Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Asthma is a complex disorder in which major genetic and environmental factors interact to initiate the disease and propagate it as a chronic relapsing disorder. Until recently, genetic factors implicated in the disease pathogenesis have been restricted to variants in known molecules involved in the inflammatory or remodelling pathways. This review discusses evidence for a new susceptibility gene for asthma, ADAM33, which was identified by positional cloning and shown to be selectively expressed in mesenchymal but not immune or inflammatory cells. ADAM33 belongs to a family of membrane-anchored metalloproteinases that also have fusagenic, adhesion and intracellular signalling properties. ADAM33 might play a key role in predisposing to the reduced lung function characteristic of asthma, possibly by influencing airway wall remodelling.
Expert Rev Mol Med 2004 Aug 03
PMID:The discovery and role of ADAM33, a new candidate gene for asthma. 1538 95

Asthma is a chronic allergic inflammatory disease, the initiation and progression of which is dependent on the cytokines interleukin (IL)-4 and IL-13 acting through related receptor complexes. Disease pathogenesis is effected by intracellular signaling pathways that couple primarily to specific motifs within the intracellular domain of the IL-4 receptor alpha chain (IL-4Ralpha), a subunit that is common to the IL-4 and IL-13 receptor complexes. Recent studies using genetic approaches have identified distinct functions for the respective IL-4Ralpha-coupled signaling pathways in regulating both early and chronic stages of asthma. Polymorphisms in components of the IL-4 and IL-13 cytokine-receptor axes are associated with allergy and asthma, suggesting that variations among individuals in the activity of this pathway contribute to disease susceptibility and manifestations.
Trends Mol Med 2004 Oct
PMID:Interleukin-4 receptor signaling pathways in asthma pathogenesis. 1546 49

Asthma and chronic obstructive pulmonary disease are highly prevalent and economically important inflammatory airway diseases associated with mucus hypersecretion. Considerable additional morbidity and mortality are related to acute exacerbations, which are associated with further mucus hypersecretion. MUC5AC is a prominent airway mucin; however, the signalling pathways regulating MUC5AC hypersecretion are not fully characterised. We investigated the signalling pathway regulating phorbol 12-myristate 13-acetate (PMA)-induced MUC5AC gene and protein expression in human respiratory epithelial cells. Using NCI-H292 cells, we demonstrated that treatment with PMA increased production of total and MUC5AC-specific mucin proteins. This increase was dependent on de novo MUC5AC gene transcription. We identified a short, proximal region of the MUC5AC promoter essential for this activity containing three specificity protein (Sp) 1 transcription factor-binding sites and a single CACCC site. By chemical inhibition, site-directed promoter mutagenesis and electrophoretic mobility-shift assay (EMSA), we demonstrated that PMA induced proteins binding to all three Sp1 sites and that they were all required for full induction of MUC5AC promoter activity. We then demonstrated a Ras-Raf-MEK/ERK signalling pathway was exclusively activated upstream of Sp1 activating the promoter and confirmed the requirement for matrix metalloproteinase activation leading to a ligand-dependent activation of the epidermal growth factor receptor. Finally, we demonstrated that activation of the novel protein kinase C isoforms delta and theta; was required upstream of the metalloproteinase activation. We have characterised a signalling pathway regulating PMA induction of MUC5AC. Studies such as this identify key signalling intermediates as targets for pharmacological intervention to treat mucus hypersecretion.
J Mol Biol 2004 Nov 26
PMID:PMA induces the MUC5AC respiratory mucin in human bronchial epithelial cells, via PKC, EGF/TGF-alpha, Ras/Raf, MEK, ERK and Sp1-dependent mechanisms. 1553 38

BACKGROUND: Asthma and sickle cell disease are common conditions that both may result in pulmonary complications. We hypothesized that children with sickle cell disease with concomitant asthma have an increased incidence of vaso-occlusive crises that are complicated by episodes of acute chest syndrome. METHODS: A 5-year retrospective chart analysis was performed investigating 48 children ages 3-18 years with asthma and sickle cell disease and 48 children with sickle cell disease alone. Children were matched for age, gender, and type of sickle cell defect. Hospital admissions were recorded for acute chest syndrome, cerebral vascular accident, vaso-occlusive pain crises, and blood transfusions (total, exchange and chronic). Mann-Whitney test and Chi square analysis were used to assess differences between the groups. RESULTS: Children with sickle cell disease and asthma had significantly more episodes of acute chest syndrome (p = 0.03) and cerebral vascular accidents (p = 0.05) compared to children with sickle cell disease without asthma. As expected, these children received more total blood transfusions (p = 0.01) and chronic transfusions (p = 0.04). Admissions for vasoocclusive pain crises and exchange transfusions were not statistically different between cases and controls. SS disease is more severe than SC disease. CONCLUSIONS: Children with concomitant asthma and sickle cell disease have increased episodes of acute chest syndrome, cerebral vascular accidents and the need for blood transfusions. Whether aggressive asthma therapy can reduce these complications in this subset of children is unknown and requires further studies.
Clin Mol Allergy 2005 Jan 21
PMID:Asthma is a risk factor for acute chest syndrome and cerebral vascular accidents in children with sickle cell disease. 1566 85

