Immunostimulatory sequence DNA linked to the Amb a 1 allergen promotes T(H)1 cytokine expression while downregulating T(H)2 cytokine expression in PBMCs from human patients with ragweed allergy.

BACKGROUND: Recent studies have demonstrated that bacterially derived immunostimulatory sequences (ISSs) of DNA can activate the mammalian innate immune system and promote the development of T(H)1 cells. Promotion of T(H)1 immunity by means of immunotherapy in allergic patients has led to the alleviation of symptoms that result from allergen-specific T(H)2 responses. OBJECTIVE: Our purpose was to investigate whether the T(H)1-enhancing properties of ISSs could be used to alter the T(H)2-dominated immune response of allergic PBMCs in vitro. METHODS: Ragweed protein-linked ISS (PLI) was generated from a specific, highly active 22-base ISS and Amb a 1, the immunodominant allergen in ragweed pollen, to combine the T(H)1-enhancing properties of ISSs with allergen selectivity, and its activity was investigated in PBMC cultures from subjects with ragweed allergy. RESULTS: PLI was markedly successful at reversing the dominant allergen-induced T(H)2 profile while greatly enhancing IFN-gamma production. Delivering ISSs in a linked form proved to be much more effective at modulating the resulting cytokine profile than delivering free ISSs in a mixture with unlinked Amb a 1. PLI also demonstrated cytokine-modulating properties, even when used to stimulate cells that had already been primed for 6 days with Amb a 1. The antigen specificity of the action of PLI was confirmed by the observations that PLI enhances Amb a 1--specific T-cell proliferation. CONCLUSION: These data indicate that delivery of ISSs within an antigen-specific context exhibits potent cytokine-modulating activity and, combined with its reduced allergenicity, makes this molecule a strong candidate for use in improved immunotherapy applications.

Conjugation of protein to immunostimulatory DNA results in a rapid, long-lasting and potent induction of cell-mediated and humoral immunity.

Immunostimulatory DNA sequences (ISS) are a potent Th1 adjuvant. We hypothesized that conjugation of ISS to protein antigens would strongly enhance their immunogenicity because both antigen and adjuvant (ISS) would be delivered to the same locale/antigen-presenting cell. To test this hypothesis, we conjugated a 22-mer immunostimulatory oligodeoxynucleotide (ISS-ODN) to two test antigens of differing intrinsic immunogenicity, namely Escherichia coli beta-galactosidase and the HIV-1 envelope glycoprotein gp120. We show that the antigen-ISS conjugates rapidly induce Th1 cells secreting high levels of IFN-gamma, strong CTL activity, and high titer IgG2a and HIV-neutralizing antibodies, exceeding gene and protein vaccination alone or immunization with mixtures of antigen and ISS-ODN. The data suggest that this procedure generates a novel and unique vaccine that rapidly triggers strong humoral and cell-mediated immunity.

Conjugation of immunostimulatory DNA to the short ragweed allergen amb a 1 enhances its immunogenicity and reduces its allergenicity.

BACKGROUND: Allergen immunotherapy is inconvenient and associated with the risk of anaphylaxis. Efforts to improve the safety of immunotherapy by means of chemical modification of allergens have not been successful because it greatly reduced their antigenicity. Recently, immunostimulatory DNA sequences (ISS or CpG motifs) have been shown to act as strong T(H)1 response-inducing adjuvants. OBJECTIVE: We sought to determine whether conjugation of ISS to the major short ragweed allergen Amb a 1 results in enhanced immunotherapeutic potential in mice and decreased allergenicity in human subjects. METHODS: A 22-mer ISS oligodeoxynucleotide (ISS-ODN) was coupled to Amb a 1 and used for immunization of mice, rabbits, and monkeys. RESULTS: In mice the Amb a 1-ISS conjugate induced a T(H)1 response (IFN-gamma secretion), whereas Amb a 1 induced a T(H)2 response (IL-5 secretion). The T(H)1 response was not observed with an Amb a 1-non-ISS conjugate. Coinjection of Amb a 1 with ISS-ODN was much less effective in inducing a T(H)1 response. In mice primed for a T(H)2 response, injection with Amb a 1-ISS conjugate induced a de novo T(H)1 response and suppressed IgE antibody formation after challenge with Amb a 1. Amb a 1-ISS conjugate induced high-titer anti-Amb a 1 IgG antibodies in rabbits and cynomolgus monkeys, whereas Amb a 1 alone or Amb a 1 coinjected with ISS-ODN did not induce a detectable response. Amb a 1-ISS conjugate was less allergenic than Amb a 1 alone, as shown by a 30-fold lower histamine release from human basophils of patients with ragweed allergy, whereas mixing ISS-ODN with Amb a 1 did not reduce histamine release. CONCLUSION: Amb a 1-ISS conjugate has an enhanced T(H)1-biased immunogenicity and reduced allergenicity. It may offer a more effective and safer approach for allergen immunotherapy than currently available methods.

