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

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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)

Hydrogel-coated metallic stents may provide supplementary functions such as local drug delivery and gene transfer in addition to mechanical dilation function. To this end, we used a photoreactive material consisting of gelatin macromer (multiple styrene-derivatized gelatin) and carboxylated camphorquinone (photo-initiator). A few minutes of visible light irradiation of a stent after dip-coating of an aqueous solution of the photoreactive material resulted in the formation of a homogeneously crosslinked gelatinous layer on the entire exterior surface of the stent. As the metal stent, gold stents under development were used. Rhodamine-conjugated albumin as a model drug or adenoviral vector expressing bacterial beta-galactosidase (AdLacZ) as a model gene were photo-immobilized in the gelatinous gel layer. In vitro experiments using hybrid tubular tissue, which is a self-shrinkaged, vascular smooth muscle cell-incorporated type-I collagen gel, as a vascular model, showed that the immobilized dye-derivatized albumin was released on and permeated into tissues, as observed by confocal laser microscopy, and that the cells transfected with immobilized AdLacZ produced beta-galactosidase up to almost 3 weeks, as observed by x-gal staining. In preliminary in vivo experiments these drug- or adenovirus-immobilized stents were implanted in rabbit common carotid arteries. Within 3 weeks of implantation, drug permeation and gene expression in the vascular tissues were observed, indicating that the gelatinous photogel effectively serves as a matrix or coating for a bioactive stent,which permits drug release as well as gene transfer. This intraluminal approach has the potential to realize drug and gene therapy in atherosclerotic plaque.
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PMID:Development of high-performance stent: gelatinous photogel-coated stent that permits drug delivery and gene transfer. 1155 86

Murine embryonic stem (ES) cells can replicate indefinitely in culture and can give rise to all tissues, including the germline, when reimplanted into a murine blastocyst. ES cells can also be differentiated in vitro into a wide range of cell types. We have utilized a liver-specific marker to demonstrate that murine ES cells can differentiate into hepatocytes in vitro. We have used ES cells carrying a gene trap vector insertion (I.114) into an ankyrin repeat-containing gene (Gtar) that we have previously shown provides an exclusive beta-galactosidase marker for the early differentiation of hepatocytes in vivo. beta-Galactosidase-positive cells were differentiated from I.114 ES cells in vitro. The identity of these cells was confirmed by the expression of the proteins alpha-fetoprotein, albumin, and transferrin and by the fact that they have an ultrastructural appearance consistent with that of embryonic hepatocytes. We propose that this model system of hepatic differentiation in vitro could be used to define factors that are involved in specification of the hepatocyte lineage. In addition, human ES cells have recently been derived and it has been proposed that they may provide a source of differentiated cell types for cell replacement therapies in the treatment of a variety of diseases.
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PMID:Hepatic differentiation of murine embryonic stem cells. 1174 Aug 61

The development of accurate, safe, and efficient gene delivery remains a major challenge towards the realization of gene therapeutic prevention and treatment of cardiovascular diseases. In this study, we investigated the ability of high-intensity focused ultrasound (HIFU), a form of mechanical wave transmission, to act as a noninvasive tool for the enhancement of in vivo gene transfer into rabbit carotid arteries. Segments of the common carotid arteries of New Zealand white rabbits were isolated and infused with plasmid DNA encoding the reporter beta-galactosidase either with or without the addition of ultrasound contrast agent consisting of small (approximately 2-5 microm) gas-filled human albumin microspheres to augment cavitation. Infused arteries were exposed to pulsed ultrasound for 1 min (frequency 0.85 MHz, burst length 50 ms, repetition frequency 1 Hz, duration 60 s, peak pressure amplitude of 15 MPa). At 6.3 MPa, HIFU enhanced gene expression eight-fold, and 17.5-fold in the presence of contrast. We found increasing amounts of beta-galactosidase expression in the carotid vessel with increasing pressure amplitude. This dose-response relation was present with and without contrast. Without contrast, no vessel damage was detected up to 15 MPa, while the addition of contrast induced side effects above a threshold of 6.3 MPa peak pressure. The entire procedure was feasible and safe for the animals, and the results suggest that HIFU has the potential to assist in the noninvasive spatial regulation of gene transfer into the vascular system.
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PMID:Focused ultrasound (HIFU) induces localized enhancement of reporter gene expression in rabbit carotid artery. 1290 52