Asthma is a familial inflammatory disease of the airways of the lung. Microbial exposures in childhood protect against asthma through unknown mechanisms. The innate immune system is able to identify microbial components through a variety of pattern-recognition receptors (PRRs). NOD1 is an intracellular PRR that initiates inflammation in response to bacterial diaminopimelic acid (iE-DAP). The NOD1 gene is on chromosome 7p14, in a region that has been genetically linked to asthma. We carried out a systematic search for polymorphism in the gene. We found an insertion-deletion polymorphism (ND(1)+32656) near the beginning of intron IX that accounted for approximately 7% of the variation in IgE in two panels of families (P<0.0005 in each). Allele*2 (the insertion) was associated with high IgE levels. The same allele was strongly associated with asthma in an independent study of 600 asthmatic children and 1194 super-normal controls [odds ratio (OR) 6.3; 95% confidence interval (CI) 1.4-28.3, dominant model]. Differential binding of the two ND(1)+32656 alleles was observed to a protein from nuclei of the Calu 3 epithelial cell line. In an accompanying study, the deletion allele (ND(1)+32656*1) was found to be associated with inflammatory bowel disease. The results indicate that intracellular recognition of specific bacterial products affects the presence of childhood asthma.
Hum Mol Genet 2005 Apr 01
PMID:NOD1 variation, immunoglobulin E and asthma. 1571 49

Asthma is a complex inflammatory pulmonary disorder that is on the rise despite intense ongoing research. We aimed to elucidate novel pathways involved in the pathogenesis of asthma. Employing asthma models induced by different allergens (ovalbumin and Aspergillus fumigatus), we uncovered the involvement of two members of the small proline-rich protein (SPRR) family, SPRR2a and SPRR2b, known to be involved in epithelial differentiation but not allergic disease. In situ hybridization revealed induction of SPRR2 signal in a subset of bronchial epithelial cells and mononuclear cells associated with inflammation after allergen challenge. Allergen-induced SPRR2 mRNA accumulation in the lung occurred in a time-dependent manner, with peak expression 10-96 h after a second ovalbumin challenge. Transgenic overexpression of interleukin (IL)-13 in the lungs resulted in a marked increase of SPRR2 expression, and allergen-induced SPRR2 expression was significantly decreased in IL-13-deficient mice. Studies in gene-targeted mice revealed that allergen-induced SPRR2 was dependent upon STAT6. Finally, we aimed to determine if the induction of SPRR2 by allergen was tissue specific. Notably, SPRR2 was markedly increased in the small intestine after induction of allergic gastrointestinal inflammation. Thus, SPRR2 is an allergen- and IL-13-induced gene in experimental allergic responses that may be involved in disease pathophysiology.
Am J Respir Cell Mol Biol 2005 May
PMID:Expression and regulation of small proline-rich protein 2 in allergic inflammation. 1573 5

Asthma is characterized by bronchial inflammation and hyperresponsiveness that involves mast cell tryptase and potentially its specific receptor protease activated receptor 2 (PAR-2). Tryptase increases free intracellular calcium concentration ([Ca2+]i), a key step in activation of human airway smooth muscle cells (HASMC). The aim of this study was to analyze the effect of PAR-2 gene silencing on HASMC, in terms of calcium response, since no antagonist is available for this receptor. Five siRNA against PAR-2 were synthesized and transfected in HASMC using lipid agents, and PAR-2 expression was examined using Western blot, fluorescence-activated cell sorter, immunocytochemistry and RT-PCR. [Ca2+]i was measured using microspectrofluorimetry in response to tryptase, the activating peptide SLIGKV, trypsin, or caffeine. Two siRNA significantly inhibited PAR-2 expression in terms of both total and surface protein expression, as well as mRNA levels. Tryptase- and SLIGKV-induced transient increase in [Ca2+]i was significantly inhibited after transfection with the most appropriate siRNA, whereas neither trypsin nor caffeine response was altered. Two control siRNA had no effect in terms of both PAR-2 expression and calcium response. Transfection efficiency was maximal after 24 h and disappeared after 48 h. Gene silencing using siRNA can thus be used in vitro to assess the function of PAR-2 in HASMC.
Am J Respir Cell Mol Biol 2006 Jan
PMID:RNA interference decreases PAR-2 expression and function in human airway smooth muscle cells. 1619 39

