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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)
The best way to overcome immunorejection in heterologous myoblast transfer (HMT) is by the use of immunodeficient and/or highly immunosuppressed mice as hosts. The same may be attained by autologous myoblast transfer (AMT). In this paper, we describe myoblast transfer in mdx and normal mice where the donor myogenic cells originated from highly inbred litter mates that are considered to be isogenic and thus the procedure is analogous to AMT. The myoblasts were marked in vitro with Rous Sarcoma Virus (RSV)-luciferase (Lux) or RSV-
beta-galactosidase
(LacZ) reporter genes through transduction mediated by an autonomously replication-defective recombinant human adenovirus. This permitted us to follow their fate after transplantation. mdx and normal mice were irradiated with 20 Gray gamma rays; necrosis and regeneration were induced by intramuscular notexin prior to myoblast injection. In both mdx and normal mice, the expression of luciferase rapidly declined after the injection implying that a large portion of the injected myoblasts were lost by 48 hr, due to undetermined cause(s). The surviving, injected myoblasts well-mosaicized large groups of host fibers but only in the immediate vicinity of the injection. Substantial expression of the reporter gene continued up to 1 month post-transplantation in normal mice, but there was a gradual decline and eventual disappearance of the reporter gene expression in mdx mice. This latter phenomenon was due to the ongoing intense necrosis of muscle fibers in mdx. There was no evidence of immunorejection. These experiments indicate that even in the absence of immunorejection, myoblast transfer suffers from important negative features: major loss of myoblasts within 48 hr after the injection and lack of significant spread of the injected cells from the injection site in the host muscle. These factors, plus the limited proliferative and fusion capacity of Duchenne muscular dystrophy (DMD) myoblasts, make them less than an ideal vector for the dystrophin cDNA for
dystrophin gene
replacement therapy in DMD.
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PMID:Gene transfer into skeletal muscles by isogenic myoblasts. 794 44
The first three exons of the human muscle
dystrophin gene
were expressed as a
beta-galactosidase
fusion protein. This protein was then used to prepare two monoclonal antibodies (mAbs) which react with native dystrophin on frozen muscle sections and with denatured dystrophin on western blots but which do not cross-react with the dystrophin-related protein, utrophin. Both mAbs recognized dystrophin in muscular dystrophy (MD) patients with deletions of exon 3, and further mapping with 11 overlapping synthetic peptides showed that they both recognize an epitope encoded by the muscle-specific exon 1. Neither mAb recognizes the brain dystrophin isoform, confirming the prediction from mRNA data that this has a different N-terminus. One Becker MD patient with a frameshift deletion of exons 3-7 is shown to produce dystrophin which reacts with the N-terminal mAbs, as well as with mAbs which bind on the C-terminal side of the deletion. The data suggest that transcription begins at the normal muscle dystrophin promoter and that the normal reading frame is restored after the deletion. A number of mechanisms have been proposed for restoration of the reading frame after deletion of exons 3-7, but those which predict dystrophin with an abnormal N-terminus do not appear to be major mechanisms in this patient.
...
PMID:Monoclonal antibodies against the muscle-specific N-terminus of dystrophin: characterization of dystrophin in a muscular dystrophy patient with a frameshift deletion of exons 3-7. 831 78
C2 mouse myogenic cells carrying the lacZ gene coding for
beta-galactosidase
(beta-gal) were injected into the tibialis anterior muscle of dystrophin-deficient mdx mice. Introduced cells were shown to have been incorporated into fibres of the injected muscle by virtue of the colocalization of beta-gal and dystrophin within them. Synthetic Nuclepore membrane inserted between the injected tibialis anterior and adjacent extensor digitorum longus muscle permitted the visualization of cells migrating between the two muscles through the pores of the membrane. Although the exact nature of the cells passing through the Nuclepore could not be determined by this method, they were thought to include implanted myogenic cells. Evidence for this was gained by the presence of beta-gal/dystrophin positive fibres within the extensor digitorum longus. Incorporation of cells into the adjacent extensor digitorum longus was greater in animals where this muscle had been autografted by the cutting and resuturing of the distal tendon. Autografted extensor digitorum longi differed from those which had not been subject to this procedure, by undergoing extensive fibre degeneration followed by regeneration, and further by the stripping of their surrounding epimysial covering. Implanted cells substantially participated in extensor digitorum longus fibre formation in these mice, up to 31% of their fibres 3 weeks after implantation coexpressing both the introduced lacZ gene product and the
dystrophin gene
product, the latter not normally expressed within the fibres of this myopathic recipient.
...
