UMLS:C0020538 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chloride channels represent a relatively under-explored target class for drug discovery as elucidation of their identity and physiological roles has lagged behind that of many other drug targets. Chloride channels are involved in a wide range of biological functions, including epithelial fluid secretion, cell-volume regulation, neuroexcitation, smooth-muscle contraction and acidification of intracellular organelles. Mutations in several chloride channels cause human diseases, including cystic fibrosis, macular degeneration, myotonia, kidney stones, renal salt wasting and hyperekplexia. Chloride-channel modulators have potential applications in the treatment of some of these disorders, as well as in secretory diarrhoeas, polycystic kidney disease, osteoporosis and hypertension. Modulators of GABA(A) (gamma-aminobutyric acid A) receptor chloride channels are in clinical use and several small-molecule chloride-channel modulators are in preclinical development and clinical trials. Here, we discuss the broad opportunities that remain in chloride-channel-based drug discovery.
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PMID:Chloride channels as drug targets. 1915 58

The 104th International Conference of the American Thoracic Society (ATS) was held in Toronto, Canada, May 16-21, 2008. The meeting brought together more than 15,000 scientists and clinicians worldwide and disclosed recent advances related to prevention, diagnosis, prognostic indicators or biomarkers of disease and treatment of thoracic disorders, including asthma, chronic obstructive pulmonary disease, pulmonary fibrosis, pulmonary arterial hypertension, cystic fibrosis and sleep disorders. New future lines of investigation are now open and invite researchers to attend the next ATS conference in San Diego in 2009. This report highlights oral sessions and posters presented during the meeting.
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PMID:Novelties in the treatment and management of thoracic disorders. 1925 52

During the last 30 years, life expectancy in patients with cystic fibrosis has significantly improved. In Germany, almost half of the 8500 patients are 18 years or older. Older patients have increased rates of cystic fibrosis typical complications, In addition the characteristic complications of adulthood, including arterial hypertension, hyperlipidemia, and cardiovascular diseases, occur. Also crisis of marriage or loss of work place, as well as family planning measures including in-vitro-fertilization are problems merely of the adult cystic fibrosis patient. Therefore adult patients should be treated in a centre specialized on adults. At the moment, in Germany only one third of all adult patients are followed up in an adult center, many patients are treated in age-independent centers, and also a significant number is treated in small clinics. In this article models for transition currently established in Germany are described and occurring problems with their implementation are discussed.
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PMID:[Cystic fibrosis care in transition from adolescence to adult age]. 1971

Heterocyclic indazole derivatives are claimed in patent WO2008138448 as inhibitors of the serum- and glucocorticoid-inducible-kinase 1 (SGK1) and drugs for the pharmacological treatment of SGK1-related diseases, such as diabetes, obesity, metabolic syndrome, systemic and pulmonary hypertension, cardiac fibrosis, hypertrophy and insufficiency, arteriosclerosis, glomerulosclerosis, nephrosclerosis, nephritis, nephropathy, deranged electrolyte excretion, fibrosing and inflammatory disease (e.g., liver cirrhosis, lung fibrosis, rheumatism, arthrosis, Crohn s disease, chronic bronchitis, radiation fibrosis, sclerodermia, cystic fibrosis, scar formation and Alzheimer' disease), tumor growth, peptic ulcers and some disorders hitherto not conclusively shown to involve SGK1. Most of the claims are supported by the literature. SGK1 is ubiquitously expressed and its expression is stimulated by hyperglycemia, cell shrinkage, ischemia, glucocorticoids, mineralocorticoids and several inflammatory mediators including TGF-ss. SGK1 is activated by insulin and growth factors via the phosphatidylinositol-3-kinase pathway. SGK1 regulates ion channels (including ENaC, KCNE1/KCNQ1), carriers (including NCC, NHE3, SGLT1), Na(+)/K(+)-ATPase, enzymes (including glycogen-synthase-kinase-3) and transcription factors (including FOXO3a, ss-catenin, NF-kappaB). A gain-of-function SGK1 gene variant, carried by approximately 3 - 5% of Caucasians and approximately 10% of Africans, is associated with increased blood pressure, obesity and type 2 diabetes. In vitro and in vivo experiments suggested a critical role of SGK1 in renal fluid retention and hypertension, glucose-induced obesity, coagulation and increased matrix protein formation.
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PMID:Heterocyclic indazole derivatives as SGK1 inhibitors, WO2008138448. 2002 Dec 89

