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Target Concepts:
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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)
Hepatitis C virus (HCV) is a major human pathogen causing mild to severe liver disease worldwide. This positive strand RNA virus is remarkably efficient at establishing chronic infections. Although a high rate of genetic variability may facilitate viral escape and persistence in the face of Ag-specific immune responses, HCV may also encode proteins that facilitate evasion of immunological surveillance. To address the latter possibility, we examined the influence of specific HCV gene products on the host immune response to vaccinia virus in a murine model. Various vaccinia/HCV recombinants expressing different regions of the HCV polyprotein were used for i.p. inoculation of BALB/c mice. Surprisingly, a recombinant expressing the N-terminal half of the polyprotein (including the structural proteins, p7, NS2, and a portion of
NS3
; vHCV-S) led to a dose-dependent increase in mortality. Increased mortality was not observed for a recombinant expressing the majority of the nonstructural region or for a negative control virus expressing the
beta-galactosidase
protein. Examination of T cell responses in these mice revealed a marked suppression of vaccinia-specific CTL responses and a depressed production of IFN-gamma and IL-2. By using a series of vaccinia/HCV recombinants, we found that the HCV core protein was sufficient for immunosuppression, prolonged viremia, and increased mortality. These results suggest that the HCV core protein plays an important role in the establishment and maintenance of HCV infection by suppressing host immune responses, in particular the generation of virus-specific CTLs.
...
PMID:Suppression of host immune response by the core protein of hepatitis C virus: possible implications for hepatitis C virus persistence. 991 17
Noncytopathic replicons of the flavivirus Kunjin (KUN) were employed for expression and delivery of heterologous genes. Replicon vector C20DX2Arep, containing a unique cloning site followed by the sequence of 2A autoprotease of foot-and-mouth disease virus, was constructed and used for expression of a number of heterologous genes including chloramphenicol acetyltransferase (CAT), green fluorescent protein (GFP),
beta-galactosidase
, glycoprotein G of vesicular stomatitis virus, and the Core and
NS3
genes of hepatitis C virus. The expression and proper processing of these genes upon transfection of BHK21 cells with the recombinant replicon RNAs were demonstrated by immunofluorescence, radioimmunoprecipitation, and appropriate reporter gene assays. Most of these recombinant KUN replicon RNAs were also successfully packaged into secreted virus-like particles (VLPs) by subsequent transfection with Semliki Forest virus replicon RNA expressing KUN structural genes. Infection of BHK21 and Vero cells with these VLPs resulted in continuous replication of the recombinant replicon RNAs and prolonged expression of the cloned genes without any cytopathic effect. We also developed a replicon vector for generation of stable cell lines continuously expressing heterologous genes by inserting an encephalomyelocarditis virus internal ribosomal entry site-neomycin transferase gene cassette into the 3'-untranslated region of the C20DX2Arep vector. Using this vector (C20DX2ArepNeo), stable BHK cell lines persistently expressing GFP and CAT genes for up to 17 passages were established. Thus noncytopathic KUN replicon vectors with the ability to be packaged into VLPs should provide a useful tool for the development of noninfectious and noncytopathic vaccines as well as for gene therapy applications.
...
PMID:Noncytopathic flavivirus replicon RNA-based system for expression and delivery of heterologous genes. 1006 62
Infection with Japanese encephalitis virus (JEV), a mosquito-borne flavivirus, may cause acute encephalitis in humans and induce severe cytopathic effects in various types of cultured cells. We observed that JEV replication rendered infected baby hamster kidney (BHK-21) cells sensitive to the translational inhibitor hygromycin B or alpha-sarcine, to which mock-infected cells were insensitive. However, little is known about whether any JEV nonstructural (NS) proteins contribute to virus-induced changes in membrane permeability. Using an inducible Escherichia coli system, we investigated which parts of JEV NS1 to NS4 are capable of modifying membrane penetrability. We found that overexpression of NS2B-
NS3
, the JEV protease, permeabilized bacterial cells to hygromycin B whereas NS1 expression failed to do so. When expressed separately, NS2B alone, but not
NS3
, was sufficient to alter bacterial membrane permeability. Similarly, expression of NS4A or NS4B also rendered bacteria susceptible to hygromycin B inhibition. Examination of the effect of NS1 to NS4 expression on bacterial growth rate showed that NS2B exhibited the greatest inhibitory capability, followed by a modest repression from NS2A and NS4A, whereas NS1,
NS3
, and NS4B had only trivial influence with respect to the vector control. Furthermore, when cotransfected with a reporter gene luciferase or
beta-galactosidase
, transient expression of NS2A, NS2B, and NS4B markedly reduced the reporter activity in BHK-21 cells. Together, our results suggest that upon JEV infection, these four small hydrophobic NS proteins have various modification effects on host cell membrane permeability, thereby contributing in part to virus-induced cytopathic effects in infected cells.
