Monoclonal antibodies to human cytomegalovirus: three surface membrane proteins with unique immunological and electrophoretic properties specify cross-reactive determinants

Regulation of cytomegalovirus late-gene expression: differential use of three start sites in the transcriptional activation of ICP36 gene expression

We have investigated the transcriptional regulation of the human cytomegalovirus gamma gene encoding the ICP36 family (p52, the major late DNA-binding protein). The ICP36 transcription unit initiates at three distinct sites which are separated by approximately 50 nucleotides and are differentially regulated during infection. At early times (8 h postinfection), only two of these start sites, the most proximal and distal site, were active whereas at late times (36 h postinfection), the middle start site was activated. Expression from this late start site was dependent upon DNA replication. Consensus TATA elements were located upstream of all three start sites, although the element upstream of the late start site was unusual in both sequence and position when compared with conventional TATA elements. Deletion analysis was used in conjunction with transient assays to define independent promoters in this region. The two early start sites and associated TATA elements functioned as separable independently regulated promoters. The region containing the late start site and TATA element but excluding either of the flanking TATA elements was inactive in transient assays. Our work establishes that the ICP36 gene is under complex early and late transcriptional regulation and that the sequences regulating transcriptional activation are temporally and spatially distinct.

Evaluation by immune scanning electron microscopy of foscarnet treatment of cytomegalovirus infection in patients with renal transplants

Eight patients, 7 renal and 1 combined renal and pancreas allograft recipients with generalized cytomegalovirus (CMV) infection were treated with continuous intravenous foscarnet infusion (0.15 mg/kg/min) for 10-14 days. Antiviral effect was studied by immune scanning electron microscopy for detection of CMV antigen in serum and urine, by virus isolation in tissue culture in samples from buffy coat, broncholavage and urine and by serology. CMV antigen was detected in serum samples in 8 patients and 5 had positive virus isolation from buffy coat, before institution of therapy. The 3 patients with negative virus isolation in tissue culture had serological evidence of a reactivated CMV infection. Virus replication was inhibited by foscarnet treatment in 7 patients within a week (p less than 0.01) (Wilcoxon log rank test). 7/8 patients had no detectable CMV antigen in serum or urine after 7-10 days of treatment (p less than 0.01) (Wilcoxon log rank test).

Human cytomegalovirus strain Towne glycoprotein B is processed by proteolytic cleavage

The gene encoding glycoprotein B of human cytomegalovirus (CMV) strain Towne was cloned, sequenced, and expressed in order to study potential targets for viral neutralization. Secondary structure analysis of the 907 amino acid protein predicted a 24 amino acid N-terminal signal sequence and a potential transmembrane region composed of two domains, 34 and 21 amino acids. The CMV (Towne) gB gene had a 94% nucleotide similarity and a 95% amino acid similarity to the CMV (AD169) gB gene [as described by M.P. Cranage et al. (1986, EMBO J. 5, 3057-3063)]. Transcriptional analysis of the CMV (Towne) gB coding strand revealed that the gB message (3.9 kb), was transcribed from this region as early as 4 hr postinfection, and well in advance of gB protein synthesis. Full-length and truncated versions of the gB gene were expressed in COS cells using expression vectors where transcription was driven by the SV40 early promoter or the CMV major immediate early promoter. Expression was detected by immunofluorescence and ELISA using the virus neutralizing murine monoclonal antibody 15D8 (L. Rasmussen, J. Mullenax, R. Nelson, and T.C. Merigan, 1985, J. Virol. 55, 274-280). This antibody had been shown previously to recognize a 55-kDa CMV virion protein and a related 130-kDa intracellular precursor. Amino acid sequence analysis of the N-terminus of the 55-kDa viral glycoprotein (gp55) showed that gp55 is derived from gB (gp130) by proteolytic cleavage and represents the C-terminal region of gp130. The truncated version of gB expressed in COS and CHO cells was also processed by proteolytic cleavage as demonstrated by Western blotting. Our study localizes the epitope recognized by 15D8 to within a 186 amino acid fragment of the gp55 protein. These results indicate that CMV gB is a target for neutralization and establishes gp55 as a candidate component for use in a subunit vaccine.

