EC:3.2.1.23 - FACTA Search

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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)

We studied transplantation of retrovirus vector transduced canine keratinocytes to determine whether keratinocytes could persist and express the transferred gene after superficial transplantation to full-thickness wounds of dogs, a large random-bred model for gene transfer studies. Canine keratinocytes were transduced by co-cultivation with PA317 retrovirus packaging cells which produced helper-free amphotropic retroviral vectors (LZSN and LNPOZ) encoding the genes for beta-galactosidase (beta-gal) and neomycin phosphotransferase (neo). Efficient transfer and expression of the two genes could be demonstrated in confluent keratinocyte cultures for both vectors. When transduced keratinocytes were grown in organotypic cultures on a collagen matrix containing autologous dermal fibroblasts at the air-liquid interface, the cultures showed well-organized and defined epidermal cell layers and several markers of terminal differentiation, including the presence of keratohyalin granules and a multilayered stratum corneum. To determine whether the transferred beta-gal gene was also expressed in vivo, we performed autologous transplantation of transduced keratinocytes onto full-thickness wounds of dogs. beta-Gal expressing keratinocytes could be demonstrated in situ in the regenerating epidermis 2 weeks after transplantation. We conclude that keratinocytes can be efficiently transduced by retroviral vectors, that retroviral transduction does not interfere with proliferation or differentiation, and that transduced keratinocytes express the transferred gene after transplantation to full-thickness skin wounds of dogs. Keratinocytes thus seem to be good target cells for gene therapy.
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PMID:Transplantation of retrovirus-transduced canine keratinocytes expressing the beta-galactosidase gene. 758 97

The expression of the collagen alpha 1(I) gene in activated stellate cells plays an important role during liver fibrogenesis. To identify the critical cis-elements of the collagen alpha 1(I) gene in stellate cells, we used transgenic animals bearing various collagen alpha 1(I) regulatory regions directing the expression of either a human growth hormone minigene or the bacterial beta-galactosidase gene. We found that collagen alpha 1(I)-human growth hormone transgene expression was constitutively high in tendon and skin, provided the transgene contained the -2.3 to -0.44 kb collagen regulatory region. However in the liver, expression was stimulated several-fold, as was the endogeneous gene, by the fibrogenic hepatotoxin carbon tetrachloride. This stimulation occurred whether the collagen 5' regulatory region extended -2.3, -1.6 or -0.44 kb, and in the presence or absence of much of the first intron (+292 to +1607 bp). In addition, the -0.44 kb 5' region was sufficient for high-level transgene expression in stellate cells, following their activation by culture on plastic. In contrast, in skin and tendon, high-level transcription of the collagen alpha 1(I) gene required the -2.3 to -0.44 kb 5' flanking region. Thus, two different cis-regulatory regions direct cell-specific transcription of the collagen alpha 1(I) gene in stellate cells and in skin and tendon.
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PMID:Two different cis-acting regulatory regions direct cell-specific transcription of the collagen alpha 1(I) gene in hepatic stellate cells and in skin and tendon fibroblasts. 759 13

We have investigated the differentiation potential of propagable cultured rat pancreatic duct epithelial cells after in vivo implantation in isogeneic Fischer-344 rats. Cells genetically labeled with Escherichia coli beta-galactosidase (lacZ) reporter gene were embedded in a mixture of collagen and Matrigel (basement membrane matrix) and implanted either subcutaneously or intraperitoneally. Tissues from the two locations were harvested 4 to 8 weeks later. The great majority of the lacZ-labeled epithelial cells colonizing both sites phenotypically resembled hepatocytes, although they demonstrated different degrees of hepatocytic differentiation. Less than 5% of lacZ-labeled cells formed ductular structures. The hepatocyte-like cells from the subcutaneous implantation site expressed mixed phenotypes of both hepatocyte and ductal cell, including the expression of alpha-fetoprotein, tyrosine amino-transferase, gamma-glutamyl transpeptidase, carbonic anhydrase II, and cytokeratin 19. In contrast, the hepatocyte-like cells colonizing the mesentery showed the phenotype of mature hepatocytes, including an abundant glycogen storage and a lack of alpha-fetoprotein and carbonic anhydrase II expressions. Neither acinar cell nor endocrine differentiation was seen. These findings demonstrate that pancreatic ductal cells can be the progenitor cell for transdifferentiated hepatocytes.
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PMID:Hepatocytic differentiation of cultured rat pancreatic ductal epithelial cells after in vivo implantation. 767 82

