EC:3.2.1.23 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human tracheal gland serous (HTGS) cells are now considered one principal pulmonary target for the gene therapy of cystic fibrosis (CF). We developed a CF tracheal gland serous cell line, CF-KM4, obtained by the transformation of primary cultures of CF tracheal gland serous cells homozygous for the DeltaF508 mutation by using the wild-type SV40 virus. This cell line retained epithelial and secretory features of the native CF-HTGS cells in primary culture, namely, presence of cytokeratin, constitutive secretion of secretory leukocyte proteinase inhibitor, absence of responsiveness to carbachol and isoproterenol, and defective cyclic adenosine monophosphate-dependent chloride channel activity. Adenovirus-mediated CF transmembrane conductance regulator (CFTR) gene transfer into CF-KM4 cells corrected the defective chloride channel activity as well as the responsiveness to adrenergic and cholinergic agonists. In contrast, control transfection using adenovirus-mediated beta-galactosidase gene transfer was totally ineffective. In conclusion, these results present a stable CF tracheal gland cell line that has retained its epithelial and CF-specific defective secretory characteristics which are corrected after CFTR gene transfer. This cell line therefore appears to be a useful tool for large-scale molecular and cellular pharmacologic investigations designed to test potential therapies of the disease CF.
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PMID:A cystic fibrosis tracheal gland cell line, CF-KM4. Correction by adenovirus-mediated CFTR gene transfer. 1010 Oct

In human airways, the cystic fibrosis (CF) transmembrane conductance regulator (CFTR) is predominantly expressed in serous cells of the tracheobronchial glands. Despite considerable evidence that submucosal glands are important contributors to the pathophysiology of CF lung disease, most attempts at CFTR gene transfer have primarily targeted airway surface epithelial cells. In this study, we systematically evaluated CFTR gene transfer into cultures of immortalized CF human tracheobronchial submucosal gland (6CFSMEO) cells using adenovirus and cationic lipid vectors. We found that the efficiency of adenovirus-mediated gene transfer was comparable in 6CFSMEO and CFT1 cells (a surface airway epithelial cell line isolated from a subject with CF). So was the ranking order of adenovirus vectors containing different enhancers/promoters (CMV >> E1a approximately phosphoglycerokinase), as determined by both X-Gal staining and quantitative measurement of beta-galactosidase activity. Further, we provide the first demonstration that cationic lipids mediate efficient gene transfer into 6CFSMEO cells in vitro. The transfection efficiency at optimal conditions was higher in 6CFSMEO than in CFT1 cells. Finally, either infection with adenoviral vectors or transfection with cationic lipid:plasmid DNA complexes encoding CFTR significantly increased chloride (Cl-) permeability, as assessed using the 6-methoxy-N-(3-sulfopropyl)-quinolinium (SPQ) fluorescence assay, indicating restoration of functional CFTR Cl- channel activity. These data show that although the mechanisms of transfection may be different between the two cell types, 6CFSMEO cells are as susceptible as CFT1 cells to transfection by adenoviral and cationic-lipid gene transfer vectors.
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PMID:Restoration of cyclic adenosine monophosphate-stimulated chloride channel activity in human cystic fibrosis tracheobronchial submucosal gland cells by adenovirus-mediated and cationic lipid-mediated gene transfer. 1034 Sep 29

Submucosal glands (SMGs) are the major site of expression of the cystic fibrosis (CF) transmembrane conductance regulator gene (CFTR) in the human lung. As such, SMGs may be a critical component of CF lung disease pathogenesis and an important target for gene therapy. Gene-targeted mouse models exist for CF and these are used to validate gene therapy or other interventions and to dissect CF phenotypes. It is important, therefore, to compare human and mouse SMGs. We show that SMGs in the mouse are similar in structure, cell types, and Cftr expression to those in the human. Murine SMGs were found to be present in the proximal regions of the trachea at the same density as in humans but, unlike in humans, did not extend below the trachea. Upon investigation of homozygous Cftr tm1HGU and Cftr tm1G551D mutant mice, SMGs were found to extend more distally than those in wild-type control mice (P < 0.05). To investigate the development of SMGs we generated aggregation chimeric mice. Chimeric offspring contained a contribution of transgenic cells that were detectable either by DNA in situ hybridization (reiterated beta-globin transgene TgN[Hbb-bl]83Clo) or beta-galactosidase histochemistry (Lac Z reporter gene TgR[ROSA26]- 26Sor). Analysis of the distribution of transgenic cells in chimeric SMGs suggests that SMGs are clonally derived.
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PMID:Murine submucosal glands are clonally derived and show a cystic fibrosis gene-dependent distribution pattern. 1034 Sep 37