Combined use of sonication and monoclonal antibodies for the detection of early and late cytomegalovirus antigens in centrifugation cultures

A total of 157 clinical specimens was inoculated into shell vials and conventional tube cell cultures containing confluent monolayers of human embryonic lung fibroblasts (HELF). Of 31 clinical cytomegalovirus (CMV) isolates, 30 specimens (96.8%) were positive by the immunofluorescence method on centrifugation vial cultures (CVC-IF), whereas the cytopathic effects (CPE) of CMV were detected in only 14 specimens (45.2%) in conventional tube cell cultures (CCC), P less than 0.001 and in 22 specimens (70.9%) in centrifugation vial cultures (CVC-P), P less than 0.1. Significantly more fluorescent foci were detected in centrifugation cultures inoculated with sonicated urine samples (P less than 0.001). CVC-P is more sensitive than CCC for the diagnosis of CMV (P less than 0.05), and a highly significant difference was observed when we compared the mean day to initial detection of CPE (P less than 0.001). For optimal detection of CMV, both CVC-IF and CVC-P should be used for the laboratory diagnosis of this virus infection.

General characterization of human cytomegalovirus-specific proliferative CD4+ T cell clones

Over 80 human T helper cell (Th) clones reactive with human cytomegalovirus (HCMV) were generated using purified whole Towne strain HCMV as the in vitro antigen. These cloned T cells are CD3+, CD4+, CD8- and proliferate specifically to HCMV. All of the clones tested produce interleukin 2 and gamma-interferon and failed to show HCMV-specific cytotoxicity or natural killer (NK) activity. Most of the Th clones recognize multiple laboratory-adapted and wild-type strains of HCMV. The Th clones were also tested for their reactivity to a major envelope glycoprotein complex (gcI) and a 64,000 dalton internal matrix protein. Our results show that both proteins as well as other unidentified protein(s) are involved in Th responses to HCMV.

Enhancement of class I HLA antigen expression by cytomegalovirus: role in amplification of virus infection

We have investigated the effect of cytomegalovirus (CMV) infection on the expression of class I HLA antigens on fibroblasts in vitro. Scanning and integrating microdensitometry was used to quantitate the level of cytoplasmic class I antigen expression, and an antibody binding assay was used to quantitate cell surface expression of class I HLA molecules. CMV infection resulted in a significant increase in the level of cytoplasmic and cell surface class I HLA antigen expression of fibroblast monolayers. The maximal effect was seen at 72 hours postinfection and was observed with both the laboratory strain of CMV, strain AD169, and with CMV purified directly from clinical specimens. Part of the increased HLA expression was mediated by interferon released from infected cells; however, an additional direct effect of the virus itself has not been ruled out. Interferon-induced increased expression of class I HLA antigens was accompanied by increased binding of CMV to the cells, consistent with our recent demonstration that class I HLA molecules can function as a cellular receptor for CMV.

Identification and expression of a human cytomegalovirus glycoprotein with homology to the Epstein-Barr virus BXLF2 product, varicella-zoster virus gpIII, and herpes simplex virus type 1 glycoprotein H

An open reading frame with the characteristics of a glycoprotein-coding sequence was identified by nucleotide sequencing of human cytomegalovirus (HCMV) genomic DNA. The predicted amino acid sequence was homologous with glycoprotein H of herpes simplex virus type 1 and the homologous protein of Epstein-Barr virus (BXLF2 gene product) and varicella-zoster virus (gpIII). Recombinant vaccinia viruses that expressed this gene were constructed. A glycoprotein of approximately 86 kilodaltons was immunoprecipitated from cells infected with the recombinant viruses and from HCMV-infected cells with a monoclonal antibody that efficiently neutralized HCMV infectivity. In HCMV-infected MRC5 cells, this glycoprotein was present on nuclear and cytoplasmic membranes, but in recombinant vaccinia virus-infected cells it accumulated predominantly on the nuclear membrane.