Membrane proteins (MPs) are responsible for the interface between the exterior and the interior of the cell. These proteins are involved in numerous diseases, like cancer, cystic fibrosis, epilepsy, hyperinsulinism, heart failure, hypertension and Alzheimer disease. However, studies of these disorders are hampered by a lack of structural information about the proteins involved. Structural analysis requires large quantities of pure and active proteins. The majority of medically and pharmaceutically relevant MPs are present in tissues at low concentration, which makes heterologous expression in large-scale production-adapted cells a prerequisite for structural studies. Obtaining mammalian MP structural data depends on the development of methods that allow the production of large quantities of MPs. This review focuses on the heterologous expression systems now available to produce large amounts of MPs for structural proteomics, and describes the strategies that allowed the determination of the structure of the first heterologously expressed mammalian MPs.
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PMID:Heterologous expression of membrane proteins for structural analysis. 2009 36

Due to their implication in numerous diseases like cancer, cystic fibrosis, epilepsy, hyperinsulinism, heart failure, hypertension, and Alzheimer disease, membrane proteins (MPs) represent around 50% of drug targets. However, only 204 crystal structures of MPs have been solved. Structural analysis requires large quantities of pure and active proteins. The majority of medically and pharmaceutically relevant MPs are present in tissues at low concentration, which makes heterologous expression in large-scale production-adapted cells a prerequisite for structural studies. The yeast Saccharomyces cerevisiae is a convenient host for the production of mammalian MPs for functional and structural studies. Like bacteria, they are straightforward to manipulate genetically, are well characterized, can be easily cultured, and can be grown inexpensively in large quantities. The advantage of yeast compared to bacteria is that they have protein-processing and posttranslational modification mechanisms related to those found in mammalian cells. The recombinant rabbit muscle Ca(2+)-ATPase (adenosine triphosphatase), the first heterologously expressed mammalian MP for which the crystal structure was resolved, has been produced in S. cerevisiae. In this chapter, the focus is on expression of recombinant human integral MPs in a functional state at the plasma membrane of the yeast S. cerevisiae. Optimization of yeast culture and of MP preparations is detailed for two human receptors of the Hedgehog pathway: Patched and Smoothened.
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PMID:Heterologous expression of human membrane receptors in the yeast Saccharomyces cerevisiae. 2009 41

The epithelial Na(+) channel (ENaC) is a major regulator of salt and water reabsorption in a number of epithelial tissues. Abnormalities in ENaC function have been directly linked to several human disease states including Liddle syndrome, psuedohypoaldosteronism, and cystic fibrosis and may be implicated in salt-sensitive hypertension. ENaC activity in epithelial cells is regulated both by open probability and channel number. This review focuses on the regulation of ENaC in the cells of the kidney cortical collecting duct by trafficking and recycling. The trafficking of ENaC is discussed in the broader context of epithelial cell vesicle trafficking. Well-characterized pathways and protein interactions elucidated using epithelial model cells are discussed, and the known overlap with ENaC regulation is highlighted. In following the life of ENaC in CCD epithelial cells the apical delivery, internalization, recycling, and destruction of the channel will be discussed. While a number of pathways presented still need to be linked to ENaC regulation and many details of the regulation of ENaC trafficking remain to be elucidated, knowledge of these mechanisms may provide further insights into ENaC activity in normal and disease states.
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PMID:Regulation of the epithelial sodium channel (ENaC) by membrane trafficking. 2034 69

Human gene therapy is the introduction of new genetic material into the cells of an individual with the intention of producing a therapeutic benefit for the patient. Deoxyribonucleic acid and ribonucleic acid are used in gene therapy. Over time and with proper oversight, human gene therapy might become an effective weapon in modern medicine's arsenal to help fight diseases such as cancer, acquired immunodeficiency syndrome, diabetes, high blood pressure, coronary heart disease, peripheral vascular disease, neurodegenerative diseases, cystic fibrosis, hemophilia and other genetic disorders. Gene therapy trials in humans are of two types, somatic and germ line gene therapy. There are many ethical, social, and commercial issues raised by the prospects of treating patients whose consent is impossible to obtain. This review summarizes deoxyribonucleic acid-based therapeutics and gene transfer technologies for the diseases that are known to be genetic in origin. Deoxyribonucleic acid-based therapeutics includes plasmids, oligonucleotides for antisense and antigene applications, deoxyribonucleic acid aptamers and deoxyribonucleic acidzymes. This review also includes current status of gene therapy and recent developments in gene therapy research.
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PMID:DNA as therapeutics; an update. 2050 65