PMID:Migration of lacZ positive cells from the tibialis anterior to the extensor digitorum longus muscle of the X-linked muscular dystrophic (mdx) mouse. 847 22
Golden retriever muscular dystrophy (GRMD) is an excellent model for the study of the efficacy of gene therapy in dystrophin deficient myopathies for there are many similarities between affected dogs and Duchenne muscular dystrophy (DMD) in boys. GRMD is not caused by deletion mutation but results from a point mutation in the consensus splice acceptor in intron 6 of the canine
dystrophin gene
. As a result exon 7 is skipped during processing of the GRMD dystrophin messenger RNA. We have developed a rapid test which makes direct use of exon 7 specific genomic PCR products. We have undertaken preliminary experiments on gene therapy using the mini-gene and the full length gene alone and in combination with lipofectin and/or the bacterial
beta-galactosidase
reporter gene Lac Z. Following direct injection of the Lac Z plasmid, either alone or with lipofectin, about 50% of the sites showed expression when biopsied some 14 days later. The
beta-galactosidase
activity was present in muscle and granulation tissue but was never abundant. Pups injected intraperitoneally with Lac Z were found to have positive material in their mesenteric lymph nodes, liver and spleen. Those injected with Lac Z and lipofectin also had positive material in the diaphragm, intercostal muscles and abdominal muscles, but again only a small amount of positive material was present at any of the sites. In animals directly injected into the muscle with the dystrophin mini-gene, half had positive staining for dystrophin in biopsies taken 14 days later. Of the 6 sites in the muscles of animals given the mini-gene and lipofectin only one had fibres positive for dystrophin when examined 14 days later. Six pups were injected directly with full-length gene construct and when biopsies were taken 10 days later two of the animals had strongly stained peripheries to a small number of fibres.
...
PMID:Use of the dog model for Duchenne muscular dystrophy in gene therapy trials. 926 46
During a gene trap screen, an insertion of the gene trap vector into the
dystrophin gene
, creating a new allele for the Dmd gene, has been discovered. Because the ROSA beta geo vector was used, the new allele is called Dmd(mdx-beta geo). The insertion occurred 3' of exon 63 of the
dystrophin gene
, resulting in a mutation that affects all presently known dystrophin isoforms. In contrast to spontaneous or ENU-induced alleles, Dmd(mdx-beta geo) can be used to follow dystrophin expression by staining for
beta-galactosidase
activity. The high sensitivity of this method revealed additional and earlier expression of dystrophin during embryogenesis than that seen previously with other methods. Dystrophin promoters are active predominantly in the dermamyotome, limb buds, telencephalon, floor plate, eye, liver, pancreas anlagen, and cardiovascular system. Adult Dmd(mdx-beta geo) mice show reporter gene expression in brain, eye, liver, pancreas, and lung. In skeletal and heart muscle,
beta-galactosidase
activity is not detectable, confirming Western blot data that indicate the absence of the mutant full-length protein in these tissues. Hemizygous Dmd(mdx-beta geo) mice show muscular dystrophy with degenerating muscle fibers, cellular infiltration, and regenerated muscle fibers that have centrally located nuclei. Some mutant animals develop a dilated esophagus, probably due to constriction by the hypertrophic crura of the diaphragm.
...
PMID:Dmd(mdx-beta geo): a new allele for the mouse dystrophin gene. 962 97
The
dystrophin gene
, which is defective in Duchenne muscular dystrophy (DMD), also encodes a number of smaller products controlled by internal promoters. Dp71, which consists of the two C-terminal domains of dystrophin, is the most abundant product of the gene in non-muscle tissues and is the major product in adult brain. To study the possible function of Dp71 and its expression during development, we specifically inactivated the expression of Dp71 by replacing its first and unique exon and a part of the concomitant intron with a
beta-galactosidase
reporter gene. X-Gal staining of Dp71-null mouse embryos and tissues revealed a very stage- and cell type-specific activity of the Dp71 promoter during development and during differentiation of various tissues, including the nervous system, eyes, limb buds, lungs, blood vessels, vibrissae and hair follicles. High activity of the Dp71 promoter often seemed to be associated with morphogenic events and terminal differentiation. In some tissues the activity greatly increased towards birth.
...
PMID:Targeted inactivation of Dp71, the major non-muscle product of the DMD gene: differential activity of the Dp71 promoter during development. 988 26
Patterns of dystrophin and
beta-galactosidase
expression were examined in mdx mice after i.m. injections of synthetic microspheres (MF-2) loaded with full-length (pHSADy) or mini-
dystrophin gene
(pSG5dys) cDNA plasmid constructs or with LacZ marker gene (pCMV-LacZ). A single injection of 25 microg pHSADy into quadriceps femoris muscle resulted in 6.8% of dystrophin positive myofibers (DPM) in a given muscle; 8.4% of DPM in glutaeus muscle and 4.3% of DPM in quadriceps femoris muscle of contralateral limb on day 21 after exposure compared with only 0.6% DPM in intact (non-injected) mdx mice. A high proportion of DPM (17.6% and 10.8%, respectively) was registered in both injected and contralateral muscles after mini- gene cDNA administration. MF-2/dystrophin cDNA particles were detected by FISH analysis in about 60-70% of myofiber nuclei in muscles of injected and contralateral limbs 7 days after application. The presence of human dystrophin cDNA and its products in all skeletal muscles and in different internal organs was proven by PCR and RT-PCR analysis. Patches of
beta-galactosidase
expression were abundant in injected muscle, and frequent in the contralateral and other skeletal muscles as well as in diaphragm, heart and lungs. High levels of dystrophin cDNA expression, and an efficient distant transfection effect with preferential intranuclei inclusion of MF-2 vehicle, are very encouraging for the development of a new constructive strategy in gene therapy trials of DMD.
