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)

Use of primary culture cells has been limited by the inability to purify most types of cells, particularly cells from early developmental stages. In whole animal cell sorting (WACS), live cells derived from animals harboring a lacZ transgene are purified according to their level of beta-galactosidase expression with a fluorogenic beta-galactosidase substrate and fluorescence-activated cell sorting. With WACS, incipient posterior compartment cells that express the engrailed gene were purified from early Drosophila embryos. Neuronal precursor cells were also purified, and they differentiated into neurons with high efficiency in culture. Because there are many lacZ strains, it may be possible to purify most types of Drosophila cells. The same approach is also applicable to other organisms for which germ-line transformation is possible.
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PMID:Whole animal cell sorting of Drosophila embryos. 189 82

The contribution deals with histochemical localization of alpha-glucosidase, beta-glucosidase, beta-galactosidase and beta-glucuronidase in the mesencephalon of fresh water turtle. These enzymes demonstrate strong activity in all the myelinated fibers. Neuronal elements of nucleus ruber, nucleus isthmi, torus semicircularis, third and fourth cranial nerve nuclei, nucleus profundus mesencephali etc. demonstrate variable activity. Interestingly enough, there is parallel localization of all these enzymes in nuclei and tracts of mesencephalon. Further, the pattern of phospholipids and neutral lipids localization is almost identical to that of glycosidases. Since lipids and carbohydrates are rich source of energy in the central nervous system, and these enzymes are involved in their breakdown, their possible role in nerve cells and fibers of mesencephalon of turtle has been discussed.
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PMID:Significance of glycosidases in lipid and carbohydrate metabolism II. Studies in the mesencephalon of fresh water turtle (Lissemys punctata). 681 15

We report neuropathologic findings for a 66-year-old Japanese man with adult/chronic GM1 gangliosidosis whose main clinical symptoms were speech and gait disturbance attributable to dystonia with rigidity. He was a homozygote for the 51isoleucine (ATC)-->threonine (ACC) mutation in the beta-galactosidase gene. Neuronal loss and intracytoplasmic storage were most prominent in the caudate nucleus and putamen and, to a lesser degree, in the amygdala, globus pallidus, and Purkinje cells in the cerebellum. Other areas of the CNS were relatively spared. We believe that this selective neuronal involvement in the CNS is characteristic of adult/chronic GM1 gangliosidosis and that it reflects a more active turnover of GM1 ganglioside in the affected areas than elsewhere in the CNS.
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PMID:Adult GM1 gangliosidosis: immunohistochemical and ultrastructural findings in an autopsy case. 799 Nov 29

Gene therapy may be a useful means of delivering substances to the brain that are capable of preventing neuronal degeneration. In the present experiment, we determined whether intraparenchymal transplants of primary autologous cells genetically modified to produce nerve growth factor (NGF) would prevent injury-induced degeneration of cholinergic neurons. Cultured primary monkey fibroblasts were genetically modified to produce human NGF, and secreted 13.2 ng NGF/10(6) cells/h in vitro. Adult monkeys then underwent fornix transections to induce degeneration of basal forebrain cholinergic neurons, and received autologous grafts of either NGF-producing or control, beta-galactosidase-producing fibroblasts directly into the basal forebrain region. One month later, 61.7 +/- 8.9% of cholinergic neurons remained indentifiable in NGF-graft recipients compared to 26.2 +/- 5.0% in control graft recipients (P < 0.02). Neuronal protection correlated with the accuracy of graft placement: up to 92% protection from neuronal degeneration occurred when NGF-secreting grafts were accurately placed immediately adjacent to injured neurons. Thus, intraparenchymal NGF delivery to the adult primate brain by gene transfer can prevent the degeneration of basal forebrain cholinergic neurons. Gene therapy can target intraparenchymal brain sites for regionally specific neurotrophin delivery, thereby avoiding limitations imposed by diffusion of substances across the blood-brain barrier and through CNS parenchyma, while avoiding adverse effects of neurotrophic factors delivered in a non-directed manner to the central nervous system. The delivery of NGF by gene transfer to the brain merits further study as a means of preventing cholinergic neuronal degeneration in human disorders such as Alzheimer's disease.
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PMID:Gene therapy in the adult primate brain: intraparenchymal grafts of cells genetically modified to produce nerve growth factor prevent cholinergic neuronal degeneration. 873 62