The development of multivalent bovine rotavirus (strain WC3) reassortant vaccine for infants.

Laboratory and clinical studies have been directed toward development of a vaccine against rotavirus gastroenteritis in infants. First, bovine rotavirus strain WC3, which did not induce neutralizing antibodies to predominant human rotavirus (HRV) serotypes, was determined to be safe and immunogenic; however, it was not protective in all efficacy trials. HRVs adapted to cell culture retained some virulence for infants, but when further attenuated by cold adaptation, they were poorly immunogenic. Reassortant rotaviruses were designed to express HRV surface proteins VP7 (G) or VP4 (P) while retaining a bovine WC3 genome background. Reassortants containing either HRV surface protein and as few as four bovine rotavirus genes were safe in infants. A monovalent WC3 reassortant of serotype G1 specificity was 64%-100% protective in placebo-controlled trials. A quadrivalent WC3 reassortant vaccine with components of HRV G1, G2, G3, and P[8] specificity induced 67% protection against all rotavirus disease in a multicenter efficacy trial.

Rescue of immunoglobulins from insolubility is facilitated by PDI in the baculovirus expression system.

A substantial fraction of immunoglobulin heavy and light chain polypeptides were insoluble when expressed in the baculovirus-insect cell expression system. In the presence of coexpressed heterologous protein disulfide isomerase (PDI), however, the solubility of the immunoglobulins was enhanced and IgG was secreted at higher levels from baculovirus-infected Trichoplusia ni insect cells. Pulse-chase experiments indicated that some immunoglobulin polypeptides were initially insoluble in the presence of PDI but subsequently were rescued in a soluble form competent for IgG assembly and secretion. Recovery of the insoluble immunoglobulins was not observed in the absence of coexpressed PDI. Even after treatment of insect cells with tunicamycin to inhibit N-glycosylation of immunoglobulin heavy chains, coexpressed PDI was able to salvage insoluble immunoglobulins and secrete these modified glycoforms. The capacity for PDI to rescue immunoglobulins was also demonstrated in vitro where immunoglobulin heavy chains and light chain dimers were salvaged from aggregates of denatured IgG. PDI-mediated rescue of proteins, perhaps assisted by chaperones and other foldases, may be important in vivo where insolubility is a common occurrence for newly synthesized polypeptides.

WC3 reassortant vaccines in children.

Bovine rotavirus strain WC3 (P7[5], G6) administered at the 12th passage level was well tolerated clinically in infants and efficiently induced serum virus neutralizing antibody (VNA) with bovine rotavirus G6 specificity. The protective efficacy of WC3 vaccine against all rotavirus disease was inconsistent, varying in four separate trials from 76% to 0%; some selective protection against severe disease was seen in all trials. WC3 reassortants containing the gene for an individual human rotavirus VP7 (G) or VP4 (P) surface antigen were also well tolerated, but preferentially induced VNA to the WC3 parent. Efficacy trials of human G1 VP7 reassortant WI79-9 (P7[5], G1) consistently led to > 60% protection against all rotavirus disease. A quadrivalent WC3 reassortant vaccine was developed to contain four separate monovalent reassortants expressing human rotaviruses surface proteins G1, G2, G3, and P1A [8] respectively. In a multicenter trial including 439 infants, this vaccine induced 67.1% protection against all rotavirus disease (defined as positive for rotavirus antigen by ELISA only [p = < 0.001]) and 72.6% protection when the standard for rotavirus diagnosis was a positive test of stool for both rotavirus antigen by ELISA and rotavirus RNA by electropherotype analysis (p = < 0.001). In this trial, episodes of the most severe rotavirus disease (clinical severity score > 16.0 eight cases) occurred only in placebo recipients.