Human immune responses to major human cytomegalovirus glycoprotein complexes

Sera from both human cytomegalovirus (HCMV)-seropositive adults and infants with congenital HCMV infection recognized two major HCMV glycoprotein complexes. However, proliferative responses of peripheral blood mononuclear cells to these complexes varied among seropositive adults and were not detected in any of the infants. Thus, these glycoproteins alone may not be sufficient to develop a subviral HCMV vaccine.

Identification and characterization of three distinct families of glycoprotein complexes in the envelopes of human cytomegalovirus

Several disulfide-linked glycoprotein complexes were identified in the envelope of human cytomegalovirus (HCMV). These glycoprotein complexes were fractionated by rate-zonal centrifugation in sucrose density gradients in the presence of detergents. Fractionated glycoproteins and complexes were immunoprecipitated with three different monoclonal antibodies specific for HCMV glycoproteins and a rabbit polyclonal antiserum prepared against detergent-extracted virion and dense-body envelope glycoproteins. Three distinct families of disulfide-linked glycoprotein complexes were observed and designated glycoprotein complex gcI, gcII, and gcIII. The gcI family, recognized by monoclonal antibody 41C2 under nonreducing conditions, consisted of three complexes with approximate molecular masses of 250 to 300, 190, and 160 kilodaltons (kDa). These complexes consistently sediment more rapidly than other HCMV glycoproteins or complexes in sucrose density gradients. Upon reduction of the gcI family, two size classes of glycoproteins with average molecular masses of 93 to 130 and 55 kDa were observed. The gcII family was recognized by monoclonal antibody 9E10. Under nonreducing conditions, as many as six electrophoretic forms were observed for gcII. When reduced, the major component of the gcII family was a heterogeneous glycoprotein designated gp47-52. The gcIII family was recognized by monoclonal antibody 1G6. It consisted of a complex of approximately 240 kDa without reduction of disulfide bonds. When reduced, two glycoprotein size classes with average molecular masses of 145 and 86 kDa were observed. Polyclonal antiserum R-7 reacted strongly with the gcI and gcIII families, but weakly with the gcII family.

Comparative study with monospecific and monoclonal antibodies against a 65 K human cytomegalovirus protein

Immunofluorescence assay using monospecific and monoclonal antibodies to the 65 K major protein of human cytomegalovirus (HCMV) was carried out to monitor the expression of this protein in infected cells. Regardless of differences in the reactivity of the monoclonal antibodies, as determined by immunoblotting and immunofluorescent staining, all stained cytoplasmic inclusion bodies localized to the site of the HCMV-induced receptor for the Fc portion of IgG, suggesting that most of the 65 K major protein of HCMV colocalizes with the HCMV-induced FcR.

Immunogenic glycoproteins of infectious laryngotracheitis herpesvirus

The viral glycoproteins produced in cells infected with either vaccine strain or virulent isolates of infectious laryngotracheitis virus, an avian herpesvirus, were identified by in vitro labeling using [14C]glucosamine and [14C]mannose. Chicken antisera to the vaccine strain and to a virulent isolate, and rabbit antisera to the vaccine strain, immunoprecipitated four major viral glycoproteins of 205, 115, 90, and 60K mol wt. Additional glycoprotein bands were recognized by immune chicken and rabbit sera in Western blotting using a glycoprotein fraction purified from extracts of virus-infected cells. Monoclonal antibodies to the immunogenic glycoproteins were produced and characterized by immunoprecipitation and Western blotting. One group of monoclonal antibodies reacted only with the 60K glycoprotein, by both techniques, while a second group reacted with the 205, 115, and 90K glycoproteins in immunoprecipitation and with additional bands of 85 and 160K in Western blotting.