...
PMID:Membrane permeabilization by small hydrophobic nonstructural proteins of Japanese encephalitis virus. 1040 Jul 16
Our research is directed towards enhancing the understanding of the molecular biology of dengue virus replication with the ultimate goal being to develop novel antiviral strategies based on preventing critical inter- or intra-molecular interactions required for the normal virus life cycle. The viral RNA-dependent RNA polymerase (NS5) and the viral helicase (
NS3
) interaction offers a possible target for inhibitors to bind and prevent replication. In this study the yeast-two hybrid system was used to show that a small region of NS5 interacts with
NS3
, and also with the cellular nuclear transport receptor importin-beta. Furthermore, intramolecular interaction between the two putative domains of NS5 can also be detected by the yeast two-hybrid assay. We have also modified the colony lift assay for the
beta-galactosidase
reporter activity in intact yeast cells which reflects the strength of interaction between two proteins to a microtiter plate format. This assay offers a unique opportunity to screen for small molecule compounds that block physiologically important interactions.
...
PMID:Characterisation of inter- and intra-molecular interactions of the dengue virus RNA dependent RNA polymerase as potential drug targets. 1134 63
The Lepidopteran densovirus-derived vector, pJlacZDeltaNS3, is a defective virus genome with an insertion of lacZ DNA in the viral structural protein coding sequence, and a deletion of the sequence coding the non-structural polypeptide
NS3
. pJlacZDeltaNS3 was injected into Drosophila eggs and the maintenance of the viral genome was monitored by expression of
beta-galactosidase
and by Southern blot hybridizations. Intense
beta-galactosidase
activity was observed in many somatic tissues of third-instar larvae and adult flies, in more than 60% of the injected animals. DNA analyses showed that staining in adult tissues correlated with the amplification of the vector. Together, these results suggest the occurrence of early events of integration of the vector into the Drosophila host genome.
...
PMID:High amplification of a densovirus-derived vector in larval and adult tissues of Drosophila. 1143 19
We have previously reported successful trans-complementation of defective Kunjin virus genomic RNAs with a range of large lethal deletions in the nonstructural genes NS1,
NS3
, and NS5 (A. A. Khromykh et al., J. Virol. 74:3253-3263, 2000). In this study we have mapped further the minimal region in the NS5 gene essential for efficient trans-complementation of genome-length RNAs in repBHK cells to the first 316 of the 905 codons. To allow amplification and easy detection of complemented defective RNAs with deletions apparently affecting virus assembly, we have developed a dual replicon complementation system. In this system defective replicon RNAs with a deletion(s) in the nonstructural genes also encoded the puromycin resistance gene (PAC gene) and the reporter gene for
beta-galactosidase
(beta-Gal). Complementation of these defective replicon RNAs in repBHK cells resulted in expression of PAC and beta-Gal which allowed establishment of cell lines stably producing replicating defective RNAs by selection with puromycin and comparison of replication efficiencies of complemented defective RNAs by beta-Gal assay. Using this system we demonstrated that deletions in the C-terminal 434 codons of
NS3
(codons 178 to 611) were complemented for RNA replication, while any deletions in the first 178 codons were not. None of the genome-length RNAs containing deletions in
NS3
shown to be complementable for RNA replication produced secreted defective viruses during complementation in repBHK cells. In contrast, structural proteins produced from these complemented defective RNAs were able to package helper replicon RNA. The results define minimal regions in the
NS3
and NS5 genes essential for the formation of complementable replication complex and show a requirement of
NS3
in cis for virus assembly.
...
PMID:Complementation analysis of the flavivirus Kunjin NS3 and NS5 proteins defines the minimal regions essential for formation of a replication complex and shows a requirement of NS3 in cis for virus assembly. 1236 19
Due to the hypervariable character of hepatitis C virus (HCV), 5 conserved T and/or B cell epitopes from core, envelope,
NS3
and NS5 protein of HCV were chosen to form a 270 bp multi-epitopes antigen gene. The gene was clone into a fusion vector pWR450-1 to express a
beta-galactosidase
-HCV hybrid protein GZ-PCX. The purified GZ-PCX protein was specifically recognized by human anti-HCV antibodies. These results show that the HCV hybrid multi-epitopes antigen has excellent immunogenicity, which might be able to be used as an effective diagnosis agent and to provide protectivity to any genotype of HCV which might partly solve the problems in the researches of HCV vaccines.
...