Hematologic consequences of Borna disease virus infection of rat bone marrow and thymus stromal cells.

Borna disease virus (BDV) was previously believed to have a strict tropism for the nervous system. BDV has recently been identified by a reverse transcription-polymerization chain reaction-enzyme immunosorbent assay (RT-PCR-EIA) in bone marrow cells and peripheral blood mononuclear cells (PBMC) in BDV-infected Lewis rats. We now report the identification of BDV RNA and infectious virus in thymus cells from rats infected either as neonates (PTI-NB) or as adults (4 weeks of age). Based on in vitro studies, we determined that the BDV-infected cells in bone marrow and thymus tissue are fibroblastic stromal cells. Bone marrow stromal cells are nonhematopoietic, fixed-tissue elements that support hematopoiesis, and, thus, it was not surprising that BDV infection altered the recovery from granulocytopenia and leukocytopenia after myelosuppressive treatment. Notably, unlike other immunotropic and neurotropic viruses, BDV does not appear to infect cells of myeloid or lymphoid lineages. We also report the association between BDV in the thymus with the lack, or loss, of encephalitis in neonatally inoculated rats or adult-inoculated rats during the chronic stage of disease.

Effects of co-expressing chaperone BiP on functional antibody production in the baculovirus system.

The assembly pathway of the insect cell Spodoptera frugiperda (Sf-9) was engineered to include expression of the murine chaperone immunoglobulin heavy chain binding protein (BiP) using the baculovirus vector. The impact of BiP coexpression on the production and secretion of functional and soluble recombinant immunoglobulin IgG levels was evaluated. Recombinant BiP was found to associate specifically with immunoglobulins in immunoprecipitation studies. Coinfection of insect cells with a BiP-containing baculovirus and baculoviruses coding for two different murine IgG proteins increased intracellular functional antibody activity levels substantially above the levels observed in the absence of BiP. Soluble intracellular immunoglobulin levels were found to increase as well. However, secreted functional antibody levels did not increase significantly. Also, degradation of heavy chain immunoglobulin in insect cells was indicated by the accumulation of lower molecular weight immunoglobulins at 4 days postinfection. Coexpression of light chains reduced the level of these lower molecular weight immunoglobulins while BiP coexpression led to enhanced levels. These findings suggest that coexpressed BiP can increase intracellular soluble and functional antibody yields but that secretion in the baculovirus-insect cell system must be limited at some post-translational step.

Borna disease virus p24 and p38/40 synthesized in a baculovirus expression system: virus protein interactions in insect and mammalian cells.

To facilitate studies of the individual viral proteins, two Borna disease virus proteins, p24 and p38/40, were synthesized in vitro by means of a baculovirus expression system and examined for antigenic identity to viral proteins from BDV-infected cells. Recombinant proteins p24 and p38/40 were nearly identical in size to the viral proteins from BDV-infected cells. Immunoblot and immunocytochemistry analysis of BDV proteins from infected tissue culture cells and rat brain showed binding of antisera directed against the recombinant proteins. Specific recognition of the recombinant proteins by Borna disease virus-specific convalescent antisera and monoclonal antibodies further demonstrated that the antigenic characters of the p24 and p38/40 had been conserved. Polyclonal antibody directed against either of the recombinant proteins recognized only the protein used as immunogen, without cross reactivity with the other recombinant protein, indicating no common epitopes. Moreover, these data confirmed the proposed gene coding assignments of ORF I and II of BDV p38/40 and p24, respectively. Both of the recombinant proteins were secreted into the media of insect cells in tissue culture, but secretion of recombinant p24 was evident only as a dimeric form and not with the monomeric form. Immunoprecipitation studies performed with monoclonal antibodies and BDV proteins from infected rat brain suggested that a heterodimer forms via binding of p40 to the p24.