...
PMID:Local and distant transfection of mdx muscle fibers with dystrophin and LacZ genes delivered in vivo by synthetic microspheres. 1046 65
The capacity of milk iron-transporting human protein lactoferrin (LF) to deliver genetic constructions into cells was studied in an effort to correct hereditary defects. The purified LF and LF conjugates containing either polylysine (C-1) or both polylysine and ficoll (C-2) were bound to plasmid DNA. These complexes were injected into mouse muscles, and the expression of the marker genes was tested immunochemically. Mice were transfected with either pDMD1 plasmid carrying a full-size cDNA for human
dystrophin gene
or pCMVLacZ plasmid carrying the gene of bacterial
beta-galactosidase
. The marker gene expression was detected in the muscular fibers. The dystrophin-positive muscular fibers (DPMF) were revealed in mdx mice (a model of Duchenne's dystrophy) in the regions of administration and in muscles of the other limbs. beta-Galactosidase activity was revealed only in the injected muscles. The highest amount of DPMF (9%) was recorded in mice who received the complex of DNA with nonmodified LF. Specific LF-mediated human transfection as a means of stimulating the receptor-mediated endocytosis of genetic constructions and addressed gene transfer to human muscles are discussed.
...
PMID:[Expression of marker genes in muscle fibers after transfection in vivo, mediated by lactoferrin]. 1092 56
Nonsense mutations in the
dystrophin gene
are the cause of Duchenne muscular dystrophy (DMD) in 10-15% of patients. In such an event, one approach to gene therapy for DMD is the use of suppressor tRNAs to overcome the premature termination of translation of the mutant mRNA. We have carried out cotransfection of the HeLa cell culture with constructs containing a suptRNA gene (pcDNA3suptRNA) and a marker LacZ gene (pNTLacZhis) using their polymer VSST-525 complexes. It was found that the number of cells producing
beta-galactosidase
depends inversely on the dose of the suptRNA gene. A single in vivo injection of the construct providing for expression of the suptRNAochre gene into mdx mouse muscle resulted in the production of dystrophin in 2.5% of fibers. This suggests that suppressor tRNAs are applicable in gene therapy for hereditary diseases caused by nonsense mutations.
...
PMID:[Suppression of nonsense mutations in the Dystrophin gene by a suppressor tRNA gene]. 1186 12
The ability to transfer the
dystrophin gene
stably to the skeletal muscle of DMD patients is a major confounding issue in establishing an effective gene therapy for this disease. To overcome this problem, we have examined the ability of muscle fibres from mdx mice to act as in situ factories of retroviral vector production. Tibialis anterior (TA) muscles from 4-week-old mdx mice were injected with an adenoviral vector expressing LacZ within a retroviral expression cassette (AdLZIN). Retroviral vector production was induced by the inclusion of two additional adenoviral vectors expressing retroviral gag-pol (AdGagPol) and 10A1 env genes (Ad10A1). Upon introduction of infected muscles into cell culture, colonies of
beta-galactosidase
-expressing myotubes formed only in cultures where the muscle was injected with AdLZIN, AdGagPol and Ad10A1, but not from muscle injected with AdLZIN only. Muscles from mdx/nude mice producing retroviral vector displayed a 4.6-fold increase in
beta-galactosidase
-positive myofibres after 1 month, compared with contralateral muscle in the same animal injected with AdLZIN and AdGagPol only. By constructing a hybrid adeno-retroviral vector expressing a truncated micro-dystrophin construct (AdmicroDyIN), we were able to partially correct the mdx dystrophic phenotype. AdmicroDyIN-mediated expression of micro-dystrophin in mdx TA muscle restored the formation of the dystrophin-associated glycoprotein complex and significantly reduced the level of muscle degeneration over uninjected controls. By stimulating in situ production of retroviral vector expressing micro-dystrophin, we achieved 92%+/-6% transduction of myofibres in the TA muscle by 4 weeks. Strikingly, by 3 months post injection, micro-dystrophin was still expressed to high levels in nearly all the myofibres of the TA muscle. By comparison, there was a pronounced drop in the levels of micro-dystrophin expressed by muscles injected with AdmicroDyIN only. Finally, using a novel PCR approach, we detected reverse-transcribed, integrated proviral sequences in TA muscle genomic DNA by 4 weeks post injection, the levels of which were found to increase after 3 months.
...
PMID:Stable micro-dystrophin gene transfer using an integrating adeno-retroviral hybrid vector ameliorates the dystrophic pathology in mdx mouse muscle. 1209 14
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