Neuronal signaling requires that synaptic proteins be appropriately localized within the cell and regulated there. In mammalian neurons, polyribosomes are found not just in the cell body, but also in dendrites where they are concentrated within or beneath the dendritic spine. The alpha subunit of Ca(2+)-calmodulin-dependent protein kinase II (CaMKII alpha) is one of only five mRNAs known to be present within the dendrites, as well as in the soma of neurons. This targeted subcellular localization of the mRNA for CaMKII alpha provides a possible cell biological mechanism both for controlling the distribution of the cognate protein and for regulating independently the level of protein expression in individual dendritic spines. To characterize the cis-acting elements involved in the localization of dendritic mRNA we have produced two lines of transgenic mice in which the CaMKII alpha promoter is used to drive the expression of a lacZ transcript, which either contains or lacks the 3'-untranslated region of the CaMKII alpha gene. Although both lines of mice show expression in forebrain neurons that parallels the expression of the endogenous CaMKII alpha gene, only the lacZ transcripts bearing the 3'-untranslated region are localized to dendrites. The beta-galactosidase protein shows a variable level of expression along the dendritic shaft and within dendritic spines, which suggests that neurons can control the local biochemistry of the dendrite either through differential localization of the mRNA or variations in the translational efficiency at different sites along the dendrite.
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PMID:The 3'-untranslated region of CaMKII alpha is a cis-acting signal for the localization and translation of mRNA in dendrites. 891 77

We generated neurotropic herpes simplex type 1 viruses expressing human placental alkaline phosphatase and studied the utility of this enzyme as a marker of infected neurons. The neurotropism of these viruses was assessed by their ability to infect sympathetic preganglionic neurons after adrenal injection in hamsters. The transneuronal transfer of these viruses was examined by their ability to cross the peripheral synapse from the kidney to renal preganglionic neurons or to cross the central synapse from the adrenal gland to the medulla oblongata. Finally, we injected an alkaline phosphatase-expressing herpes simplex virus into the adrenal gland and a beta-galactosidase-expressing herpes simplex virus (US5gal) into the muscular wall of the small intestine to label two neural circuits in one animal and to assess the feasibility of a dual-virus labelling system. The alkaline phosphatase gene was inserted into the glycoprotein J locus or the virus-induced host shut-off locus in the herpes simplex genome to create viruses which replicate (gJHAP HSV or vhsHAP HSV) or into the thymidine kinase locus to generate a virus that does not replicate in neurons in vivo (TK- HAP HSV). Each of the three viruses was retrogradely transported from the adrenal gland of hamsters to sympathetic preganglionic neurons, suggesting that the neurotropism of these viruses was maintained. gJHAP HSV travelled transneuronally from the kidney to sympathorenal preganglionic neurons and from the adrenal gland to neurons in the rostral ventrolateral medulla. Neuronal infection with alkaline phosphatase-expressing virus could be identified using histochemistry but detailed morphology of these neurons was not revealed. However, staining by anti-herpes simplex virus immunoperoxidase demonstrated that they had normal morphology. Identification of two distinct neural circuits in one animal was achieved with our dual-virus labelling system. The nonreplicating TK- HAP HSV was used in combination with US5gal to identify intestinal and adrenal sympathetic preganglionic neurons. The beta-galactosidase-expressing intestinal neurons were labelled bilaterally in the nucleus intermediolateralis, pars principalis, and alkaline phosphatase-expressing adrenal neurons were found ipsilaterally. Some clusters of sympathetic preganglionic neurons in the nucleus intermediolateralis, pars principalis contained mostly intestinal sympathetic preganglionic neurons and a few adrenal sympathetic preganglionic neurons. In other areas, the opposite pattern occurred. About 3-7% of the labelled sympathetic preganglionic neurons were double-labelled by both markers. The distinct and crisp morphology and dendritic processes of neurons stained by beta-galactosidase histochemistry contrasted with the partial staining of neurons by alkaline phosphatase, revealing beta-galactosidase as a better marker of infected neurons. In conclusion, alkaline phosphatase-expressing herpes simplex viruses are yet neurotropic after insertion of this marker enzyme into any of three different loci of the herpes simplex genome. One replicating alkaline phosphatase-expressing virus travelled transneuronally. These alkaline phosphatase-expressing herpes simplex virus can be used together with beta-galactosidase-expressing herpes simplex viruses to determine the target specificity of sympathetic preganglionic neurons controlling visceral organs or can be used to express two different recombinant genes in two targeted neuronal populations. This study suggests that sympathetic preganglionic neurons controlling the intestine and adrenal gland are almost completely distinct.
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PMID:Simultaneous identification of two populations of sympathetic preganglionic neurons using recombinant herpes simplex virus type 1 expressing different reporter genes. 946 44