Diagnosis of Chlamydia pneumoniae infection in patients with community-acquired pneumonia by polymerase chain reaction enzyme immunoassay.

We conducted a prospective study of 385 patients who had community-acquired pneumonia with use of a modified polymerase chain reaction (PCR) assay that detects amplified DNA by enzyme immunoassay (EIA). We used PCR-EIA to improve detection of Chlamydia pneumoniae infection and to differentiate C. pneumoniae infection from other chlamydial infections. Cultures of throat swab specimens from four patients yielded Chlamydia species (C. pneumoniae, one patient; Chlamydia species, two patients; and C. psittaci, one patient). C. pneumoniae was repeatedly detected by PCR-EIA for thirteen (3.4%) of these 385 patients. Six of these 13 patients were infected with the human immunodeficiency virus. Ten (76.9%) of the patients who were positive by PCR-EIA had IgG titers of > or = 1:16, and two (15.4%) of the 13 patients had IgG titers of < 1:16; no sera was available in one case. Other pathogens were recovered in eight (61.5%) of the 13 cases in which C. pneumoniae was detected by PCR-EIA. In addition, for 46 (11.9%) of the 385 patients the titers of antibody were considered diagnostic of C. pneumoniae infection; however, as 36 of the 46 patients were infected with the human immunodeficiency virus (which may have affected their serological response to C. pneumoniae), interpretation of these titers was problematic. As PCR-EIA was more sensitive than was culture for detecting C. pneumoniae infection in this study, this method may be a valuable tool for the prompt diagnosis of this infection.

Serum antibody response to recombinant major inner capsid protein following human infection with group B rotavirus.

Recombinant major inner capsid protein (VP6) of the IDIR strain of group B rotavirus (GBR) was incorporated in a solid-phase immunoassay to access antibody response to infection in humans. Expression of VP6 in insect cells permitted design of a highly sensitive assay that avoided the contaminants present in GBR antigens obtained from fecal specimens. Among patients infected with the ADRV strain of GBR in China, increased reactivity with recombinant VP6 was observed in convalescent-phase sera in comparison with sera obtained shortly after infection (P = 0.0084). Anti-VP6 antibodies were detectable as soon as 7 days after onset of gastrointestinal symptoms, and serum reactivity persisted in specimens drawn more than 1 year after infection. Solid-phase immunoassay with recombinant VP6 was next employed in order to assess anti-GBR antibody in 513 serum specimens obtained from 423 Maryland residents (ages, 7 months to 96 years; median age, 42 years). Four individuals (< 1%) exhibited serum antibodies directed against the recombinant VP6 (ages, 54 to 95 years; mean age, 77 years). Examination of 129 additional serum specimens including some from other geographic regions of the United States failed to reveal the presence of anti-GBR antibody. Anti-GBR antibody was also not detected in any of 131 serum specimens from 60 staff and residents of a nursing home in Switzerland. While infection of humans with GBR has been uncommon in these locations outside of China, the detection of serum antibodies in older individuals in the United States either indicated an unknown, age-related risk factor or may have indicated infection in the more distant past. The availability of these reagents should allow surveys for GBR infection among additional populations that have not previously been investigated.

Enteric infectious disease in neonates. Epidemiology, pathogenesis, and a practical approach to evaluation and therapy.

There are many bacterial and viral pathogens that have been associated with enteric disease during the newborn period. These pathogens have widely different mechanisms of action on the intestinal epithelium and are associated with a spectrum of clinical findings. Infected infants can be asymptomatic, have gastroenteritis, or have a fulminant sepsis picture. To determine therapy and institute appropriate infection control measures requires the ability to recognize the clinical syndrome and correctly interpret laboratory results. All of these principles can be applied to the premature infant in the neonatal intensive care nursery as well as the full-term infant at home.

Engineering the assembly pathway of the baculovirus-insect cell expression system.

