Truncating the putative membrane association region circumvents the difficulty of expressing hepatitis C virus protein E1 in Escherichia coli

The putative E1 of hepatitis C virus (HCV) was expressed in Escherichia coli using a glutathione-S-transferase (GST) fusion protein system. The full length E1 protein is difficult to express. A series of E1 DNA fragments was generated and used for expression vector construction. Fusion proteins containing the E1 C-terminal region could not be expressed. When this region was truncated, the fusion proteins were synthesized to high levels. The possibility of this C-terminal region hampering the production of fusion protein was further explored. A construct with this segment directly fused to the C-terminus of GST indeed generated no detectable recombinant protein. According to the predicted structure of E1, this region may have membrane-associating properties. The expression results suggest a general approach to facilitate the production of viral membrane proteins in prokaryotes. Furthermore, these recombinant E1 proteins generated as antigens were used for Western blotting with sera from HCV-infected individuals. It was found that E1 is antigenic during HCV natural infection.     

Antibodies against the C2 COOH-terminal region discriminate the active and latent forms of the multicatalytic proteinase complex

The mouse cDNA homologues of the rat C2, C9, and C5 subunits of the multicatalytic proteinase have been cloned and expressed in bacteria. The respective recombinant proteins were purified and used to produce specific anti-subunit antibodies. Immunoblotting of two-dimensional gels of purified rat liver multicatalytic proteinase showed that the C2 (32-kDa) and C9 (29-kDa) polypeptides are resolved into three and two isoelectric variants, respectively, likely due to post-translational modifications, i.e. phosphorylation, and the presence of two anti-C5 reacting polypeptides (25.5 and 23 kDa). Epitope mapping of the anti-C2-specific antibody with different constructs of the recombinant C2 protein allowed us to determine that one major epitope of this anti-C2 antibody is located within the last 9-11 amino acids of the C2 polypeptide. Affinity purified antibodies directed against the C2 COOH-terminal were able to discriminate the active and latent forms of the multicatalytic proteinase, supporting the conclusion that the C2 protein found in the active form of the enzyme is a polypeptide of 28 kDa, produced by the loss, at least, of the last 9-13 amino acids (DEPAEKADEPMEH) of the intact C2 (32-kDa) component. By in vitro treatment of the latent form of the enzyme with elastase, we show the conversion of the C2 (32-kDa) component to a 28-kDa protein with loss of recognition by the anti-C2 COOH-terminal affinity purified antibodies, but this limited degradation of the C2 component did not have any significant effect on the proteolytic activity (assayed with myelin basic protein and fluorogenic peptides) of the multicatalytic proteinase. It is suggested that the proteolytic cleavage of the C2 COOH-terminal region may be involved in the regulation of the interaction of the multicatalytic proteinase with other cellular proteins and/or in the translocation of the complex to the nucleus.     

Limited humoral immunity in hepatitis C virus infection

BACKGROUND & AIMS: The extremely high rate of chronicity to hepatitis C virus (HVC) infection suggests an inefficient immune response. The humoral immune response to HCV was evaluated in 60 patients with chronic HCV infection and in 12 patients acutely infected with HCV. METHODS: A number of recombinant HCV antigens including the core, envelope 2 (E2), nonstructural (NS) 3, NS4, and NS5 proteins, and NS4a and E2-HVR-1 peptides were used in enzyme-linked immunoassays. RESULTS: Immunoglobulin (Ig) G antibody responses to these viral antigens, except for the HCV core, were highly restricted to the IgG1 isotype. The prevalence of antibodies of the IgG1 isotype specific for the HCV core, E2, E2-HVR1, NS3 (helicase domain), NS4, and NS5 antigens was 97%, 98%, 28%, 88%, 33%, and 68%, respectively. Antibodies of the IgG3 isotype specific for E2, E2-HVR-1, NS3, NS4, and NS5 were detected in a minority of serum samples. The IgG2 and IgG4 isotypes were rarely if ever detected. Furthermore, antibody responses to HCV viral antigens were of relatively low titer and, with the exception of anti-HCV core, were delayed in appearance until the chronic phase of infection. CONCLUSIONS: The IgG1 restriction, low titer, and delayed appearance of antibody responses elicited during HCV infection suggest that the immunogenicity of HCV proteins is limited in the context of natural infection. Inasmuch as recombinant HCV viral antigens perform as relatively normal immunogens in small animals, we suggest that the defective humoral immune responses during HCV infection may be attributable to an "immune avoidance" strategy.     

