these results suggest that an ATP depletion in human airway epithelium, mimicking ischemia, may induce a marked alteration in the junctional complexes and cytoskeleton structure concomitantly with a loss of apical CFTR expression and chloride secretion function.
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PMID:ATP depletion induces a loss of respiratory epithelium functional integrity and down-regulates CFTR (cystic fibrosis transmembrane conductance regulator) expression. 934 29


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