The synthesis of complex biological structures such as antibodies using recombinant DNA technology is a major biotechnological advance. Active murine antibody (IgG) oligomers, composed of two heavy (H) and two light (L) polypeptide chains, have been expressed and secreted by the baculovirus-insect cell expression system. Unfortunately, expression of the functional antibodies is accompanied by the formation of abnormal protein complexes and aggregates in which the polypeptide chains are bound together into incorrect associations. The formation of these abnormal complexes or protein aggregates in insect cells may be caused by insufficient intracellular levels of two catalytic proteins, immunoglobulin binding protein (BiP or GRP78), and protein disulfide isomerase (PDI). Consequently, we obtained the genes coding for murine BiP and PDI and cloned the genes into the baculovirus vector (Autographa californica nuclear polyhedrosis virus) to obtain AcBB-BiP and AcBB-PDI. Infection of Spodoptera frugiperda (Sf-9) insect cells with these two baculoviruses yielded recombinant proteins of the correct size that were recognized by antibodies to these proteins. Cloning these genes into the baculovirus vector is one approach to engineering the assembly pathway in order to lower aggregation and increase production of functionally active proteins and oligomers.

Detection of rat, porcine, and bovine group B rotavirus in fecal specimens by solid-phase enzyme immunoassay.

An enzyme immunoassay that uses easily regenerated reagents was developed and evaluated for the ability to detect group B rotaviruses (GBR) in fecal specimens. Homologous rat GBR and heterologous porcine and bovine GBR were detected by this immunoassay, although a human GBR isolate was not. This immunoassay should prove useful in studies of GBR infections of animals.

Diagnostic utility of PCR-enzyme immunoassay, culture, and serology for detection of Chlamydia pneumoniae in symptomatic and asymptomatic patients.

To assess the utility of PCR-enzyme immunoassay (EIA) for diagnosis of acute infection with Chlamydia pneumoniae, we compared tissue culture, PCR-EIA, direct fluorescent-antibody (DFA) stain, and serology in studies with 56 patients with respiratory symptoms and 80 asymptomatic persons. Thirty-five patients were positive by either culture or PCR-EIA, and 101 were negative by both assays. Thirty specimens from symptomatic patients and one from an asymptomatic patient were culture positive; 23 of these were also PCR-EIA positive. Of the eight culture-positive, PCR-EIA-negative specimens, five were DFA negative and three were DFA positive. Four additional specimens were culture negative and PCR-EIA positive; of these, three were DFA positive and one was DFA negative. When we used culture- and/or DFA-positive results as a reference or "gold standard," the sensitivity and specificity of PCR were 76.5 and 99.0%, respectively. When we used PCR- and/or DFA-positive results as the reference, the sensitivity of culture was 87.5%. On the basis of single acute serum specimens, only 8 of these 35 patients had diagnostic antibody titers. Of the asymptomatic patients, 75% had immunoglobulin G or immunoglobulin M antibody to C. pneumoniae; 15 (18.8%) of these had antibody levels considered to be diagnostic of acute infection. This multicenter study indicates that culture and/or PCR-EIA is more reliable for prompt diagnosis of C. pneumoniae infection than single-point serology alone.

Group B rotavirus VP2: sequence analysis, expression, and gene coding assignment.

The second largest genomic segment of the IDIR strain (infectious diarrhea of infant rats) of group B rotavirus (GBR) was completely sequenced, cloned, and expressed in insect cells, and its gene coding assignment was determined. The sequence of IDIR virus gene 2 (IDIRg2) contained 2847 bp with a single, long open reading frame that encoded a deduced polypeptide of 934 amino acids (M(r) 106 kDa, pI 5.325). BestFit homology indicated that the predicted amino acid sequence of IDIRg2 shared 46.5% similar and 19.8% identical sequences with VP2 of the SA11 strain of group A rotavirus. The polypeptide product encoded by this gene was synthesized in insect cells by means of a baculovirus expression vector and employed to elucidate the corresponding gene to protein coding assignment. Recombinant IDIRg2 product maintained virion antigenic epitopes as evidenced by reactivity with convalescent antisera from infant rat pups infected with the IDIR agent. Reactivity with antisera from heterologous human and porcine GBR strains was also observed. Antibody directed against recombinant IDIRg2 product specifically reacted with VP2 of IDIR virus and a human strain of GBR (ADRV) obtained from fecal specimens. These experiments identified the IDIRg2 product as the VP2 core protein of the IDIR virus strain of GBR.

Expression and sequence analysis of gene 7 of the IDIR agent (group B rotavirus): similarity with NS53 of group A rotavirus.