Hepatitis C virus c100 antigen in liver tissue from patients with acute and chronic infection

A pool of murine monoclonal antibodies developed against c100 antigen, a hepatitis C virus-associated protein encoded by the NS3/NS4 virus genome, was used to detect hepatitis C virus in liver biopsy specimens from patients with acute and chronic hepatitis C virus infection. The antigen was present in the cytoplasm of liver cells only. The immunoreactive signal appeared as large, distinct, brilliant fluorescent granules with no clear relationship to cellular structures. No obvious membrane c100 antigen accumulation was observed. Distribution of c100-containing hepatocytes was directly correlated with viral replication in acute hepatitis. All three acute-hepatitis patients were positive for hepatitis C virus RNA (as detected on polymerase chain reaction) in serum and displayed c100 antigen in 50% to 70% of hepatocytes, with a distinct topographical relationship with necrotic areas and inflammatory cell accumulation. Conversely, very low numbers of infected cells and no relationship between tissue c100 antigen expression and sites of liver cell necrosis and inflammation were found in 14 chronic hepatitis C virus infection patients. Furthermore, though all patients had measurable levels of serum hepatitis C virus RNA, only eight (57%) had detectable c100 antigen in liver sections. Indeed, these two distinct immunopathological patterns were inversely related to the development of c100 antibody in serum. Specificity of hepatocellular c100 antigen deposits was established through extensive absorption experiments using structural and nonstructural hepatitis C virus recombinant proteins. However, tissue processing was found to be a crucial step in the demonstration of hepatitis C virus antigen in fresh frozen liver tissue.(ABSTRACT TRUNCATED AT 250 WORDS)     

Functional role of hepatitis C virus chimeric glycoproteins in the infectivity of pseudotyped virus

The putative envelope glycoproteins of hepatitis C virus (HCV) likely play an important role in the initiation of viral infection. Available information suggests that the genomic regions encoding the putative envelope glycoproteins, when expressed as recombinant proteins in mammalian cells, largely accumulate in the endoplasmic reticulum. In this study, genomic regions which include the putative ectodomain of the E1 (amino acids 174 to 359) and E2 (amino acids 371 to 742) glycoproteins were appended to the transmembrane domain and cytoplasmic tail of vesicular stomatitis virus (VSV) G protein. This provided a membrane anchor signal and the VSV incorporation signal at the carboxy termini of the E1 and E2 glycoproteins. The chimeric gene constructs exhibited expression of the recombinant proteins on the cell surface in a transient expression assay. When infected with a temperature-sensitive VSV mutant (ts045) and grown at the nonpermissive temperature (40.5 degrees C), cells transiently expressing the E1 or E2 chimeric glycoprotein generated VSV/HCV pseudotyped virus. The resulting pseudotyped virus generated from E1 or E2 surprisingly exhibited the ability to infect mammalian cells and sera derived from chimpanzees immunized with the homologous HCV envelope glycoproteins neutralized pseudotyped virus infectivity. Results from this study suggested a potential functional role for both the E1 and E2 glycoproteins in the infectivity of VSV/HCV pseudotyped virus in mammalian cells. These observations further suggest the importance of using both viral glycoproteins in a candidate subunit vaccine and the potential for using a VSV/HCV pseudotyped virus to determine HCV neutralizing antibodies.     