The genes coding for the two type I collagen chains, which are active selectively in osteoblasts, odontoblasts, fibroblasts, and some mesenchymal cells, constitute good models for studying the mechanisms responsible for the cell-specific activity of genes which are expressed in a small number of discrete cell types. To test whether separate genetic elements could direct the activity of the mouse pro-alpha 1(I) collagen gene to different cell types in which it is expressed, transgenic mice were generated harboring various fragments of the proximal promoter of this gene cloned upstream of the Escherichia coli beta-galactosidase gene. During embryonic development, X-gal staining allows for the precise identification of the different cell types in which the beta-galactosidase gene is active. Transgenic mice harboring 900 bp of the pro-alpha 1(I) proximal promoter expressed the transgene at relatively low levels almost exclusively in skin. In mice containing 2.3 kb of this proximal promoter, the transgene was also expressed at high levels in osteoblasts and odontoblasts, but not in other type I collagen-producing cells. Transgenic mice harboring 3.2 kb of the proximal promoter showed an additional high level expression of the transgene in tendon and fascia fibroblasts. The pattern of expression of the lacZ transgene directed by the 0.9- and 2.3-kb pro-alpha 1(I) proximal promoters was confirmed by using the firefly luciferase gene as a reporter gene. The pattern of expression of this transgene, which can be detected even when it is active at very low levels, paralleled that of the beta-galactosidase gene. These data strongly suggest a modular arrangement of separate cell-specific cis-acting elements that can activate the mouse pro-alpha(I) collagen gene in different type I collagen-producing cells. At least three different types of cell-specific elements would be located in the first 3.2 kb of the promoter: (a) an element that confers low level expression in dermal fibroblasts; (b) a second that mediates high level expression in osteoblasts and odontoblasts; and (c) one responsible for high level expression in tendon and fascia fibroblasts. Our data also imply that other cis-acting cell-specific elements which direct activity of the gene to still other type I collagen-producing cells remain to be identified.
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PMID:Separate cis-acting DNA elements of the mouse pro-alpha 1(I) collagen promoter direct expression of reporter genes to different type I collagen-producing cells in transgenic mice. 777 85

Studies on the function of extracellular matrix components of cartilages and on chondrocyte-specific regulatory mechanisms will benefit from approaches in which transgenic mice and cell cultures will complement each other. We therefore established and extensively characterized primary cultures of mouse chondrocytes isolated from rib growth plates of newborn mice harboring a transgene in which type II collagen gene regulatory sequences were driving expression of an E. coli beta-galactosidase reporter gene. Primary chondrocytes expressed a fully differentiated phenotype in monolayer culture, producing mRNAs for the collagen types II, IX and X, and for the transgene. Transgenic cells also synthesized high levels of E. coli beta-galactosidase, easily quantifiable and also detectable in individual cells by X-gal staining. When chondrocytes were isolated from transgenic mice in which beta-galactosidase was fused to the product of the neomycin resistance gene, they displayed resistance to G418. After one to two weeks in culture, chondrocytes progressively lost expression of the transgenes, in parallel with that of cartilage-specific genes, and started expressing high levels of type I collagen RNA. The use of transgenic chondrocytes allowed us to easily score phenotypic changes by assaying beta-galactosidase activity and neomycin resistance. Cultures of mouse chondrocytes, such as those reported here, should also help characterize biochemically the phenotypes of other transgenic mice in studies of genetic diseases of cartilages and of mechanisms involved in chondrogenesis.
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PMID:Characterization of primary cultures of chondrocytes from type II collagen/beta-galactosidase transgenic mice. 782 56