PMID:[Expression of a HCV multi-epitopes antigen gene and study on its immunogenicity]. 1255 46
We have developed a genetic system to monitor the activity of the hepatitis C virus (HCV)
NS3
serine protease. This genetic system is based on the bacteriophage lambda regulatory circuit where the viral repressor cI is specifically cleaved to initiate the switch from lysogeny to lytic infection. An HCV protease-specific target, NS5A-5B, was inserted into the lambda phage cI repressor. The target specificity of the HCV NS5A-5B repressor was evaluated by coexpression of this repressor with a
beta-galactosidase
(betagal)-HCV
NS3
(2-181)/4(21-34) protease construct. Upon infection of Escherichia coli cells containing the two plasmids encoding the cI.HCV5AB-cro and the betagal-HCV
NS3
(2-181)/4(21-34) protease constructs, lambda phage replicated up to 8,000-fold more efficiently than in cells that did not express the HCV
NS3
(2-181)/4(21-34) protease. This simple, rapid, and highly specific assay can be used to monitor the activity of the HCV
NS3
serine protease, and it has the potential to be used for screening specific inhibitors.
...
PMID:Genetic screen for monitoring hepatitis C virus NS3 serine protease activity. 1270 56
Hepatitis C virus (HCV) infection is a major world-wide health problem causing chronic hepatitis, liver cirrhosis and primary liver cancer. The high frequency of treatment failure points to the need for more specific, less toxic and more active antiviral therapies for HCV. The HCV
NS3
is currently regarded as a prime target for anti-viral drugs, thus specific inhibitors of its activity are of utmost importance. Here, we report the development of a novel bacterial genetic screen for inhibitors of
NS3
catalysis and its application for the isolation of single-chain antibody-inhibitors. Our screen is based on the concerted co-expression of a reporter gene, of recombinant
NS3
protease and of fusion-stabilized single-chain antibodies (scFvs) in Escherichia coli. The reporter system had been constructed by inserting a short peptide corresponding to the NS5A/B cleavage site of
NS3
into a permissive site of the enzyme
beta-galactosidase
. The resulting engineered lacZ gene, coding for an
NS3
-cleavable
beta-galactosidase
, is carried on a low copy plasmid that also carried the
NS3
protease-coding sequence. The resultant
beta-galactosidase
enzyme is active, conferring a Lac+ phenotype (blue colonies on indicator 5-bromo-4-chloro-3-indolyl beta-D-galactoside (X-gal) plates), while induction of
NS3
expression results in loss of
beta-galactosidase
activity (transparent colonies on X-gal plates). The identification of inhibitors, as shown here by isolating
NS3
-inhibiting single-chain antibodies, expressed from a compatible high copy number plasmid, is based on the appearance of blue colonies (
NS3
inhibited) on the background of colorless colonies (
NS3
active). Our source of inhibitory scFvs was an scFv library that we prepared from spleens of
NS3
-immunized mice and subjected to limited affinity selection. Once isolated, the inhibitors were validated as genuine and specific
NS3
binders by an enzyme-linked immunosorbent assay and as bone fide
NS3
serine protease inhibitors by an in vitro catalysis assay. We further show that upon expression as cytoplasmic intracellular antibodies (intrabodies) in
NS3
-expressing mammalian cells, three of the scFvs inhibit
NS3
-mediated cell proliferation. Although applied here for the isolation of antibody-based inhibitors, our genetic screen should be applicable for the identification of candidate inhibitors from other sources.
...
PMID:HCV NS3 serine protease-neutralizing single-chain antibodies isolated by a novel genetic screen. 1578 58
The need for inhibitors for enzymes linked with microbial infection, specifically the
NS3
protease of hepatitis C virus (HCV), inspired us to develop a unique, rapid and easy color-based method described herein. The
NS3
serine protease of HCV has a role in processing viral polyprotein and it has been implicated in interactions with various cell constituents, resulting in phenotypic changes including malignant transformation.
NS3
is currently regarded a prime target for antiviral drugs.We established a genetic screen that is based on coexpression of
NS3
, a
beta-galactosidase
reporter that is cleavable by
NS3
, and potential inhibitors within the same bacterial cell. A single-chain antibody (scFv) library was prepared from spleens of
NS3
-immunized mice and the screen was used to isolate a panel of protease-inhibiting scFvs. Candidate scFvs were validated for inhibitory activity using an o-nitrophenyl-beta-galactoside (ONPG) hydrolysis assay.The methods can be used more generally to isolate protease-inhibiting cytoplasmic intrabodies able to inhibit proteases or other activities that can be linked with the phenotype of Escherichia coli.
...
PMID:Isolation of scFvs that inhibit the NS3 protease of hepatitis C virus by a combination of phage display and a bacterial genetic screen. 1955 91
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