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)

Oligodendrocytes, the myelin-forming cells of the central nervous system, can be generated from progenitor cell lines and assayed for their myelinating properties after transplantation. A growth-factor-dependent cell line of rat oligodendrocyte progenitors (CG4) was carried through 31-48 passages before being transplanted into normal newborn rat brain or the spinal cord of newborn myelin-deficient (md) rats. In md rat spinal cord, CG4 oligodendrocyte progenitors migrated up to 7 mm along the dorsal columns, where they divided and myelinated numerous axons 2 weeks after grafting. CG4 cells were transfected with the bacterial lacZ gene and selected for high beta-galactosidase expression. The cell migration and fate of these LacZ+ cells were analyzed after transplantation. In normal newborn brain, LacZ+ oligodendrocyte progenitors migrated along axonal tracts from the site of injection and integrated in the forming white matter. In md rats, extensive migration (up to 12 mm) was revealed by staining for beta-galactosidase activity of the intact spinal cord where many grafted cells had moved into the posterior columns. Similar migration and integration of grafted cells occurred in the spinal cord of normal myelinated rats and after a noninvasive grafting procedure. Thus, oligodendrocyte progenitors can maintain their ability to migrate and myelinate axons in vivo after multiple passages in vitro. Such progenitor cell lines can be used to study the molecular mechanisms underlying oligodendrocyte development and the repair of myelin in dysmyelinating diseases.
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PMID:Transplantation of an oligodendrocyte cell line leading to extensive myelination. 797 13

To express high levels of proteins encoded by transfected DNA constructs in a variety of cultured cells, including neuronal cells, the activities of nine different promoters were evaluated using Escherichia coli beta-galactosidase (beta-gal) (LacZ) as a reporter gene. These nine promoters were categorized into three distinct groups (high, intermediate, and low expresser), in terms of the levels of beta-gal expression. An expression vector containing the cytomegalovirus enhancer and the chick beta-actin promoter (high expresser) showed the highest levels of expression, followed by vectors containing the cytomegalovirus promoter/enhancer and the SV40 promoter/enhancer (intermediate expresser). The rest of the promoters (thymidine kinase, adenovirus, murine proliferative sarcoma virus, nerve growth factor receptor, Rous sarcoma and mouse mammary tumor virus, and beta-amyloid precursor protein) expressed low levels of beta-gal. These results were consistent for eight different cell types. A particularly attractive model is the stem cell, P19; cultures differentiating into progeny consisting predominantly of cholinergic neurons could be readily transfected with expression vectors using liposomes and expressed beta-gal without significant morphologic changes of the differentiated neurons. The systems should be useful for the study of promoters and various expressed proteins, including those involved in axonal transport.
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PMID:Activity assays of nine heterogeneous promoters in neural and other cultured cells. 806 55

Exposure of midgastrulation mouse embryos to retinoic acid induced anteriorized expression of the Hoxa-1 (Hox-1.6) and Hoxb-1 (Hox-2.9) genes. Separate, extra domains of Hoxb-1 expression were detected as stripes and patches up to the midbrain boundary within rhombomeres r3, r2, and r1. Morphological alterations were studied in embryos of the transgenic line L17, which allowed staining of cranial ganglia, motor neurons, and axons by means of the beta-galactosidase reaction. Axons of motor neurons in r3 normally project laterally, before they turn sharply rostrally to exit with the trigeminal nerve from r2. Altered projection patterns were observed for single neurons, groups of neurons, or the complete set of r3 motor neurons in different embryos exposed to retinoic acid. Here r3 axons turned in the opposite direction and exited as facial nerves from r4. These changes of neuroectodermal fates indicate a linkage between axonal pathfinding and intrinsic neuronal specification by Hox codes.
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PMID:Reversal of axonal pathways from rhombomere 3 correlates with extra Hox expression domains. 809 85