High molecular weight protein phosphatase type 1 dephosphorylates the retinoblastoma protein

pRb controls cell proliferation by restricting inappropriate entry of cells into the cell division cycle. As dephosphorylation of pRb during mitotic exit activates its growth suppressive function, identification of the protein phosphatase that dephosphorylates pRb, and characterization of the mechanism of its regulation, are essential to elucidating the mechanisms of cell growth control. By fractionating mitotic CV-1P cell extracts, we identify the protein phosphatase which dephosphorylates pRb as a type 1 serine/threonine phosphoprotein phosphatase (PP1). Molecular sizing analyses indicate that the catalytic enzyme (PP1c) is present in a high molecular weight complex, with a predicted molecular mass of 166 kDa. PP1-interacting proteins in the mitotic cell extracts are identified. Two PP1-interacting proteins (41 and 110 kDa) are shown to form distinct complexes with PP1c from fractions of separated mitotic cell extracts containing phosphorylase phosphatase activity. However, only the 110-kDa PP1-interacting protein is present in fractions containing pRb-directed phosphatase activity, identifying this protein as a putative activator of PP1 function toward pRb during mitosis.     

An ELISA for the detection of antibody to the core antigen of hepatitis C virus: use in diagnosis and analysis of indeterminate samples

AIMS: In order to examine more carefully the natural history of hepatitis C virus infection and to determine a role for anti-core in the discrimination of indeterminate samples, a solid phase ELISA to detect antibody of the immunoglobulin G class to the hepatitis C virus core antigen was developed using purified protein expressed in Escherichia coli from a major portion of the core antigen coding region. METHODS/RESULTS: In a study which examined 651 samples submitted for routine testing by a commercial ELISA (Ortho), only 11 samples showed discrepant results; of these, 10 were Ortho ELISA positive, anti-core negative and one was Ortho ELISA negative anticore positive. Supplemental tests showed that 5/10 of these samples were anti-HCV negative by RIBA and the reciprocal 5 were negative for anti-C22 but positive for anti-C100 and anti-C33. The Ortho ELISA negative, anticore positive sample was weakly positive for anti-C22. The anti-core ELISA was then used to examine 67 indeterminate samples from the blood bank; 11/11 samples which were HCV-RNA positive were anti-core positive and 7/56 samples which were HCV-RNA negative were anti-core positive. The anti-core titre was then examined in two groups of indeterminate samples; group 1, polymerase chain reaction-positive, anti-core positive and group 2, polymerase chain reaction-negative, anti-core positive. The geometric mean anti-core titres in these groups were 1 x 10(-3.6) and 1 x 10(-2.3), respectively. Thus in this group of indeterminate samples, all samples (except one) with an anti-core titre > or = 1/200 were polymerase chain reaction-positive, confirming a close correlation between anti-core levels and hepatitis C viraemia. Anti-core was detected with equal efficiency in patients infected with genotypes which differed to that used to express the recombinant core antigen.     

Paraneoplastic cerebellar degeneration--characterization of anti-Yo antibody and underlying cancer

A group of patients with paraneoplastic cerebellar degeneration (PCD) have shown to produce autoantibody to both neurons and tumor cells (anti-Yo antibody). More than 60% of these patients have shown neurological symptoms and anti-Yo antibody production before the underlying cancers were found, which suggests that the test for anti-Yo antibody is important for the early detection and treatment of cancer. Originally, anti-Yo antibody has been characterized as 1) labelling the cytoplasm of cerebellar Purkinje cells immunohistochemically, 2) binding to the 62 and 34kDa bands on immunoblots of Purkinje cell extracts, 3) being present in female patients with gynecological or breast cancers. Recently, the common binding-epitope of anti-Yo antibody has been reported as leucine-zipper protein. In order to detect the anti-Yo antibody precisely, we examined the immunohistochemical and western blot characters of the recombinant leucine-zipper protein-reactive (anti-Yo) antibody. The results were, 1) sera containing leucine-zipper protein-reactive antibody labels both cerebellar Purkinje cells but some sera might contain other antibodies together with anti-Yo that confuse the immunostaining character of anti-Yo antibody, 2) the antibody binds to 58 kDa band and sometimes co-binds to 34kDa on immunoblots of cerebellar tissue extracts. The underlying cancers are mainly adenocarcinoma in the ovary, fallopian tube, uterus, or breast but occasionally large cel lung and bile duct cancers have been found. Interestingly, a male patient had an antibody similar in character to be anti-Yo antibody immunohistochemically and on immunoblots, that did not recognize leucine-zipper protein and the underlying carcinoma was small cell lung cancer. These results suggest that 1) the diagnosis of anti-Yo antibody should be based on the antibody's reactivity with leucine-zipper protein, 2) some sera with the anti-Yo antibody label other tissues besides the Purkinje cell cytoplasm because of the co-existence of other antibodies seen immunohistochemically and on immunoblots, 3) the search for underlying cancers should not be limited to gynecological or breast carcinomas.     