Numerous cell types, including fibroblasts, vascular smooth muscle cells, chondroblasts, monocytes, neutrophils, and several tumor cells express the 67-kD galactolectin, homologous to the alternatively spliced variant of beta-galactosidase. The 67-kD protein resides on the cell surfaces and is capable of interacting with elastin, laminin and collagen type IV. This peripheral membrane protein binds its matrix ligands but only in the absence of galactosugars, whereas binding of galactosugar-containing moieties to its lectin site changes its molecular folding which causes discharge of the ligand and release of the receptor from the cell surface. This review will address the functional significance of the single receptor that interacts with multiple matrix proteins and can be shed from cell surfaces by galactosugars. I will emphasize the role of the 67-kD protein in divergent cellular processes, such as cell-matrix attachment, matrix assembly, cellular chemotaxis, and active migration through the vascular walls.
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PMID:Nature and the multiple functions of the 67-kD elastin-/laminin binding protein. 782 55

Insulin-like growth factor-I (IGF-I) and IGF-II have powerful, well defined effects on osteoblastic cells, stimulating their proliferation and inducing collagen synthesis, but the role of IGF-I and -II in modulating osteoclast differentiation and activity remains unclear. We first examined the bone-resorptive effects of IGF-I and IGF-II by assessing 45Ca2+ release from neonatal mouse calvarial bones. Both IGFs dose dependently stimulated bone resorption, with an EC50 of 8 x 10(-9) M for IGF-I and 2 x 10(-8) M for IGF-II. We then tested the effects of the IGFs on bone resorption by rat isolated osteoclasts cultured on ivory slices. Neither IGF-I nor IGF-II stimulated isolated osteoclast activity. However, in the presence of either primary mouse osteoblasts or human osteosarcoma MG 63 cells, both IGFs enhanced osteoclast resorptive activity, with an EC50 of 5 x 10(-10) M for IGF-I and 10(-9) M for IGF-II. Stimulation was not mediated by BALB/c/3T3 cells, a nonosteoblastic cell line. The effects of the IGFs were blocked by alpha IR-3, an antibody to the type I IGF receptor, but not by beta-galactosidase, a lysosomal enzyme that competes with IGF-II for the type II IGF receptor. We then examined the effects of the IGFs on the formation of osteoclast-like multinucleate cells (MNCs) in mouse bone marrow cultures. IGF-I and -II dose dependently increased the number of tartrate-resistant acid phosphatase (TRAP)-positive MNCs, although their effects were less than that of 1,25-dihydroxyvitamin D3 (a hormone that induces osteoclast differentiation). No TRAP-positive MNCs appeared in the absence of these hormones. Like authentic osteoclasts, the TRAP-positive MNCs formed in response to IGF-I and -II bound [125I]salmon calcitonin. When mouse bone marrow cells were cultured on ivory slices in the presence of either IGF-I or IGF-II for 10 days, numerous resorption lacunae were formed. beta-Galactosidase had no effect on IGF-mediated osteoclast formation. These results are strong evidence that both IGF-I and IGF-II stimulate bone resorption in vitro by enhancing osteoclast formation and function. Our data also suggest that the IGFs act through the intermediary of osteoblastic cells to stimulate osteoclast activity and that the type I, but not the type II, IGF receptor is involved in their responses. We propose that the local production of IGF-I and IGF-II may modulate both osteoblast-osteoclast interactions and osteoclast formation and play an important role in bone remodeling.
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PMID:Osteoblasts mediate insulin-like growth factor-I and -II stimulation of osteoclast formation and function. 782 21