Perfluorochemical (PFC) liquids have been shown to improve gas exchange and lung compliance in models of lung injury. We reasoned they may also be useful as a vehicle for gene transfer by improving transgene distribution throughout the lung as well as increasing total transgene expression. We have developed a model for PFC liquid use in spontaneously breathing rodents that obviates the need for intubation and ventilation. Intratracheal instillation of the adenoviral vector Adlac-Z resulted in patchy distribution of beta-galactosidase (beta-gal) activity as demonstrated using X-gal histochemistry. In contrast, in rats instilled with Adlac-Z followed by instillation of PFC liquid, more uniformly distributed and increased beta-gal activity was observed. Activity in distal airway and alveolar epithelium was particularly increased. Quantitative measure of beta-gal activity in lung homogenates demonstrated a 3- to 6-fold increase in total activity in lungs of rats receiving Adlac-Z and PFC liquid compared to animals receiving Adlac-Z alone. These studies show that PFC liquids can enhance both the distribution and the total amount of transgene expressed following adenoviral-mediated vector transfer to lungs during spontaneous breathing. Use of PFC liquids may increase the efficacy of gene transfer strategies for treatment of cystic fibrosis and other lung diseases.
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PMID:Perfluorochemical liquid-enhanced adenoviral vector distribution and expression in lungs of spontaneously breathing rodents. 1037 3

Glutathione (GSH) is a potentially important component of antioxidant defense in the epithelial lung lining fluid. Cystic fibrosis (CF) patients have chronic inflammation in which oxidative stress can be a factor. To examine the hypothesis that the transport of GSH content was defective in CF patients, intracellular and extracellular GSH were measured by HPLC. Four cell lines were used: CFT1 cells [with defective CF transmembrane conductance regulator (CFTR), DeltaF508 homozygous, two clones] and one of the CFT1 clones transfected with either normal CFTR (CFTR repleted) or beta-galactosidase. GSH content in the apical fluid was 55% lower in CFTR-deficient cultures than in CFTR-repleted cells (P < 0.001). In contrast, intracellular GSH content was similar in CFT1 cells and CFTR-repleted cells. gamma-Glutamyl transpeptidase activity, which degrades extracellular GSH, did not account for differences in apical GSH. Rather, GSH efflux of CFTR-deficient cells was lower than that of CFTR-repleted cells. These studies suggested that decreased GSH content in the apical fluid in CF resulted from abnormal GSH transport associated with a defective CFTR.
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PMID:Abnormal glutathione transport in cystic fibrosis airway epithelia. 1040 37

Several problems limit the application of gene transfer to correct the cystic fibrosis (CF) Cl(-) transport defect in airway epithelia. These include inefficient transduction with vectors applied to the apical surface, a low rate of division by airway epithelial cells, failure of transgene expression to persist, and immune responses to vectors or vector-encoded proteins. To address these issues, we used a feline immunodeficiency virus-based (FIV-based) vector. FIV vector formulated with a calcium chelator transduced fully differentiated, nondividing human airway epithelia when applied to the apical surface. FIV-based vector encoding the cystic fibrosis transmembrane conductance regulator cDNA corrected the Cl(-) transport defect in differentiated CF airway epithelia for the life of the culture (>3 months). When this approach was applied in vivo, FIV vector expressing beta-galactosidase transduced 1-14% of adult rabbit airway epithelia. Transduced cells were present in the conducting airways, bronchioles, and alveoli. Importantly, gene expression persisted, and cells with progenitor capacity were targeted. FIV-based lentiviral vectors may be useful for the treatment of genetic lung diseases such as CF. This article may have been published online in advance of the print edition.
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PMID:Feline immunodeficiency virus vectors persistently transduce nondividing airway epithelia and correct the cystic fibrosis defect. 1058 10

In the genetic disease cystic fibrosis, recombinant adeno-associated virus type 2 (AAV2) is being investigated as a vector to transfer CFTR cDNA to airway epithelia. However, earlier work has shown that the apical surface of human airway epithelia is resistant to infection by AAV2, presumably as a result of a lack of heparan sulfate proteoglycans on the apical surface. This inefficiency can be overcome by increasing the amount of vector or by increasing the incubation time. However, these interventions are not very practical for translation into a therapeutic airway-directed vector. Therefore, we examined the efficiency of other AAV serotypes at infecting human airway epithelia. When applied at low multiplicity of infection to the apical surface of differentiated airway epithelia we found that a recombinant AAV5 bound and mediated gene transfer 50-fold more efficiently than AAV2. Furthermore, in contrast to AAV2, AAV5-mediated gene transfer was not inhibited by soluble heparin. Recombinant AAV5 was also more efficient than AAV2 in transferring beta-galactosidase cDNA to murine airway and alveolar epithelia in vivo. These data suggest that AAV5-derived vectors bind and mediate gene transfer to human and murine airway epithelia, and the tropism of AAV5 may be useful to target cells that are not permissive for AAV2.
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PMID:Adeno-associated virus type 5 (AAV5) but not AAV2 binds to the apical surfaces of airway epithelia and facilitates gene transfer. 1072 59