The Lung Transplantation program at the University of Pittsburgh began in 1982. From the beginning to December 31, 2009, 1347, lung and heart lung transplantations have been done. (674 double-lung, 310 left single-lung, 227 right single-lung and 130 heart-lung transplantations. University of Pittsburgh maintains a data base, from the time of the inception of the program, of all recipients and donors. There is an increasing trend to do double-lung transplantation, as 5- and 10-year survival is better with double than single lungs. Our experience with heart-lung transplantation is considerable. The 4 most common indications for lung transplantation are: chronic obstructive disease (COPD), idiopathic pulmonary fibrosis (IPF), cystic fibrosis (CF) and pulmonary arterial hypertension. (PAH). Potential recipients are evaluated over 2 weeks. There is also a pathway for accelerated evaluation of sicker patients. Our recipient criteria are expanded and flexible; as many patients, who have been denied lung transplantation, at other major centers have been successfully transplanted by us with good outcomes. The median waiting time on the list in 2009 was 37 days. Our altruistic flexibility in recipient selection, balanced with respect to the altruistic gift of donor families, has been described in considerable detail. To solve the problem of shortage of donor lungs, we have expanded our donor selection criteria beyond the historic ideal donor, without comprising on outcomes. These selection criteria and our donor-lungs management protocol are also described in reasonable detail. We started using lungs from donors after cardiac death (DCD) in January 2007. Recently we reviewed our experience and literature, and devised a protocol; which is given in a robust table. We also participate as faculty in the educational program initiated by the Organ Procurement Organizations (OPO) of Pennsylvania. During procurement we use 500 microg of prostaglandin E-1 into the pulmonary artery just before X clamp, Perfedex infusion after X-clamp, at 70 ml/kg, with 500 microg of prostaglandin and 50 mg of nitroglycerine in the first bag, and retrograde flush of 500 ccs in each pulmonary vein. We have refined our recipient operation, from clam shell incision to bilateral antero-axillary incisions, preserving the sternum and internal mammary arteries, for both double and single-lung transplantation, with good outcomes. This technique and results have been described in generous detail. We use pneumoplegia, similar to cardioplegia, to protect the allograft from ischemic and reperfusion injury (Appendix III). Our technique of bronchial anastomosis and intraoperative management of septic lung disease has remained unchanged. Post-operatively we continue to use the ventilatory management of low FiO2 and high PEEP. Our immunosuppression and infection prophylaxis protocol is the same since 2003, when we started using Alemtuzumab (Campath) for induction, with minimization of the use of steroids. For maintenance, we use Tacrolimus and Mycophenolate Mofetil. Now, we also monitor the functional activity of the T cell by Cylex ImmuKnow. Lowered activity (< 100 ng/ml) suggests an increased risk of infection; and higher activity (> 200 ng/ml) suggests greater risks for rejection. Although we have expanded our recipient and donor pools, our outcomes have continued to improve. The overall survival of double-lung transplantation from 2003-2009 was 82.8% at one year and 56.8% at 5 years. This compares well with the international data which shows an overall survival rate of 80% at one year and 56% at 5 years. Results of lung transplantation will continue to improve, with our increasing understanding of mechanisms and management of ischemic-reperfusion injury, acute rejection and bronchiolitis obliterans syndrome.
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PMID:Lung and heart-lung transplantation at University of Pittsburgh: 1982-2009. 2052 84

Studies in cystic fibrosis patients and mice overexpressing the epithelial Na(+) channel beta-subunit (betaENaC-Tg) suggest that raised airway Na(+) transport and airway surface liquid (ASL) depletion are central to the pathogenesis of cystic fibrosis lung disease. However, patients or mice with Liddle gain-of-function betaENaC mutations exhibit hypertension but no lung disease. To investigate this apparent paradox, we compared the airway phenotype (nasal versus tracheal) of Liddle with CFTR-null, betaENaC-Tg, and double mutant mice. In mouse nasal epithelium, the region that functionally mimics human airways, high levels of CFTR expression inhibited Liddle epithelial Nat channel (ENaC) hyperfunction. Conversely, in mouse trachea, low levels of CFTR failed to suppress Liddle ENaC hyperfunction. Indeed, Na(+) transport measured in Ussing chambers ("flooded" conditions) was raised in both Liddle and betaENaC-Tg mice. Because enhanced Na(+) transport did not correlate with lung disease in these mutant mice, measurements in tracheal cultures under physiologic "thin film" conditions and in vivo were performed. Regulation of ASL volume and ENaC-mediated Na(+) absorption were intact in Liddle but defective in betaENaC-Tg mice. We conclude that the capacity to regulate Na(+) transport and ASL volume, not absolute Na(+) transport rates in Ussing chambers, is the key physiologic function protecting airways from dehydration-induced lung disease.
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PMID:Airway surface liquid volume regulation determines different airway phenotypes in liddle compared with betaENaC-overexpressing mice. 2056 36

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