We have tested the ability of bone marrow (BM) cells (BMCs) to form hepatocytes in liver injury models. We used three models: (i) carbon tetrachloride (CCl4) treatment, (ii) albumin-urokinase transgenic mouse [TgN(Alb1Plau)], and (iii) hepatitis B transgenic mouse [TgN(Alb1HBV)]. As a nonselective liver injury model, irradiated C57BL/6 (B6) mice were transplanted with BMCs from GFP transgenic mouse [TgN(ActbEGFP)] or beta-galactosidase transgenic mouse [TgN(MtnLacZ)] followed by the administration of CCl4. Irradiated TgN(Alb1HBV) and TgN(Alb1Plau) were also transplanted with BMCs from TgN(ActbEGFP) or TgN(MtnLacZ). Approximately 1.5 x 106 hepatocytes per liver were analyzed for GFP-positive cells, and the whole livers were inspected for beta-galactosidase expression. No GFP-positive hepatocytes and no gross blue staining of the livers with 5-bromo-4-chloro-3-indolyl beta-d-galactoside in any of the 18 recipient mice analyzed were detected. The livers from female animals with gender-mismatched BM transplantation were also tested with Y chromosome fluorescent in situ hybridization analysis to detect donor-derived cells. A total of five isolated hepatocytes were positive for Y chromosome in 4.1 x 105 hepatocytes analyzed. Our results demonstrate that there is little or no contribution of BMCs to the replacement of injured livers in these models. We conclude that BM-derived cells cannot generally lead to a cure of liver damage.
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PMID:Little evidence of bone marrow-derived hepatocytes in the replacement of injured liver. 1523 8

The effect of interferon alpha (IFN alpha) and the progression of the cell cycle on translation mediated by the 5' untranslated region (5'UTR) of hepatitis C virus (HCV) was evaluated in a transgenic mouse model containing the beta-galactosidase (beta-gal) gene under the control of the mouse albumin promoter and HCV 5'UTR. The transgene was exclusively expressed in the liver and specifically in hepatocytes around the periportal area. IFN alpha significantly suppressed the expression of both the beta-gal gene product and its enzymatic activity at 6 h after the treatment of the mice. The mRNA level of the transgene and endogenous albumin gene expression were not affected, so this suppression was considered to be specific to 5'UTR-directed translation. Phosphorylation of the Stat1 protein was observed in the liver extract 20 min after the treatment, thus confirming a specific known effect of IFN alpha in vivo. We suggest that suppression of 5'UTR-directed translation may be one of the mechanisms whereby IFN alpha exerts its anti-viral activity. We further investigated whether the restriction of 5'UTR-directed translation in periportal hepatocytes may be explained by the proliferative state of the cell. Transgene expression was slightly enhanced in the liver 48 h after partial hepatectomy when a substantial number of hepatocytes entered cell cycle progression. However, 5'UTR-directed translation could not be detected in hepatocellular carcinoma lesions in transgenic mice that were induced to develop such tumours. We suggest that the state of differentiation of the cell, and not its proliferative capacity, is important for supporting HCV expression. This animal model may be a useful tool to dissect the control of HCV expression and to search for ways to block viral replication.
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PMID:Effect of interferon alpha and cell cycle progression on translation mediated by the hepatitis C virus 5' untranslated region: a study using a transgenic mouse model. 1473 56

Transplantation of hepatocytes is a promising alternative to liver transplantation for the treatment of severe liver diseases. However, this approach is hampered by the shortage of donor organs and intrinsic limitations of adult hepatocytes. To investigate whether most of the hurdles faced with adult hepatocytes could be surmounted by the use of human fetal hepatoblasts, we have developed a method to isolate, transduce, and cryopreserve hepatoblasts from human livers at an early stage of development (11-13 weeks of gestation). Cells were characterized in vitro for expression of specific markers, and in vivo for their proliferation and differentiation potential after transplantation into athymic mice. Most of the cells (80-90%) harbored a bipotent phenotype, expressing cytokeratins 8/18, albumin, and CK19. They proliferated spontaneously in culture and were efficiently transduced by a beta-galactosidase-expressing retrovirus (90%). After transplantation, cryopreserved cells engrafted into the liver of athymic mice and proliferated, resulting in up to 10% repopulation. Engrafted cells expressed markers of differentiated adult hepatocytes including albumin, alpha1-antitrypsin, cytochrome P450 3A4, and alpha-glutathione-S-transferase. When retrovirally transduced before transplantation they expressed the transgene in vivo. In summary, early human fetal hepatoblasts engraft, proliferate, and mature in athymic mouse liver, without conditioning the donor.
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PMID:Repopulation of athymic mouse liver by cryopreserved early human fetal hepatoblasts. 1568 98

We present an extracellular matrix (ECM) microarray platform for the culture of patterned cells atop combinatorial matrix mixtures. This platform enables the study of differentiation in response to a multitude of microenvironments in parallel. The fabrication process required only access to a standard robotic DNA spotter, off-the-shelf materials and 1,000 times less protein than conventional means of investigating cell-ECM interactions. To demonstrate its utility, we applied this platform to study the effects of 32 different combinations of five extracellular matrix molecules (collagen I, collagen III, collagen IV, laminin and fibronectin) on cellular differentiation in two contexts: maintenance of primary rat hepatocyte phenotype indicated by intracellular albumin staining and differentiation of mouse embryonic stem (ES) cells toward an early hepatic fate, indicated by expression of a beta-galactosidase reporter fused to the fetal liver-specific gene, Ankrd17 (also known as gtar). Using this technique, we identified combinations of ECM that synergistically impacted both hepatocyte function and ES cell differentiation. This versatile technique can be easily adapted to other applications, as it is amenable to studying almost any insoluble microenvironmental cue in a combinatorial fashion and is compatible with several cell types.
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PMID:An extracellular matrix microarray for probing cellular differentiation. 1578 9