Cloning, expression and purification of recombinant streptokinase: partial characterization of the protein expressed in Escherichia coli

We cloned the streptokinase (STK) gene of Streptococcus equisimilis in an expression vector of Escherichia coli to overexpress the profibrinolytic protein under the control of a tac promoter. Almost all the recombinant STK was exported to the periplasmic space and recovered after gentle lysozyme digestion of induced cells. The periplasmic fraction was chromatographed on DEAE Sepharose followed by chromatography on phenyl-agarose. Active proteins eluted between 4.5 and 0% ammonium sulfate, when a linear gradient was applied. Three major STK derivatives of 47.5 kDa, 45 kDa and 32 kDa were detected by Western blot analysis with a polyclonal antibody. The 32-kDa protein formed a complex with human plasminogen but did not exhibit Glu-plasminogen activator activity, as revealed by a zymographic assay, whereas the 45-kDa protein showed a K(m) = 0.70 microM and kcat = 0.82 s-1, when assayed with a chromogen-coupled substrate. These results suggest that these proteins are putative fragments of STK, possibly derived from partial degradation during the export pathway or the purification steps. The 47.5-kDa band corresponded to the native STK, as revealed by peptide sequencing.     

Factors influencing pulmonary surfactant protein A levels in cord blood, maternal blood and amniotic fluid

The sequence encoding the truncated core protein (amino acids 1-98) of hepatitis C virus (HCc) was expressed in E. coli for production of HCc(1-98), or fused with the truncated core antigen (HBcAg) and segments from the preS1 and preS2 regions from hepatitis B virus (HBV) for production of HBcPreS1PreS2HCc(1-98). The HCc(1-98) and HBcPreS1PreS2HCc(1-98) proteins reacted with sera from HCV-infected individuals by immunoblot analyses, while the latter protein also exhibited HBV core antigenicity. They induced antibodies against HBcAg and/or HCV core protein in rabbits and in mice. Moreover, HBcPreS1PreS2HCc(1-98) is more immunogenic than HCc(1-98) in terms of anti-HCc induction. An ELISA that employed recombinant HCV core antigens of either HCc(1-98) or HBcPreS1PreS2HCc(1-98) to detect anti-HCc and/or anti-HBc antibodies was developed. Evaluation of serum samples with different status of HBV and HCV infections suggested that HCc(1-98) might be suitable for the determination of antibodies against HCV core protein, while HBcPreS1PreS2HCc(1-98) might be of value to detect HCV and/or HBV infection in donated blood in HBV low-prevalence countries.     

Protein content and cAMP-dependent phosphorylation of fractionated white perch retina

In the retinas of teleost fish dopamine, released from interplexiform cells, modulates synaptic transmission at both the chemical and electrical synapses of retinal horizontal cells. This modulation is due to activation of adenylate cyclase and phosphorylation by protein kinase A, perhaps of the synaptic ion channel proteins themselves. In this study we have fractionated the white perch retina by Percoll density gradient centrifugation in order to identify proteins which coenrich with horizontal cells. In addition we have tested retinal fractions for phosphorylation by native cAMP-dependent kinase. Our findings indicate that there are at least 3 proteins of molecular weights 28, 43/44 and 50 kDa which coenrich with horizontal cells and 3 proteins of 30/31 kDa, 35 kDa (putative rhodopsin) and 48 kDa (putative arrestin) which coenrich with photoreceptor fractions. The 43/44 kDa phosphoprotein is a target for cAMP-dependent protein phosphorylation and thus is apparently an element of the dopaminergic modulatory pathway in perch horizontal cells.     