Asthma is a disease characterized by reversible airway obstruction. An additional hallmark of chronic asthma is altered wound healing that leads to airway remodeling. Although beta-agonists are effective in treating the bronchospasm associated with asthma, their effects on airway wound healing, which are related to airway remodeling, are unknown. It has been demonstrated that beta-agonists can alter the signaling of epidermal growth factor (EGF) receptors, which are important in timely wound healing. Therefore, we hypothesized that the beta-agonist isoproterenol would affect wound healing. Using an in vitro scrape wound assay, we demonstrated that isoproterenol attenuates EGF-stimulated wound healing in 16HBE airway epithelial cell cultures. Through experiments with forskolin and cells overexpressing beta2-adrenergic receptor-yellow fluorescent protein, we show that attenuation is due to the accumulation of cAMP and the involvement of at least one additional pathway. Furthermore, attenuation is not due to a direct effect on the EGF receptor or to an alteration of the ERK/MAPK signaling cascade. Based on these results, we propose that isoproterenol may exert its effects through other MAPK signaling pathways (JNK and/or p38) or through parallel mechanisms. These results also demonstrate a problem of potential therapeutic relevance in which a commonly prescribed medication may alter wound healing and contribute to the remodeling of asthmatic airways.
Am J Physiol Lung Cell Mol Physiol 2006 Mar
PMID:The beta-agonist isoproterenol attenuates EGF-stimulated wound closure in human airway epithelial cells. 1622 22

Asthma is one of the leading causes of childhood hospitalization, and its incidence is on the rise throughout the world. Currently, the standard treatment for asthma is the use of corticosteroids to try to suppress the inflammatory reaction taking place in the bronchial tree. Using a murine model of atopic allergic asthma employing a methacholine-hyperresponsive (A/J) as well as a hyporesponsive (C57BL/6) strain of mice sensitized and challenged with ovalbumin, we show that treatment with a synthetic Toll-like receptor 7 (TLR7) ligand (S-28463, a member of the imidazoquinoline family) prevents development of the asthmatic phenotype. Treatment with S-28463 resulted in a reduction of airway resistance and elastance following ovalbumin sensitization and challenge. This was accompanied by a dramatic reduction in infiltration of leukocytes, especially eosinophils, into the lungs of both C57BL/6 and A/J mice following OVA challenge. Treatment with S-28463 also abolished both the elevation in serum IgE level as well as the induction of IL-4, IL-5, and IL-13 by OVA challenge. The protective effects of S-28463 were also observed in MK2 knockout, but not MYD88 knockout, mice. We did not observe a switch in cytokine profile from T(H)2 to T(H)1, as both IL-12p70 and IFN-gamma levels were reduced following S-28463 treatment. These results clearly demonstrate the anti-inflammatory effect of imidazoquinolines in an allergic asthma model as well as the clinical potential of TLR7 ligands in the treatment of allergic diseases.
Am J Physiol Lung Cell Mol Physiol 2006 May
PMID:TLR7 ligand prevents allergen-induced airway hyperresponsiveness and eosinophilia in allergic asthma by a MYD88-dependent and MK2-independent pathway. 1636 54

Asthma is a ubiquitous disease with a broad range of clinical phenotypes. To better understand the complex genetic and environmental interactions underlying asthma, we compared the gene-gene interactions of four genetically distinct mouse strains that demonstrate biologically distinct responses to allergen. Using DNA microarrays and knock-out mouse studies, we showed that CCR5 plays a definitive role in the development of ovalbumin-induced allergic airway inflammatory disease. In addition, gene expression profiling data have revealed other potential novel targets for therapeutics-based research and has enhanced the understanding of the molecular mechanisms underlying the etiology of "asthma."
Am J Respir Cell Mol Biol 2006 Jun
PMID:Multistrain genetic comparisons reveal CCR5 as a receptor involved in airway hyperresponsiveness. 1647 97


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