Collagenase is a member of the matrix metalloproteinase family whose members are all capable of degrading extracellular matrix components. The mature form of porcine collagenase has been expressed in Escherichia coli using the pAX5 expression vector. The fusion protein consists of beta-galactosidase at the N-terminus joined to a collagen hinge region and a blood-coagulation factor Xa cleavage site linked to an active form of collagenase. Recombinant collagenase was biologically active in the form of a fusion protein; this was cleaved with factor Xa to yield collagenase with the authentic N terminus (phenylalanine) found in vivo and purified in a single step on a peptide hydroxamic acid affinity column. On purification the recombinant porcine collagenase undergoes autolysis at a number of different bonds in the region connecting the active site domain with the C-terminal hemopexin-like domain. This may represent a loop region of poor secondary structure, making it susceptible to relatively nonspecific cleavage. The N-terminal fragment retains a reduced level of collagenolytic activity, along with that against casein and gelatin.
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PMID:Recombinant porcine collagenase: purification and autolysis. 784 Jun 5

Prosthetic vascular grafts containing retrovirally transduced autologous vascular smooth muscle cells were studied as a model for introduction of human genes into baboons. Retroviral vectors encoding beta-galactosidase (beta-Gal) (LNPoZ) or human purine nucleoside phosphorylase (LPNSN-2), a control gene, were used for ex vivo transduction of autologous baboon smooth muscle cells obtained from vein biopsies. Transduced cells were placed into a collagen solution and seeded into the interstices of polytetrafluoroethylene vascular grafts. Endothelial cells were then seeded onto the luminal surface of the grafts to reduce thrombus formation. One LNPoZ-seeded graft and one LPNSN-2-seeded control graft were implanted bilaterally into the aorto-iliac circulation of each of 4 animals. All grafts remained patent until they were removed after 3-5 weeks and examined histochemically for vector-expressing cells. All histological cross-sections from the beta-Gal vector seeded grafts contained cells staining blue with the X-Gal chromogen. For the four grafts, the mean fraction of LNPoZ expressing cells was 10%, with a range of 2-20%, while no sections from the control grafts contained stainable cells. Smooth muscle cells expressing the reporter gene were localized within the graft wall but not in the newly forming intima or outer capsule of fibrous tissue. Implantation of transduced cells within this type of vascular graft may provide a useful approach for long-term local and systemic gene therapy.
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PMID:Gene transfer in baboons using prosthetic vascular grafts seeded with retrovirally transduced smooth muscle cells: a model for local and systemic gene therapy. 784 94

A reporter cell line was established from F9 mouse teratocarcinoma cells containing the RAR beta 2 promoter coupled to the lacZ (beta-galactosidase) reporter gene. All-trans-, 9-cis-, and all-trans-4-oxoretinoic acid were equipotent in inducing cell differentiation at 1 microM, determined by induction of collagen IV mRNA expression, of morphological changes, as well as of beta-galactosidase enzyme activity. By the same criteria, beta-carotene at 10 microM also induced differentiation, but less strongly and more slowly than the retinoic acids. In contrast, the oxocarotenoid (or xanthophyll) canthaxanthin, at 10 microM, had little effect on differentiation, unless preincubated in culture medium, from which 4-oxoretinoic acid was recovered and identified as a decomposition product. This indicates that canthaxanthin can act as an effective inducer of differentiation only after breakdown to active metabolites. Likewise, beta-carotene probably also acts subsequent to breakdown to retinoic acid. Throughout these experiments the response of the RAR beta promoter-lacZ reporter gene correlated well with other parameters of differentiation, making this cell line a useful system for examination of inducers of embryonal carcinoma cell differentiation.
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PMID:Efficacy of all-trans-beta-carotene, canthaxanthin, and all-trans-, 9-cis-, and 4-oxoretinoic acids in inducing differentiation of an F9 embryonal carcinoma RAR beta-lacZ reporter cell line. 786 21

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