The floor plate is situated at the ventral midline of the neural tube and is an important intermediate target for commissural axons. During elongation, these axons converge bilaterally on the ventral midline neural tube and after crossing the floor plate make an abrupt rostral turn. Ample evidence indicates that the initial projection of commissural axons to the floor plate is guided by a chemotropic factor secreted by floor plate cells. However, the way in which the subsequent interaction of these axons with the floor plate leads them to make further trajectory changes remains undefined. In an effort to gain further understanding of the structure and function of floor plate cells, we have taken advantage of a line of transgenic mice in which these cells express beta-galactosidase and thus can be stained by histochemical means. In this line, a genomic imprinting mechanism restricts the expression of the lacZ transgene to only a proportion of the floor plate cells, allowing their morphology to be appreciated with particular clarity. Our analysis revealed that the basal processes of floor plate cells are flattened in their rostrocaudal dimension and possess fine lateral branches which are aligned with commissural axons. Unexpectedly, beta-galactosidase activity was also detected within longer transverse linear profiles traversing the floor plate whose ultrastructural appearance was not that of floor plate cells but instead corresponded to that of commissural axons. Enzyme activity was not detected in more proximal axonal segments or in the neuronal cell bodies from which these axons originated. Therefore, we propose that the transgene product, and potentially other proteins synthesized by floor plate cells, can be transferred to decussating axons.
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PMID:Expression of a lacZ transgene reveals floor plate cell morphology and macromolecular transfer to commissural axons. 830 84

Although remyelination of demyelinated CNS axons is known to occur after transplantation of exogenous glial cells, previous studies have not determined whether cell transplantation can restore the conduction properties of demyelinated axons in the adult CNS. To examine this issue, the dorsal columns of the adult rat spinal cord were demyelinated by x-irradiation and intraspinal injections of ethidium bromide. Cell suspensions of cultured astrocytes and Schwann cells derived from neonatal rats transfected with the (beta-galactosidase) reporter gene were injected into the glial-free lesion site. After 3-4 weeks nearly all of the demyelinated axons were remyelinated by the transplanted Schwann cells. The dorsal columns were removed and maintained in an in vitro recording chamber; conduction properties were studied using field potential and intra-axonal recording techniques. The demyelinated axons exhibited conduction slowing and block, and a reduction in their ability to follow high-frequency stimulation. Axons remyelinated by transplantation of cultured Schwann cells exhibited restoration of conduction through the lesion, with reestablishment of normal conduction velocity. The axons remyelinated after transplantation showed enhanced impulse recovery to paired-pulse stimulation and greater frequency-following capability as compared with both demyelinated and control axons. These results demonstrate the functional repair of demyelinated axons in the adult CNS by transplantation of cultured myelin-forming cells from the peripheral nervous system in combination with astrocytes.
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PMID:Restoration of normal conduction properties in demyelinated spinal cord axons in the adult rat by transplantation of exogenous Schwann cells. 862 58

Organotypic cocultures of thalamic and cortical explants have recently been used to study the development of the thalamocortical axonal network in the mammalian neocortex. To explore the possibility of genetically manipulating organotypic explants, rat thalamocortical (TC) cocultures were infected with the recombinant adenovirus, Adv/RSV beta gal. Infection of the cortical explants resulted in long-term expression (2 weeks) of the reporter gene (beta-galactosidase) with no significant alterations to the structural integrity of the explants. By micro-injecting the adenoviruses into cortical explants a significant degree of spatial control over reporter gene expression was obtained. DiI-labeled axonal projections from thalamic explants into infected (n = 116) and control cortical (n = 120) explants were also analyzed. There was no significant difference in the extent or degree of TC ingrowth into infected or control cortical explants. Thalamic explants were also efficiently infected with the Adv/RSV beta gal virus. While the pattern and extent of TC ingrowth from infected thalamic explants was similar to controls, the percentage of viable, infected thalamic explants was decreased. These experiments were necessary precursors for future studies using recombinant adenoviruses and organotypic cocultures. Genetic manipulation of these cocultures should enable the dissection of proteins involved in the development of axonal networks in the mammalian neocortex, using a system amenable to direct manipulation and observation.
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PMID:Adenovirus-mediated expression of a reporter gene in thalamocortical cocultures. 871 24

In this report, we address the molecular mechanisms that regulate axonal growth by focusing on the gene for one of the major axonal cytoskeletal proteins, T alpha1 alpha-tubulin. During the developmental growth of sympathetic neurons, transcription of a beta-galactosidase transgene driven by the T alpha1 promoter (T alpha1:nlacZ) was high until the time of target innervation and neuronal maturation, when it decreased significantly. In mature animals, T alpha1:nlacZ transcription remained relatively low until target contact was experimentally disrupted; when facial motoneurons were axotomized, T alpha1:nlacZ transgene expression increased, was maximal for 1-7 days, and, if neurons regenerated and reinnervated their target musculature, returned to control levels by 49 days. In contrast, if regeneration and reestablishment of target contact were inhibited, transgene expression remained elevated. To determine whether this increased transcription was due to the loss of target contact or to axonal loss, we transected sympathetic neurons that project to the eye either close to or far from their cell bodies. In both cases, when target contact was severed, T alpha1:nlacZ transcription increased. These experiments indicate that transcription of the T alpha1 alpha-tubulin promoter is repressed by target contact in both developing and mature neurons. We suggest that this repression is due to a target-derived "stop-growth" factor that retrogradely signals to regulate transcription of this and other genes that are required for axonal growth.
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PMID:Transcriptional repression of the growth-associated T alpha1 alpha-tubulin gene by target contact. 918 70

