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)

Adenovirus type 5 was modified by coupling an asialoglycoprotein-polylysine conjugate to the virus by reactions that activate carbohydrate residues. Wild-type virus modified in this manner had greatly decreased infectivity toward normally susceptible HeLa S3 (asialoglycoprotein receptor (-)) and SK Hep1 (asialoglycoprotein receptor (-)) cells leaving 91 and 86% viable, respectively, after 48 h. However, with Huh 7 (asialoglycoprotein receptor (+)) cells, modified virus retained its infectivity leaving only 19% of cells viable under identical conditions. Modified virus was complexed to DNA in the form of a plasmid, pSVHBV surf, containing the gene for hepatitis B surface antigen as a marker of gene expression. Huh 7, receptor (+), cells treated with modified wild type, and modified replication-defective d1312 virus complexed to DNA raised antigen levels by approximately 13- and 30-fold, respectively, compared with asialoglycoprotein-polylysine DNA complex alone. Competition with a large excess of an asialoglycoprotein blocked the enhancement by more than 95%. Using a beta-galactosidase marker gene, the number of cells transfected by modified virus was found to be 200-fold higher than complex alone. Yet, specificity was retained exclusively for asialoglycoprotein receptor-bearing cells. These data indicate that adenovirus can be chemically modified by coupling ligands resulting in targeted gene expression dictated specifically by receptor recognition of the attached ligand.
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PMID:Incorporation of adenovirus into a ligand-based DNA carrier system results in retention of original receptor specificity and enhances targeted gene expression. 815 85

We previously developed a method for introducing foreign genes into liver tissue using liposomes with incorporated hemagglutinating virus of Japan (HVJ, Sendai virus), and found that liver cells transfected with the E. coli beta-galactosidase gene or the gene for hepatitis B virus (HBV) surface protein (HBsAg) expressed these proteins in vivo. Here, we analyzed cellular reactions leading to hepatitis in the liver by expressing the genes of HBV in vivo. Lymphocytes were eluted directly from liver transfected with the HBsAg genes and shown to be cytotoxic only to cells expressing HBsAg in vitro. These lymphocytes were identified as cytotoxic T lymphocytes with the CD4- CD8+ phenotype. Transfer of these lymphocytes to transgenic mice with the whole HBV genome led to elevation of the serum glutamic-pyruvic transaminase (SGPT) level, indicating the induction of hepatitis due to the cytotoxic T lymphocytes in vivo. Similarly, direct transfer of the gene for the HBV secretory core protein (HBeAg) induced expression of HBeAg in hepatocytes and the appearance of antibody against HBeAg in the serum. However, using this system, we found that the lymphocytes infiltrating the transfected liver showed no cytotoxicity specific for HBeAg. These results indicate that expression of HBsAg, one of the components of virions, in animal liver induced hepatitis efficiently through generation of specific cytotoxic T lymphocytes (CTL) without any expression of the other viral components. This in vivo experimental system should be useful for evaluating how expression of a given gene induces cellular reactions and intrinsic functions in the living body.
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PMID:Use of the hemagglutinating virus of Japan (HVJ)-liposome method for analysis of infiltrating lymphocytes induced by hepatitis B virus gene expression in liver tissue. 839 62

A simple yet powerful selection system was developed for the insertion of foreign genes in vaccinia virus. The selection system utilizes the vaccinia virus K1L (29K) host range gene which is located in HindIII M. This gene is necessary for growth in RK-13 cells but not in BSC40 or CV-1 cells. A vaccinia mutant (vAbT33) unable to grow on RK-13 cells was constructed having sequences at the 3' end of the K1L gene and the adjacent M2L gene deleted and replaced with the beta-galactosidase gene regulated by the BamHI F (F7L) promoter. A recombination plasmid containing the hepatitis B surface (HBs) antigen gene regulated by the M2L promoter and the complete sequence of the K1L gene was used to insert the HBs gene into vAbT33. The M2L negative K1L positive recombinant was easily isolated in two rounds of plaque purification by plating the virus on RK-13 cell monolayers. The K1L gene selection system allows the isolation of recombinants arising at frequencies as low as 1/100,000. It was noted that recombinants containing vaccinia sequence duplications (promoters) resulted in intragenomic recombinations that eliminated all sequences between the duplications. A second recombination plasmid was constructed that allowed insertion into the vaccinia genome without the loss of vaccinia coding sequences. This was achieved by insertion of the pseudorabies virus GIII gene regulated by the vaccinia H5R (40K) promoter between the translation and transcription stop signals at the 3' end of the K1L gene. The K1L gene transcription stop signal thus became the stop signal for the inserted GIII gene and an upstream transcription stop signal present in the H5R promoter fragment provided the stop signal for the K1L gene. This manipulation of the vaccinia genome had no effect on the accumulation or 5' end of the M2L gene transcripts. Although the insertion lengthened the 3' end and lowered the accumulation of K1L transcripts it altered neither the virulence nor the immunogenicity of the recombinant.
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PMID:Host range selection of vaccinia recombinants containing insertions of foreign genes into non-coding sequences. 842 36