Ca2+/calmodulin-dependent protein kinase V and I may form a family of isoforms

We reported that polyclonal antibody against Ca2+/calmodulin-dependent protein kinase V (CaM kinase V) reacted to two proteins of rat cerebrum with a molecular mass of 40 and 41 kDa. This antibody revealed the immunoreactivity with CaM kinase I expressed in E. coli (recombinant CaM kinase I), of which molecular mass was 40 kDa, whereas 41 kDa mainly with purified CaM kinase V. The immunoreactive bands of recombinant CaM kinase I and CaM kinase V did not shift by phosphorylation or dephosphorylation. These results suggest that CaM kinase V and CaM kinase I may form a family of isoforms.     

Dissection of human humoral immune response against hepatitis C virus E2 glycoprotein by repertoire cloning and generation of recombinant Fab fragments

Demonstration of antibodies inhibiting key viral functions is the basis for the design of an effective vaccine. Dissection of the human antibody response by repertoire cloning may be a powerful means to address this issue. In this study, a panel of human monoclonal recombinant Fab fragments specific for hepatitis C virus (HCV) E2 envelope protein was generated. The selection procedure was designed to select for cross-genotype reactive antibodies. Sequences coding five different human recombinant Fabs specific for the HCV/E2 protein were cloned and characterized. The ability of the cloned antibody fragments to inhibit adhesion of recombinant envelope E2 protein to target cells was assayed. While affinity of the different antibody fragments appeared similar, activity in inhibiting E2 binding to target cells varied considerably from one Fab fragment to another. Two Fabs were not able to inhibit E2 binding at high concentration (40 microg/mL), while three other Fab clones were active in neutralizing 50% of the E2 binding at concentrations ranging from 3 to 0.35 microg/mL.     

T- and B-cell responses to different hepatitis C virus antigens in patients with chronic hepatitis C infection and in healthy anti-hepatitis C virus--positive blood donors without viremia

As the host's immune response may determine the course of hepatitis C virus (HCV) infection, we studied the humoral and cellular immune responses to HCV-related antigens in subjects with different outcomes of HCV infection. Lymphoproliferative responses and circulating antibodies to a panel of HCV core- and E1-related 25-mer peptides were examined in 10 healthy anti-HCV-seropositive blood donors (group A) and in 29 patients with chronic hepatitis C (group B). In addition, cellular recognition of recombinant HCV proteins (core, NS3, NS4A, NS5A, NS5B) were investigated. In group A, stronger T-cell responses were detected against both HCV proteins (core, P = .03; NS4, P = .005; NS5B, P = .03) and peptides. Proliferation was induced by the same peptides in each group, defining at least five distinctive epitopes within core (amino acids [aa] of 20-44, aa 39-63, aa 79-103, aa 118-152 and aa 148-172) and three regions within E1(aa 198-252, aa 308-372, and aa 368-392). Subjects with strong T-cell responses had low or no detectable levels of peptide-specific antibodies, and vice versa. In particular, T-cell responses were more common in group A; B-cell responses were more common in group B. From our data, we conclude that a benign course of HCV infection may be the consequence of the effective activation of T-helper lymphocytes.     