A cytomegalovirus protein with properties of herpes simplex virus ICP8: partial purification of the polypeptide and map position of the gene

We demonstrated the presence of a single-stranded DNA-binding protein in human cytomegalovirus (CMV)-infected cells with properties analogous to those of herpes simplex virus (HSV) ICP8. Using monoclonal antibody specific for the CMV protein, we analyzed its fluorescence pattern and time of synthesis, mapped the gene encoding it by using a lambda gt11 library of CMV DNA fragments, and monitored its purification by phosphocellulose and DNA-Sepharose chromatography. In all characteristics we examined, the CMV protein behaved analogously to HSV ICP8. Our results are consistent with a functional role of CMV ICP8 in viral replication that is similar to that of HSV ICP8 and with the evolutionary conservation of the gene of interest in two divergent herpesviruses.

Virus-specific serum IgG, IgM, and IgA antibodies in cytomegalovirus mononucleosis patients as determined by immunoblotting technique

The immune response to individual human cytomegalovirus (CMV) structural polypeptides was studied in paired sera from 15 adult CMV mononucleosis (CMV-MN) patients and healthy controls by immunoblotting technique (IB). IgM and IgG antibodies to at least 11 structural polypeptides with molecular weights of 28K, 49K, 55K, 57K, 66-70K, 82K, 87K, 110K, 150K, 205K, and 235K were detected in the patients' sera in the serum sample obtained in the acute phase of the disease. IgA antibodies to polypeptides with molecular weights of 66-70K, 82K, 110K, and 150K were also detected in these sera. In healthy seropositive adults, IgG antibodies with the same molecular weight polypeptides, excluding the 205K and 235K polypeptides, were detected as in convalescent CMV-MN patients. A prominent reactivity of IgM and IgA antibodies to the 66-70K and 150K polypeptides was noted in the acute sera from all the CMV-MN patients examined, but not in a number of late convalescent sera. The potential implications of these findings in the development of specific serological tests are discussed.

Protection of cattle from bovine herpesvirus type I (BHV-1) infection by immunization with individual viral glycoproteins

The major glycoproteins gI, gIII, and gIV of bovine herpesvirus-1 (BHV-1) were found to induce high levels of antibody in cattle which could neutralize virus and participate in antibody-dependent cell cytotoxicity of BHV-1-infected cells. Immunized animals were fully protected from disease, using a BHV-1/Pasteurella haemolytica aerosol challenge model but not from infection with the virus. Thus, virus could still replicate in the nasal passages of immunized animals, although to a lesser extent than in placebo-treated animals or animals immunized with a commercial killed whole virus vaccine. Systemic spread of the virus in immunized animals did not appear to occur since there was not a dramatic alteration of leukocyte function following challenge. These results suggest that any one of the three major BHV-1 glycoproteins may be useful as a subunit vaccine either individually or in combination.

Production and characterisation of a human monoclonal antibody to cytomegalovirus and its use in an early nuclear fluorescence assay

A human monoclonal antibody to cytomegalovirus (CMV) was produced by transforming peripheral blood mononuclear cells of a patient with recent CMV infection. It is directed against a late antigen located in the nucleus of CMV infected fibroblasts at 24-72 hours postinfection and immuneprecipitates 65K and 48K proteins from 35S-labelled CMV infected cells. Results of its use in an early nuclear fluorescence assay for rapid diagnosis are presented.

Monoclonal antibodies directed to two groups of viral proteins neutralize human cytomegalovirus in vitro

Monoclonal antibodies (MAbs) that neutralized human cytomegalovirus (HCMV) were produced by ten hybrid cells lines, generated from BALB/c mice immunized with HCMV-infected human fibroblasts. By immunoblot technique six antibodies detected a set of HCMV glycosylated polypeptides which, when separated under reducing conditions, migrated with apparent molecular weights (m.wt.) of 47.5K, 51K, 54K, 58K, and 60-69K. One other antibody reacted only with the 47.5 and 51K polypeptides and the 60-69K broad band. Under nonreducing conditions, these antibodies showed no reactivity with any polypeptide. The three remaining MAbs reacted with two high-m.wt. polypeptides of approximately 200K and greater than 200K when separated under nonreducing conditions. One of these antibodies showed no clear reactivity with the polypeptides, one detected a 58K and 92-94K species and one detected a 58K and 130K species, when separated under reducing conditions.

