Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Many human genetic diseases, such as congenital
surfactant protein B
deficiency, manifest in the perinatal period. Prenatal gene therapy may be necessary to minimize morbidity in these diseases. We hypothesized that bacterial
beta-galactosidase
(beta-Gal) gene could be transferred to and expressed in the pulmonary epithelium of fetal sheep in utero using a replication-deficient adenovirus (Av1LacZ4). We instilled Av1LacZ4 (1.5 x 10(11) plaque-forming units, n = 10) or saline (n = 2) intratracheally to chronically instrumented fetal sheep at 112-134 days gestation (term = 145 days). Lung fluid was collected before and after Av1LacZ4 administration for cytological analysis. Lung tissue was examined for transgenic beta-Gal activity and evidence of toxicity. Transgenic beta-Gal activity was visualized as blue nuclear staining of tissue treated with X-Gal and was detected in the lungs of 5 animals for up to 14 days after administration. Transgenic beta-Gal activity was not detected in the lungs of animals analyzed beyond 14 days after treatment. Pulmonary histopathology was detected in most Av1LacZ4-treated animals and manifested as a mixed cellular infiltrate consisting of neutrophils, macrophages, and lymphocytes. Fetal lung fluid analysis revealed a predominantly lymphocytic response in most Av1LacZ4-treated animals within 3 days (2.88 x 10(6) vs. 4 x 10(3) total cells/ml in control animals). We have demonstrated that adenovirus vectors can direct gene transfer to the lungs of fetal sheep in utero. The transferred gene expression was transient and possibly limited by the induced inflammatory response.
...
PMID:Adenovirus-mediated gene transfer to the respiratory tract of fetal sheep in utero. 757 14
Fetal gene therapy offers the promise of cure for certain genetic diseases, like cystic fibrosis and
surfactant protein B
deficiency. The authors hypothesized that a fetoscopic approach could attain a high level of organ-specific gene transfer to the fetal lung late in gestation. To test this hypothesis the authors examined the efficacy, specificity, and toxicity of recombinant adenovirus-mediated transfer of the
beta-galactosidase
marker gene to the lung of late gestation fetal sheep using a fetoscopic technique. Twelve fetal sheep of 125 to 135 days' gestation (term, 145 days) underwent fetoscopic bronchoscopy and intratracheal administration of a replication-deficient adenoviral vector that transduces the
beta-galactosidase
marker gene. Escape of administered virus was prevented by the fetoscopic deployment of a detachable silicone balloon in the fetal trachea. All fetuses survived until being killed at 2 days after vector delivery for the histopathologic assessment of vector efficacy and specificity. Optimal
beta-galactosidase
transgene expression was observed at a viral titer of 2 x 10(12) particles per milliliter of administered volume. Expression was greatest in the distal pulmonary parenchyma, particularly in type II pneumocytes, and extended out to the pleura. There was no evidence of gene transfer in either the large conducting airways or in any other fetal organ. The authors have developed a minimally invasive technique for the specific pulmonary delivery of gene therapy vectors to the fetus with no associated acute toxicity. Gene transfer to the late gestation fetus for the treatment of congenital pulmonary disease may be feasible through fetoscopy.
...
PMID:Fetoscopic gene therapy for congenital lung disease. 924 13
We examined the ability of the human
surfactant protein B
(
SP-B
) promoter to confer cell specificity of transgene expression in an adenoviral vector. Using similar replication-deficient adenoviruses (rAd), we compared lacZ reporter gene expression driven by the human
SP-B
promoter (rAd.SPBlacZ) with the ubiquitously expressed Rous sarcoma virus promoter (rAd.RSVlacZ). rAd.SPBlacZ expressed lacZ in H-441 and A549 lung epithelial cell lines and not in HeLa cells whereas rAd.RSVlacZ expressed in all three cell lines. In primary human fetal lung fibroblasts,
beta-galactosidase
activity from rAd.RSVlacZ transduction increased in a dose-dependent manner whereas activity from rAd.SPBlacZ remained low. In mixed cell cultures prepared from human fetal lung explants that contained fibroblasts and type II cells, X-Gal staining localized rAd.SPBlacZ expression to only type II cells whereas rAd.RSVlacZ expressed in both cell types. In 24-wk gestation human fetal tissue explants infected ex vivo, the RSV promoter directed lacZ expression in lung, trachea, heart, liver, and esophagus, whereas with the
SP-B
promoter lacZ was expressed only in lung, specifically in air space-lining cells. This specificity was maintained in vivo. lacZ expression was undetectable in lung and other tissues after intravenous administration of rAd.SPBlacZ whereas rAd.RSV-lacZ expressed primarily in liver. After intratracheal instillation of rAd.SPBlacZ into mice, X-Gal staining localized expression to type II and Clara cells. In contrast, rAd.RSVlacZ expressed in all pulmonary epithelial cell types. Our results indicate that the
SP-B
promoter may be useful in targeting type II and Clara cells for gene therapy of conditions such as inherited deficiency of
SP-B
.
...
PMID:Targeting type II and Clara cells for adenovirus-mediated gene transfer using the surfactant protein B promoter. 944 40
Tissue damage and inflammation promote bone marrow stem cells (BMSCs) to differentiate into a variety of cell types in residing tissues. BMSCs can stably maintain their plasticity and are an ideal cell population for delivery of therapeutic genes to non-hematopoietic tissues. Using lacZ as a reporter gene, we demonstrated that the lung-specific human
surfactant protein B
(hSP-B) 1.5-kb promoter is able to deliver the lacZ gene into the lung of lysosomal acid lipase (LAL) gene-knockout (lal-/-) mice by
beta-galactosidase
staining, flow cytometry and double immunofluorescence staining. Around 10-18% alveolar type II epithelial cells (AT II cells) exhibited positive lacZ gene expression after 8 weeks of BMSC injection in recipient lal-/- mice. The wild-type mice exhibited no expression after the same treatment. BMSCs from hSP-B 1.5-kb lacZ transgenic mice entered and repopulated in lal-/- bone marrow. The study supports a concept that pulmonary inflammation caused by LAL deficiency can trigger BMSC residing in lal-/- bone marrow, migrating into the lung and converting into residential AT II cells. The hSP-B 1.5 kb promoter is an ideal tool to deliver therapeutic genes into AT II cells through BMSCs to cure pulmonary inflammation-triggered diseases.
...
PMID:Gene delivery by the hSP-B promoter to lung alveolar type II epithelial cells in LAL-knockout mice through bone marrow mesenchymal stem cells. 1770 Jul 6