Neuronal migration is an essential step in normal mammalian neocortical development, and the expression of defined cellular and molecular signals within the developing cortical microenvironment is likely crucial to this process. Therapy via transplanted or manipulated endogenous precursors for diseases which involve neuronal loss may depend critically on whether newly incorporated cells can actively migrate to repopulate areas of neuronal loss within the adult brain. Previous studies demonstrated that embryonic neurons and multipotent precursors transplanted into the neocortex of adult mice undergoing targeted apoptosis of pyramidal neurons migrate long distances into neuron-deficient regions, undergo directed differentiation, accept afferent synaptic input, and make appropriate long-distance projections. The experiments presented here: (1) use time-lapse digital confocal imaging of neuronal migration in living slice cultures to assess cellular mechanisms utilized by immature neurons during such long distance migration, and (2) identify changes within the host cortical astroglial population that may contribute to this migration. Prelabeled embryonic day 17 mouse neocortical neurons were transplanted into adult mouse primary somatosensory cortex undergoing targeted apoptotic degeneration of callosal projection neurons. Four to 7 days following transplantation, living slice cultures containing the region of transplanted cells were prepared and observed. Sequential time-lapse images were recorded using a video-based digital confocal microscope. Transplanted cells displayed bipolar morphologies characteristic of migrating neuroblasts and moved in a saltatory manner with mean rates of up to 14 microm/h. To investigate whether a permissive glial phenotype may provide a potential substrate for this directed form of neuronal migration, slice cultures were immunostained with the RC2 monoclonal antibody, which identifies radial glia that act as a substrate for neuronal migration during corticogenesis. RC2 does not label mature stellate astrocytes, which express glial fibrillary acidic protein (GFAP). RC2 expression was observed in glial cells closely apposed to migrating donor neurons within the slice cultures. The timing and specificity of RC2 expression was examined immunocytochemically at various times following transplantation. RC2 immunostaining within regions of neuronal degeneration was transient, with peak staining between 3 and 7 days following transplantation. Strongly RC2-immunoreactive cells that did not express GFAP were found within these regions, but not in distant cortical regions or within control brains. RC2-positive cells were identified in recipient transgenic mice which express beta-galactosidase under a glial specific promoter. Coexpression of RC2 and beta-galactosidase identified these cells as host astroglia. These results demonstrate that adult cortical astrocytes retain the capacity to reexpress an earlier developmental phenotype that may partially underlie the observed active migration of transplanted neurons and neural precursors. Further understanding of these processes could allow directed migration of transplanted or endogenous precursors toward therapeutic cellular repopulation and complex circuit reconstruction in neocortex and other CNS regions.
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PMID:Mature astrocytes transform into transitional radial glia within adult mouse neocortex that supports directed migration of transplanted immature neurons. 1022 7

To investigate the effect of murine cytomegalovirus (MCMV) infection on the developing mouse brain in vitro, we developed an infection system using cerebral slice cultures. Using a micromanipulator, the cerebral slices from mouse embryos on day 18.5 of gestation were injected in the subventricular zone with recombinant MCMV in which the lacZ gene was inserted into a late gene, and were cultured for 7 days. Viral infection, detected by beta-galactosidase reaction, was developed at the injection sites of the slices. The virus-infected spots in the slices were enhanced by adding tumor necrosis factor-alpha to the medium and inhibited by adding phosphonoacetic acid or ganciclovir. Sections from paraffin-embedded slices were subjected to immunohistochemical analyses. Neuronal cells, labeled with 5-bromo-2-deoxyuridine 24 h before cutting the slices, migrated to the cerebral cortex in the slices. Virus-infected neuronal cells expressing only the early viral antigen migrated to the cortex, whereas glial cells expressing the immediate early and late antigens tended to remain at the injected sites. The neuronal migration of infected cells was not observed in the cerebral slices from 7-day-old mice and viral infection was not detected after injection in the cerebral slices from 14- and 21-day-old mice. These results from these cerebral slices may reflect the infectious dynamics in vivo, and this system may provide a useful model for analysis of disorders of brain development caused by CMV.
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PMID:Migration of virus-infected neuronal cells in cerebral slice cultures of developing mouse brains after in vitro infection with murine cytomegalovirus. 1060 34