The use of biotinylated monoclonal antibodies and streptavidin affinity chromatography to isolate herpesvirus hydrophobic proteins or glycoproteins

A streptavidin/biotin-based immunoaffinity system was optimized to isolate herpesvirus (human cytomegalovirus) immediate early proteins or late glycoproteins from crude infected cell lysates. Biotinylation of the primary antibody by biotin substitution of epsilon amino groups was superior to biotin substitution of sugar residues. Biotinylation of the primary antibody was superior to that of a secondary antibody. A biotin substitution of approximately 8 M biotin/M antibody allowed for maximal recovery of viral antigens. The streptavidin/biotin-based immunoaffinity system can allow for relatively pure preparations of viral antigens that may be used for functional, immunological, or structural studies.

The development and characterization of monoclonal antibodies against rat cytomegalovirus induced antigens

In this paper the development of a battery of approximately 70 mouse monoclonal antibodies (McAbs) to RCMV-induced antigens and their characterization is discussed. Their reactivity with the whole scala of ca. 30 virus specific proteins was tested in an enzyme linked immunoassay (ELISA) whereas their ability to detect RCMV-antigens at different locations of in vitro infected cell cultures and at different stages of infection was tested by immunofluorescence. In order to determine to what specific (viral) protein each of these McAbs is directed against we used an immunoprecipitation technique, followed by SDS-PAGE. Furthermore, neutralizing capacity of each McAb was tested, as well as the immunoglobulin class they belong to. In this manner we defined six categories of monoclonal antibodies on the basis of immunofluorescence aspect. The six categories identify most important viral structural proteins.

Sensitivity and specificity of enzyme immunofiltration and DNA hybridization for the detection of HCMV-infected cells

The sensitivity and specificity of enzyme immunofiltration and DNA hybridization were compared in human cytomegalovirus (HCMV) (AD 169)-infected MRC-5 cells. The enzyme immunofiltration was carried out on glass fiber filters in microplates, using an HCMV (AD 169) monoclonal antibody and a peroxidase conjugate. The DNA hybridization was carried out with a microfiltration apparatus, using a 32P-labelled HCMV (AD 169) Eco R1 D fragment probe. The sensitivities of enzyme immunofiltration and DNA hybridization were 1.82 X 10(3) and 1.13 X 10(3) infected cells, respectively. Both methods were highly specific, but enzyme immunofiltration was faster and simpler.

Molecular biology and immunology of cytomegalovirus

The application of modern biochemical techniques has led to a rapid improvement in our knowledge of the molecular biology of CMV. Several coding regions of the DNA genome have been identified with certainty and major virus-coded proteins have been given provisional names. The cascade expression of the CMV genome has been shown to be controlled by mechanisms similar to those found in other herpes viruses, together with novel post-transcriptional controls which remain to be defined. The control of CMV replication by the host involves both non-specific and specific defence mechanisms. The induction of natural killer cells and interferon early after CMV infection appears to be the most important aspects of the non-specific host defence against the virus. The cell-mediated immune response, in particular the generation of Tc cells against CMV early antigens, is probably the most important facet of the specific immune defence against CMV. When intact these defence mechanisms appear to be efficient in restricting viral replication; however, when such immunity is compromised, the balance rapidly swings in favour of the virus. As our understanding of the interaction between the host and the virus increases, it may be possible to redress the balance in such cases in favour of the host.