We have systematically investigated the influence of mutations in the sigma(32) heat-shock transcription factor and the DnaK-DnaJ-GrpE and GroEL-GroES molecular chaperone machines on the folding of preS2-beta-galactosidase. This 120 kDa fusion protein between the hepatitis B surface antigen preS2 sequence and beta-galactosidase was synthesized in a highly soluble and enzymatically active form in wild-type Escherichia coli cells cultured at temperatures between 30 degrees C and 42 degrees C, but aggregated extensively in an rpoH165 (Am) mutant. Proper folding was partially restored upon co-overexpression of the dnaKJ operon, but not when the groE operon or dnaK alone were overproduced. The enzymatic activities in dnaK103, dnaJ259 and grpE280 mutants were 40-60% lower relative to a dnaK756 mutant or isogenic wild-type cells at 30 degrees C and 37 degrees C. At 42 degrees C, only 10-40% of the wild-type activity was present in each of the early-folding-factor mutants. Although the synthesis levels of preS2-beta-galactosidase were reduced in the dnaK103, dnaJ259 and grpE280 genetic backgrounds, aggregation was primarily responsible for the loss of activity when the cells were grown at 37 degrees C or 42 degrees C. By contrast, the groEL140, groES30 and groES619 mutations, which induced the aggregation of homodimeric ribulose bisphosphate carboxylase (Rubisco), did not affect the solubility of preS2-beta-galactosidase at temperatures up to 42 degrees C. Our results are discussed in terms of the current understanding of the E. coli protein-folding cascade. The potential usefulness of heat-shock protein mutants for the production of soluble proteins in an inclusion-body form is addressed.
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PMID:Protein folding in the cytoplasm of Escherichia coli: requirements for the DnaK-DnaJ-GrpE and GroEL-GroES molecular chaperone machines. 889 87

DNA-based immunization of mice by intramuscular injection of antigen-encoding plasmid DNA results in immune responses which may be sustained for extended periods of time without an antigen boost. For example, we have previously shown that a strong humoral response against hepatitis B virus surface antigen (HBsAg) will persist for up to 74 weeks following a single intramuscular administration of DNA. It has been proposed that the longevity of the response is due to sustained expression of antigen in transfected muscle cells. However, here we show by immunohistochemistry and electron microscopy that HBsAg-expressing muscle fibers are destroyed around 10 days after injection of DNA in mice. We have also evaluated destruction of the transfected muscle fibers indirectly, by measurement of luciferase activity in muscles at different times after injection of a luciferase reporter gene construct, alone or in combination with HBsAg-expressing DNA. Control muscles injected with luciferase-expressing DNA alone maintain expression of high levels of luciferase for at least 60 days. In contrast, muscles co-injected with DNAs expressing luciferase and a secreted form of HBsAg show high levels of luciferase activity at 5 days but > 99% of this is lost by 20 days. Similar results are obtained with co-expression of luciferase and beta-galactosidase, a non-secreted antigen. Loss of luciferase expression does not occur in muscles of mice with severe combined immunodeficiency, indicating that the myofiber destruction is immunologically mediated.
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PMID:Immune-mediated destruction of transfected muscle fibers after direct gene transfer with antigen-expressing plasmid DNA. 913 31

The position of the amino terminus of the hepatitis B virus core antigen (HBcAg) within the core particle was studied. For this purpose, three recombinant analogs of HBcAg were designed. One analog, HBcAgR, was identical in amino acid sequences to the core polypeptide of the hepatitis B virus; the second, HBeAgR, differed from the authentic protein in deletion of 39 carboxy-terminal amino acids. The amino acid sequences of the third polypeptide, HBe delta N and of HBeAgR were similar, HBe delta N differed from HBeAgR only in replacement of 3 N-terminal amino acids by 16 amino acids of beta-galactosidase. The HBcAg analogs were compared with respect to their reaction with monoclonal antibody (mAb E1A7) to the amino-terminal linear epitope of hepatitis B virus e antigen. Although able to assemble into virus-like particles, the three analogs of HBcAg, reacted differently with mAb E1A7. It was demonstrated that mAb E1A7 reacted with both native and denatured HBeAgR. HBe delta N was not recognized by mAb E1A7. In contrast, HBcAgR reacted with mAb E1A7 only when denatured. Native HBcAgR did not react with mAb E1A7 when assembled into particles. Thus evidence was obtained that the amino terminus of HBcAg is not exposed on the particle surface.
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PMID:Localization of the amino terminus of the hepatitis B virus core antigen within the core particle. 945 41