To explore possible neurogenic functions of the genes of the Hox/HOM complexes, we injected the mRNA from the leech homeobox genes Lox1 and Lox4 into adult neurons that normally do not express them. The ectopic expression of Lox1 induced a specific transformation in the electrical properties of certain identified neurons: action potential amplitude increased about threefold after the injections. This effect of Lox1 expression was restricted, among cell types examined, to the anterior pagoda neurons (APs) and the nut neurons. This effect was also restricted to Lox1 ectopic expression; the action potentials of APs and nut neurons were not enlarged when the mRNAs of either Lox4, another leech Hox/HOM gene, or beta-galactosidase were injected. Lox1 mRNA injection did not affect the resting potential, input resistance, or axonal morphology of the transformed APs, raising the possibility that it acts via the modification of voltage-dependent ion channels. Thus, a specific homeobox gene can transform key neuronal characteristics in a cell-specific manner. We may thus add electrophysiologic properties to other aspects of neuronal identity determined by homeobox gene expression.
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PMID:New electrical properties of neurons induced by a homeoprotein. 921 66

We transferred a reporter gene to Schwann cells to test whether they might serve as an endoneurial delivery system for therapeutic proteins. A replication-defective adenoviral vector carrying the gene for beta-galactosidase (lacZ) was injected into the distal segment of intact or crushed sciatic nerves of adult rats, and the expression of lacZ was histochemically assessed. Less than 1% of the Schwann cells became reactive in intact nerves, but up to 18% of the proliferating Schwann cells of injured nerves expressed lacZ. Gene expression decayed with time but might persist for up to 2 months. It was enhanced by immunosuppression: daily cyclosporin A injections reduced both proliferation of Schwann cells and lymphocytic infiltration of the nerve, whereas tolerance induced by a single intrathymic injection of the vector 4 days after birth abolished the inflammatory response but not the proliferation of Schwann cells. The vector itself did not impede axonal regeneration. The results indicate that adenoviral gene transfer to Schwann cells in injured nerves is possible and suggest that induced production of neurotrophic factor may represent a therapeutic supplement to surgical nerve repair.
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PMID:Gene transfer to Schwann cells after peripheral nerve injury: a delivery system for therapeutic agents. 948 61

The cell adhesion molecule L1 mediates axonal guidance during neural development and mutations in its gene result in severe neurological defects. In previous studies, we identified the promoter for the L1 gene and showed that a neural restrictive silencer element (NRSE) was critical for preventing ectopic expression of L1 during early embryonic development. In the present study, we have investigated the role of the NRSE in the regulation of L1 expression during postnatal development. In gel mobility shift experiments, the NRSE formed DNA-protein complexes with nuclear extracts prepared from the brains of postnatal mice. To examine the influence of the NRSE on postnatal patterns of L1 expression in vivo, we compared the expression of two lacZ transgene constructs, one containing the native L1 gene regulatory sequences (L1lacZ) and another (L1lacZDeltaN) lacking the NRSE. Newborn mice carrying the L1lacZDeltaN showed enhanced beta-galactosidase expression relative to L1lacZ in the brain and ectopic expression in nonneural tissues. In contrast to L1lacZ mice, however, L1lacZDeltaN mice showed an unexpected loss, during postnatal development and in the adult, of beta-galactosidase expression in several neural structures, including the neural retina, cerebellum, cortex, striatum, and hippocampus. These data support the conclusion that the NRSE not only plays a role in the silencing of L1 expression in nonneural tissues during early development but also can function as a silencer and an enhancer of L1 expression in the nervous system of postnatal and adult animals.
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PMID:The neural restrictive silencer element can act as both a repressor and enhancer of L1 cell adhesion molecule gene expression during postnatal development. 950 Dec 46


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