Identification of the human cytomegalovirus glycoprotein B gene and induction of neutralizing antibodies via its expression in recombinant vaccinia virus

A human cytomegalovirus (HCMV) glycoprotein gene with homology to glycoprotein B (gB) of herpes simplex virus and Epstein-Barr virus and gpII of varicella zoster virus has been identified by nucleotide sequencing. The gene has been expressed in recombinant vaccinia virus and the gene product recognized by monoclonal antibodies and human immune sera. Rabbits immunized with the recombinant vaccinia virus produced antibodies that immunoprecipitate gB from HCMV-infected cells and neutralize HCMV infectivity in vitro. These data demonstrate a role for this protein in future HCMV vaccines.

Elimination of toxicity and enhanced cytomegalovirus detection in cell cultures inoculated with semen from patients with acquired immunodeficiency syndrome

Although semen is a particularly rich source of cytomegalovirus (CMV) and is useful for monitoring CMV shedding, its culturing is associated with extensive monolayer toxicity, isolation failures, and lengthy detection times. Inoculation of fractionated semen with immunoperoxidase staining of monolayers eliminated virtually all toxicity, increased isolation rates and monolayer infectivity, and greatly reduced detection times. Semen specimens (n = 73) were processed conventionally (C) or separated into supernatant (SF) and cellular pellet (PF) fractions, and 35% of C and SF inocula produced extensive toxicity. In contrast, virtually no toxicity was observed in monolayers inoculated with PF. C and SF isolation rates were 41 of 73 and 38 of 73, respectively, whereas that for PF was 51 of 73. Although monolayer infectivity at initial CMV detection was often less than 10% for C and SF, it was as much as 25% for PF. Average detection times were reduced from 13 days for C and SF to 6 days with PF and were further reduced to 3 days when PF inoculation was combined with immunoperoxidase staining. Thirty percent of specimens negative by C were positive by PF.

Immunofluorescence for detection of antibodies against human cytomegalovirus-induced membrane antigens

This paper describes an improved method for the in vitro detection of antibodies specifically directed against human cytomegalovirus (CMV)-induced membrane antigens present on the surface of CMV-infected fibroblasts (CMV-MA). Viable cells were found to be essential for specific visualization of CMV-MA staining. The addition of divalent cations (2.6 mM Ca2+ and 2.2 mM Mg2+) and glucose (180 mM) to the incubation and washing buffers improved the viability and morphology of the cells and increased the cell yield at the end of the assay. Clustering of antigen-antibody complexes on the surface of viable CMV-infected cells was prevented by low-temperature incubation (0 to 4 degrees C) rather than by the addition of agents which act on the metabolism of the cell. No interaction with the CMV-induced Fc receptor was observed at 0 degrees C with either human sera or murine monoclonal antibodies. The specificity of the CMV-MA reaction was confirmed by using monoclonal antibodies to CMV nuclear, cytoplasmic, and membrane-associated antigens. Furthermore, a microplate modification of the membrane fluorescence test is described which is suitable for multisample screening purposes. This method can be applied to the determination of anti-CMV-MA antibody titers in human sera and to the screening of hybridoma supernatants for the presence of antibodies with specificity for CMV-MA.