Vaccination with Aleutian mink disease parvovirus (AMDV) capsid proteins enhances disease, while vaccination with the major non-structural AMDV protein causes partial protection from disease

Vaccination studies were performed with partially purified recombinant AMDV VP1/2 capsids as well as with the major AMDV non-structural protein (NS1). All vaccine constructs induced an antibody response, but did not prevent infection upon challenge with AMDV. The severity of Aleutian disease (AD) was judged by the serum gammaglobulin level, the quantity of peripheral blood CD8 lymphocytes, antibody titers to VP1/2 and NS1 proteins and mink death rates. The VP1/2 vaccine constructs enhanced the disease process with drastic death rates for the vaccinated mink. On the contrary, the NS1 vaccine constructs resulted in milder AD than seen in the non-vaccinated mink.     

Cloning of a cdc2-related protein kinase from Trypanosoma cruzi that interacts with mammalian cyclins

Two cdc2-related protein kinases (crk), tzcrk3 and tzcrk1, from the protozoan parasite Trypanosoma cruzi were cloned. tzcrk3 encodes a 35 kDa protein sharing 51.5% amino acid identity with human cdc2 and 82% identity with Trypanosoma brucei CRK3. tzcrk1 encodes a 33 kDa protein sharing 52.7% identity with human cdc2 and a high degree of identity (> 78%) with T. brucei CRK1, Leishmania mexicana CRK1 and Trypanosoma congolense CRK1. A recombinant TzCRK1 protein was able to phosphorylate histone HI and retinoblastoma protein. Western blotting using a polyclonal antibody raised against the recombinant TzCRK1 protein showed that the kinase is present in all life cycle stages of the parasite. A PSTAIRE antiserum detected proteins of 32, 33 and 35 kDa, with differential expression in the life cycle of the parasite. Transfection of COS-7 cells with tzcrk1 demonstrated for the first time that a CRK protein can bind mammalian cyclins; TzCRK1 co-immunoprecipitated with cyclins E, D3 and A suggesting a role for this kinase in cell cycle control. These results indicate that T. cruzi might have cyclin homologues that control the activity of the CRK proteins and that a complex mechanism would exist in order to regulate the kinases involved in the cell cycle and the differentiation processes of the parasite.     

The Epstein-Barr virus (EBV) gN homolog BLRF1 encodes a 15-kilodalton glycoprotein that cannot be authentically processed unless it is coexpressed with the EBV gM homolog BBRF3

The Epstein-Barr virus (EBV) homolog of the conserved herpesvirus glycoprotein gN is predicted to be encoded by the BLRF1 open reading frame (ORF). Antipeptide antibody to a sequence corresponding to residues in the predicted BLRF1 ORF immunoprecipitated a doublet of approximately 8 kDa from cells expressing the BLRF1 ORF as a recombinant protein. In addition, four glycosylated proteins of 113, 84, 48, and 15 kDa could be immunoprecipitated from virus-producing cells by the same antibody. The 15-kDa species was the mature form of gN, which carried alpha2,6-sialic acid residues. The remaining glycoproteins which associated with gN were products of the BBRF3 ORF of EBV, which encodes the EBV gM homolog. The 8-kDa doublet seen in cells expressing recombinant gN comprised precursors of the mature 15-kDa gN. Coexpression of EBV gM with EBV gN was required for authentic processing of the 8-kDa forms to the 15-kDa form.     

Evaluation of a recombinant 27-kDa outer membrane protein of Coxiella burnetii as an immunodiagnostic reagent

The 27-kDa outer membrane protein from eight strains of Coxiella burnetii was expressed in the pET-21c protein expression system. Two fusion proteins with molecular masses of 30 and 32 kDa were evident in all eight of the recombinants by SDS-PAGE and immunoblotting. A protein having an approximate size of 30 kDa was purified from the Escherichia coli lysates by one-step affinity purification. The utility of the purified recombinant protein in ELISA was also evaluated by testing its reactivity with human sera and comparing this reactivity with that of Nine Mile phase II antigen. All of the 40 IF-positive serum samples were ELISA-positive for both the Nine Mile phase II and recombinant antigens, and negative serum controls were negative for both antigens. These results suggest that ELISA with the 27-kDa recombinant antigen is a sensitive and specific method for detecting anti-C. burnetii antibodies in human sera.