The Hepatitis B virus encodes the secreted e antigen (HBe) whose function in the viral life cycle is unknown. HBe derives from a 25-kDa precursor that is directed to the secretory pathway. After cleavage of the signal sequence, the resulting 22-kDa protein (P22) is processed in a post-endoplasmic reticulum compartment to mature HBe by removal of the 34-amino acid C-terminal domain. The efficiency of HBe secretion is specifically decreased in cells grown in the presence of tunicamycin, an inhibitor of N-glycosylation. Inasmuch as HBe precursor is not N-glycosylated, our data suggest that a cellular tunicamycin-sensitive protein increases the intracellular transport through the HBe secretory pathway. The study of the secretion of HBe derived from C-terminal-truncated precursors demonstrates that the tunicamycin-sensitive secretion absolutely requires a part of the C-terminal region that is removed to form mature HBe, indicating that the cellular tunicamycin-sensitive protein increases the efficiency of the intracellular transport of P22. We have also shown that the Escherichia coli beta-galactosidase can be secreted when fused to the HBe precursor signal sequence and that the P22 C-terminal domain renders the secretion of this reporter protein also tunicamycin-sensitive.
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PMID:The C terminus of the hepatitis B virus e antigen precursor is required for a tunicamycin-sensitive step that promotes efficient secretion of the antigen. 966 Aug 31

Dominant negative (DN) mutants of the hepadnaviral core protein are potent inhibitors of viral replication. We have previously shown that fusion of sequences derived from the duck hepatitis B virus (DHBV) polymerase (Pol), DHBV small surface protein (S), bacterial beta-galactosidase (lacZ), or green fluorescent protein (GFP) to the carboxy terminus of the DHBV core protein yields DN mutants that inhibit viral replication at the posttranslational level. To elucidate the mechanism(s) of their antiviral action, we analyzed the effect of the DN mutants on RNA pregenome packaging and nucleocapsid assembly. Core-Pol and core-S, but not core-lacZ or core-GFP, markedly interfered with RNA pregenome packaging. Nucleocapsid formation was not affected by any of the mutants. The DN core-GFP fusion protein formed mixed particles with wild-type core protein in the cytoplasm of cotransfected cells and interfered with reverse transcription of the viral pregenome. A subpopulation of chimeric nucleocapsids, however, was shown to overcome the block in DNA synthesis and produce mature viral DNA. Thus, at least 2 steps within the viral life cycle can be targeted by DN DHBV core proteins: 1) packaging of the viral pregenome; and 2) reverse transcription within mixed particles. The fact that some mixed particles retain replication competence demonstrates a high structural flexibility of nucleocapsids and indicates a possible mechanism of viral escape.
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PMID:Dominant negative mutants of the duck hepatitis B virus core protein interfere with RNA pregenome packaging and viral DNA synthesis. 1038 72

The major sporozoite surface antigen of Theileria annulata (SPAG-1) is a candidate for inclusion in a subunit vaccine. In this paper we summarize the results of 4 vaccination experiments using recombinant SPAG-1 expressed in different systems and presented in different adjuvants. The antigen has been presented as either a C terminal 108 amino acid peptide (called SR1) expressed as both beta-galactosidase and hepatitis B core antigen fusions or as a full-length form expressed as a GST fusion with an N terminal His6 tag. We used different adjuvants, namely Freund's, saponin, ISCOMs and a proprietary adjuvant supplied by SmithKline Beecham, which we call SKBA. The data point to the conclusion that SPAG-1 can elicit partial protection and is therefore suitable for inclusion in an eventual multicomponent subunit vaccine.
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PMID:Evaluation of recombinant sporozoite antigen SPAG-1 as a vaccine candidate against Theileria annulata by the use of different delivery systems. 1054 Mar 14

Hepatitis B virus (HBV) has a unique fourth open reading frame coding for a 16.5-kDa protein known as hepatitis B virus X protein (HBX). The importance of HBX in the life cycle of HBV has been well established, but the underlying molecular function of HBX remains controversial. We previously identified a proteasome subunit PSMA7 that interacts specifically with HBX in the Saccharomyces cerevisiae two-hybrid system. Here we demonstrate that PSMC1, an ATPase-like subunit of the 19 S proteasome component, also interacts with HBX and PSMA7. Analysis of the interacting domains among PSMA7, PSMC1, and HBX by deletion and site-directed mutagenesis suggested a mutually competitive structural relationship among these polypeptides. The competitive nature of these interactions is further demonstrated using a modified yeast two-hybrid dissociator system. The crucial HBX sequences involved in interaction with PSMA7 and PSMC1 are important for its function as a transcriptional coactivator. HBX, while functioning as a coactivator of AP-1 and acidic activator VP-16 in mammalian cells, had no effect on the transactivation function of their functional orthologs GCN4 and Gal4 in yeast. Overexpression of PSMC1 seemed to suppress the expression of various reporters in mammalian cells; this effect, however, was overcome by coexpression of HBX. In addition, HBX expression inhibited the cellular turnover of c-Jun and ubiquitin-Arg-beta-galactosidase, two well known substrates of the ubiquitin-proteasome pathway. Thus, interaction of HBX with the proteasome complex in metazoan cells may underlie the functional basis of proteasome as a cellular target of HBX.
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PMID:Structural and functional characterization of interaction between hepatitis B virus X protein and the proteasome complex. 1074 18


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