This immunological study involved individual injection of the three Schistosoma mansoni antigens (Ags). soluble egg antigen (SEA), cercarial antigen preparation (CAP) or soluble worm antigen preparation (SWAP) in three rabbits groups (Ag). respectively. Three other groups each received the same specific antigen conjoined with administration of L-carnosine (Ag-C). Determination of three hepatic parameters and ten serum proteins was done. These were total protein, glycogen content and glycogen phosphorylase b activity of liver as well as serum total protein and nine protein fractions [alpha2-macrglobulin; beta-galactosidase; phosphorylase b; serum albumin; fumarase; carbonic anhydrase; beta-lactoglobulin; alpha-lactalbumin and aprotinin]. Conjoined carnosine treatment produced numerous variations. SEA-I-C group presented sex decreased parameters. In CAP-I-C animals hepatic glycogen content was increased while phosphorrylase b activity was decreased as well as seven the concentration of serum parameters; total serum protein, alpha2-macroglobulin, phosphorylase b, albumin, fumarase, carbonic anhydrase, alpha-lactalbumin and aprotinin. In SWAP-I-C group the concentration of only one fraction was decreased; carbonic anhydrase. In batch A both the Ags. of the egg and cercaria, developmental stages having transient residence in the animal host, showed more affection by the specific Ag. Although, carnosine modified the results of all the three groups in batch B yet, its effect on both the egg and cercaria Ags. was still more than that of worm.
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PMID:Biochemical modifications induced in rabbits by Schistosoma mansoni antigens and the beneficial effect of carnosine treatment. 1588 Oct 9

To improve the stability and gene-carried capability of gene-attached microbubbles, the method for manufacture of albumin microbubbles was modified and new gene-loaded microbubbles were synthesized by incorporated gene-PEI complex into the shell of microbubbles. Agarose gel electrophoresis and bacteria transformation showed that PEI had the ability to provide the protection of plasmid DNA from ultrasonic degradation. The new gene-loaded microbubbles exhibited excellent acoustical and hemorheological properties. Moreover, they could carry more plasmid DNA than gene-attached microbubbles. beta-galactosidase plasmid transfection into cardiac myocytes was performed by using ultrasound targeted destruction of new gene-loaded microbubbles or gene-attached microbubbles. Gene expression in cardiac myocytes was detected by beta-galactosidase in situ staining and quantitive assay. It was shown that beta-galactosidase activity in cardiac myocytes was enhanced 107-fold by ultrasonic destruction of gene-loaded microbubbles compared with naked plasmid transfection and new gene-loaded microbubbles resulted in 6.85-fold increase in beta-galactosidase activity compared with optimal transfection mediated by gene-attached microbubbles. These results suggested that ultrasonic destruction of the gene-loaded microbubbles can enhance the cardiac myocytes exogenous gene transfer efficiency significantly and new gene-loaded microbubbles is an efficient and safe gene delivery vehicle.
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PMID:[Synthesis of new gene-loaded microbubbles serve as gene delivery vehicle applied in reporter gene transfer into cardiac myocytes]. 1700 25

Type 1 diabetes results from insulin deficiency caused by destruction of pancreatic beta cells. Glucagon-like peptide (GLP)-1 stimulates beta cell growth and differentiation. To determine whether continuous expression of GLP-1 in vivo can regenerate beta cells and remit type 1 diabetes in mice for a prolonged time, we constructed an adenoviral vector containing the cytomegalovirus promoter/enhancer and albumin leader sequence followed by GLP-1 cDNA (rAd-GLP-1). A single administration of rAd-GLP-1 via the tail vein into streptozotocin (STZ)-induced diabetic non-obese diabetic/severe combined immunodeficient (NOD/SCID) mice resulted in remission of diabetes within 10 days; normoglycemia remained until the experiment was terminated. The number of insulin-positive cells in the pancreas and insulin secretion significantly increased in rAd-GLP-1-treated mice compared with STZ-induced diabetic mice treated with rAd-beta-galactosidase. Glucose tolerance tests in mice that achieved normoglycemia after treatment with rAd-GLP-1 showed that the kinetics of glucose clearance was similar to normal NOD/SCID mice. Treatment of autoimmune diabetic mice with rAd-GLP-1 restored normoglycemia, which was maintained for 1 year when mice were also treated with an immunoregulator to halt the autoimmune response to beta cells. We suggest that regeneration of insulin-producing cells by GLP-1 gene therapy may be a potential method for prolonged control of type 1 diabetes in humans.
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PMID:Prolonged remission of diabetes by regeneration of beta cells in diabetic mice treated with recombinant adenoviral vector expressing glucagon-like peptide-1. 1716 79


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