Recent studies have shown that airway inflammation dominated by neutrophils, ie, polymorphonuclear cells (PMN) was observed in infants and children with cystic fibrosis (CF) even in the absence of detectable infection. To assess whether there is a CF-related anomaly of PMN migration across airway epithelial cells, we developed an in vitro model of chemotactic migration across tight and polarized CF(15) cells, a CF human nasal epithelial cell line, seeded on porous filters. To compare PMN migration across a pair of CF and control monolayers in the physiological direction, inverted CF(15) cells were infected with increasing concentrations of recombinant adenoviruses containing either the normal cystic fibrosis transmembrane conductance regulator (CFTR) cDNA, the DeltaF508 CFTR cDNA, or the beta-galactosidase gene. The number of PMN migrating in response to N-formyl-Met-Leu-Phe across inverted CF(15) monolayers expressing beta-galactosidase was similar to that seen across CF(15) monolayers rescued with CFTR, whatever the proportion of cells expressing the transgene. Moreover, PMN migration across monolayers expressing various amounts of mutated CFTR was not different from that observed across matched counterparts expressing normal CFTR. Finally, PMN migration in response to adherent or Pseudomonas aeruginosa was equivalent across CF and corrected monolayers. The possibility that mutated CFTR may exert indirect effects on PMN recruitment, via an abnormal production of the chemotactic cytokine interleukin-8, was also explored. Apical and basolateral production of interleukin-8 by polarized CF cells expressing mutated CFTR was not different from that observed with rescued cells, either in baseline or stimulated conditions. CF(15) cells displayed a CF phenotype that could be corrected by CFTR-containing adenoviruses, because two known CF defects, Cl(-) secretion and increased P. aeruginosa adherence, were normalized after infection with those viruses. Thus, we conclude that the presence of a mutated CFTR does not per se lead to an exaggerated inflammatory response of CF surface epithelial cells in the absence or presence of a bacterial infection.
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PMID:Cystic fibrosis transmembrane conductance regulator does not affect neutrophil migration across cystic fibrosis airway epithelial monolayers. 1075 64

A capacity of MF-2 synthetic microspheres to serve as the vehicle for transfer of the marker LacZ gene to mouse lung epithelial cells was studied after a single intranasal administration of the MF-2/gene complex. Two types of plasmids carrying marker gene LacZ were used in the experiments: with cytoplasmic (pCMV-LacZ) and nuclear (pCMV-nlsLacZ) localization of the gene product (beta-galactosidase). As early as 7 days after the complexes MF-2/pCMV-LacZ and MF-2/pCMV-nlsLacZ were administered, specific staining for beta-galactosidase revealed this enzyme activity in the epithelial cells of bronchi, bronchioli, and alveoli. The maximum in vivo of the marker gene in the MF-2/pCMV-LacZ complex was observed at day 14 to 21 after administration and the corresponding gene product was detected during the following two months. The MF-2-mediated gene transfer led to a twofold increase in beta-galactosidase activity relative to the case when the "unbound" pCMV-LacZ plasmid was administered. These results suggest that the synthetic microsphere-mediated transfer of alien genes to the lung of experimental animals is promising. Microspheres may be used in gene therapy for pulmonary affections, in particular cystic fibrosis.
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PMID:[Expression in vivo of the lacZ gene, delivered to mouse lungs using synthetic microspheres]. 1086 75

Effective gene transfer to the airway epithelial cells of individuals with cystic fibrosis (CF) requires gene therapy vectors to effectively penetrate the mucous lining of the airways of these patients. In this study, we examined the effects of the aqueous sol fraction of sputum recovered from CF patients (CF sol) on adenovirus (Ad)-mediated gene transfer to cultured epithelial cells. Sputum collected from patients with CF was separated into aqueous sol and gel fractions by ultracentrifugation and the sol fraction from different individuals was pooled. To determine if CF sol affects Ad-mediated transfection, Fisher rat thyroid (FRT) epithelial cells or normal human bronchial epithelial (NHBE) cells were infected with an Ad encoding beta-galactosidase (Ad2/betagal-2) in the presence or absence of the pooled CF sol. Transfection efficiency was determined by measuring beta-Gal activity. CF sol significantly inhibited Ad2-mediated gene transfer in a dose-dependent manner when the vector was incubated with CF sol prior to exposure to the cells. In contrast, preincubation of the cells with the sol was without effect. The inhibition of Ad-mediated gene transfer by CF sol was not related to its low pH, was abrogated by preadsorption with an Ad2 serotype vector, and was neutralized by heat treatment, but was not affected by treatment with protease inhibitors. Analysis of CF sol fractions from seven different individuals with CF showed inhibition of Ad-mediated gene transfer in four of the seven samples tested and, further, the inhibitory effect was correlated with the presence of Ad-specific antibodies. We conclude that preexisting adenovirus-specific antibodies present in some of the patient samples were the predominant factor inhibiting Ad-mediated gene transfer.
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PMID:Inhibitory effect of cystic fibrosis sputum on adenovirus-mediated gene transfer in cultured epithelial cells. 1102 Jul 99

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