The seventh genomic segment of the IDIR strain of group B rotavirus was cloned, sequenced, and expressed in vitro in order to evaluate the gene coding assignment by comparison with group A rotaviruses (GAR). Viral genomic RNA for these reactions was obtained directly from fecal specimens of infected infant rats. IDIR virus gene 7 (IDIRg7) contained 1276 bp. Both 5' and 3' termini resembled those reported for other IDIR virus genomic segments. Two open reading frames (ORF) were predicted from the gene sequence: a long ORF from bases 258-1217 and a short ORF from bases 41-385. The first AUG of the long ORF was flanked by sequences associated with highly efficient translation, but less efficient translation was predicted for the short ORF. In vitro transcription and translation of IDIRg7 demonstrated a product consistent with polypeptide synthesis from the long ORF but not the short ORF. Convalescent rat antibody directed against the IDIR agent specifically immunoprecipitated the IDIRg7 protein and indicated that the in vitro translation product was indeed encoded by the virus genome. Thus, the untranslated 5' region of IDIRg7 was longer than that previously described for any major rotavirus product. Comparison of the IDIRg7 sequence indicated 51% similarity and 18% identity with the amino acid residues of NS53 of the SA11 strain of GAR. However, the sequence of IDIRg7 did not share the putative zinc binding region postulated for NS53 of rotavirus groups A and C. It will be of interest in future experiments to evaluate the function of the IDIRg7 product following large-scale synthesis by alternative expression systems such as vaccinia or baculovirus.

Detection of Chlamydia pneumoniae by polymerase chain reaction-enzyme immunoassay in an immunocompromised population.

Chlamydia pneumoniae has now been associated with pneumonia, bronchitis, pharyngitis, acute chest syndrome of sickle cell disease, and asthma. Because of the difficulty of primary isolation and tissue-culture adaptation of this organism, we used a previously developed polymerase chain reaction-enzyme immunoassay (PCR-EIA) to screen 132 culture-negative bronchoalveolar lavage (BAL) specimens from 108 immunocompromised patients (34% of whom were positive for human immunodeficiency virus) and 7 healthy volunteers. Thirteen specimens (9.8%) from 12 immunocompromised patients (11.1%) gave a positive result; one patient had two positive specimens obtained 3 days apart. No healthy volunteer had a PCR-EIA-positive BAL specimen. Twelve (11.1%) of the immunocompromised patients also had diagnostic levels of antibody. Four patients had positive results in both PCR-EIA and serological tests. Thus 20 (18.5%) of the 108 patients had laboratory evidence of C. pneumoniae infection. These data indicate that diagnosis of acute infection with C. pneumoniae can be established more rapidly and reliably by PCR-EIA than by culture or serology, particularly among immunocompromised patients, in whom serological changes in response to infection are relatively undependable. With an infection rate of 11.1% according to PCR-EIA, C. pneumoniae should be considered in the evaluation and treatment of pneumonia in immunocompromised patients.

Gene 5 of the IDIR agent (group B rotavirus) encodes a protein equivalent to NS34 of group A rotavirus.

Gene 5 of the IDIR strain of group B rotavirus was cloned, sequenced, and expressed in RBC lysates in order to identify the coding assignment. The complete nucleic acid sequence of IDIR gene 5 included 1306 bases and encoded a single long open reading frame of 390 amino acids with a predicted molecular weight of 44.8 kDa. Comparison of the predicted amino acid sequence indicated substantial identity with the NS34 protein of group A rotaviruses (GAR). Like GAR NS34, the product deduced from IDIR agent gene 5 was predicted to exhibit a high degree of alpha helix secondary structure and a relatively low pl (4.6). In vitro translation of gene 5 resulted in synthesis of a protein which was specifically immunoprecipitated by convalescent antibody obtained from infant rats following infection with the IDIR agent, confirming that this product was of viral origin. Under non-reducing conditions, products as large as 200 kDa were also noted in SDS-PAGE. Formation of oligomers by GAR NS34 has previously been observed, indicating that this feature is probably a general characteristic among rotavirus NS34 and may relate to the functional role of the protein in viral replication.