Neuronal nitric oxide synthase (nNOS) plays a modulatory role in the biology of a variety of neuroendocrine tissues and is especially relevant to gonadal function. We have previously reported the cloning and characterization of a variant of the nNOS protein, termed testis nNOS (TnNOS), the mRNA for which was restricted in expression to male gonadal tissues. To examine the cell-specificity of the testis-specific NOS regulatory regions we defined patterns of beta-galactosidase expression of an insertional transgene in which the reporter gene lacZ was under the transcriptional control of the human TnNOS promoter. beta-galactosidase activity was detected exclusively in the interstitial cells of the testis in transgenic mice. These cells also evidenced positive staining for nNOS protein and were identified as androgen-producing Leydig cells by staining with the Leydig cell marker, P(450)scc. Expression of the promoter was absent in cells of the seminiferous tubules, specifically germline cells of different stages and Sertoli cells. In contrast to the male gonad, beta-galactosidase activity was not detected in ovaries of adult female mice. Activity was also not evident in organs known to express full-length nNOS, such as skeletal muscle, kidney, or cerebellum. The same pattern of beta-galactosidase staining was observed in independent transgenic founders and was distinct from that observed for an endothelial NOS promoter/reporter transgene. In the testis of male adult eNOS promoter-reporter transgenic mice, beta-galactosidase activity was expressed only in endothelial cells of large- and medium-sized arterial blood vessels. Transcriptional activity of the human TnNOS promoter could not be detected in a variety of cell types, including Leydig cells, using episomal promoter-reporter constructs suggesting that a nuclear environment and higher order genomic complexity are required for appropriate promoter function. The restricted expression pattern of an nNOS variant in Leydig cells of the male gonad suggests an important role in the regulation of testosterone release and represents an intriguing model with which to dissect the molecular basis of Leydig cell-specific gene expression.
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PMID:An alternative promoter of the human neuronal nitric oxide synthase gene is expressed specifically in Leydig cells. 1178 30

Nutrient deprivation during ischemia leads to severe insult to neurons causing widespread excitotoxic damage in specific brain regions such as the hippocampus. One possible strategy for preventing neurodegeneration is to express therapeutic proteins in the brain to protect against excitotoxicity. We investigated the utility of equine infectious anemia virus (EIAV)-based vectors as genetic tools for delivery of therapeutic proteins in an in vivo excitotoxicity model. The efficacy of these vectors at preventing cellular loss in target brain areas following excitotoxic insult was also assessed. EIAV vectors generated to overexpress the human antiapoptotic Bcl-2 or growth factor glial-derived neurotrophic factor (GDNF) genes protected against glutamate-induced toxicity in cultured hippocampal neurons. In an in vivo excitotoxicity model, adult Wistar rats received a unilateral dose of the glutamate receptor agonist N-methyl-D-aspartate to the hippocampus that induced a large lesion in the CA1 region. Neuronal loss could not be protected by prior transduction of a control vector expressing beta-galactosidase. In contrast, EIAV-mediated expression of Bcl-2 and GDNF significantly reduced lesion size thus protecting the hippocampus from excitotoxic damage. These results demonstrate that EIAV vectors can be effectively used to deliver putative neuroprotective genes to target brain areas and prevent cellular loss in the event of a neurological insult. Therefore these lentiviral vectors provide potential therapeutic tools for use in cases of acute neurotrauma such as cerebral ischemia.
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PMID:Lentiviral-mediated delivery of Bcl-2 or GDNF protects against excitotoxicity in the rat hippocampus. 1558 9


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