Synthesis and processing of bovine herpesvirus 1 glycoproteins

Four unique glycoproteins or glycoprotein complexes were recognized by a panel of monoclonal antibodies to bovine herpesvirus 1 (BHV-1), i.e., GVP 6/11a/16 (130,000-molecular-weight glycoprotein [130K glycoprotein]/74K/55K), GVP 7 (108K), GVP 3/9 (180K/91K), and GVP 11b (71K). The absence of any antigenic or structural relationship between GVP 11a and GVP 11b, which were previously identified as one glycoprotein, GVP 11, demonstrated that these two GVP 11 species are unique glycoproteins. GVP 3 and GVP 9 showed complete sequence homology, as shown by the identity of their antigenic determinants and by partial peptide mapping. This observation, as well as the ratio of their apparent molecular weights, indicated that GVP 3 (180K) is a dimeric form of GVP 9 (91K). GVP 6 and GVP 11a, as well as GVP 6 and GVP 16, showed at least partial sequence homology, since they shared several antigenic determinants and peptides. In addition, GVP 6, GVP 11a, and GVP 16 were derived from one primary precursor. These results, as well as the ratio of their apparent molecular weights, indicated that the GVP 6/11a/16 complex consists of two forms: one in which GVP 6 (130K) is uncleaved and the other one in which GVP 6 is cleaved and composed of GVP 11a (74K) and GVP 16 (55K), linked by disulfide bridges. An antigenically distinct precursor to each of the four BHV-1 glycoproteins or glycoprotein complexes was identified by monoclonal antibodies. These precursors, pGVP 6 (117K), pGVP 11a (62K), pGVP 7 (100K), pGVP 9 (69K), and pGVP 11b (63K) were sensitive to endo-beta-N-acetylglucosaminidase H treatment, indicating that they represent the partially glycosylated high-mannose-type intermediate forms generated by cotranslational glycosylation of the primary, unglycosylated precursors to GVP 6/11a/16, GVP 7, GVP 3/9, and GVP 11b, which were identified as having apparent molecular weights of 105,000, 90,000, 61,000, and 58,000, respectively. A new nomenclature for the BHV-1 glycoproteins, based on roman numerals, is proposed.

Immune responses to isolated human cytomegalovirus envelope proteins

A group of envelope proteins of human cytomegalovirus, gA protein (L. Pereira, M. Hoffman, M. Tatsuno, and D. Dondero, Virology 139:73-86, 1984; L. Pereira, p. 383-404, in B. Roizman, ed., The herpesviruses, vol. 3, 1985), and two protein mixtures (58,000-molecular-weight [58K]-66K and 130K-66K), separated by serial columns prepared with anti-gA immunoglobulin G from sera of immunized guinea pigs, induced neutralizing antibodies and a cellular immune response in the animals. The gA is a disulfide-linked protein complex consisting of high-molecular-weight (greater than 200K), 130K-150K, and 55K-58K proteins.

HTLV-III/LAV viral antigens in lymph nodes of homosexual men with persistent generalized lymphadenopathy and AIDS

The presence of core antigens of retrovirus HTLV-III/LAV, referred to as "AIDS-related virus" (AV), has been sought in lymph node samples of patients with persistent generalized lymphadenopathy (PGL, 28 patients), prodromal AIDS (1 patient) and AIDS with Kaposi sarcoma (3 patients). In 30 patients the deposition of viral antigens, detected by monoclonal antibodies to HTLV-III and LAV, could be observed within the germinal centers (GCs) primarily within the extracellular network of immune complexes, and the two patients who were negative were atypical. No AV could be found in normal tonsil or in samples with follicular hyperplasia of unknown etiology (20 cases). These findings, taken together with the ultrastructural identification of typical retrovirus particles in all 9 PGL and 2 AIDS cases studied, indicates that the network of follicular dendritic (FD) cells is an important reservoir of AV virus antigen at this site. The persistence of this retrovirus inside the GCs helps explain how the follicular hyperplasia affecting FD cells and B blasts in PGL may in progressive cases be accompanied by destruction of FD cells and gradual development of T4+ lymphopenia. T4+ T cells may circulate through the GCs and become infected with AV there. In addition, the identification of retrovirus antigen in situ may be of diagnostic value.

Detection of cytomegalovirus by ELISA in urine samples is inhibited by beta 2 microglobulin

During development of an enzyme immunoassay for the detection of cytomegalovirus (CMV) we previously discovered that virus found naturally in urine specimens could not be captured onto the solid phase by CMV-specific monoclonal antibodies, whereas these same antibodies could capture CMV from cell culture supernatants. We now report that urine from normal CMV-seronegative individuals contains a substance of molecular weight 11-12,000 daltons that inhibits the ELISA detection of cell culture-grown CMV. The addition of a known urinary protein of this molecular weight, beta 2 microglobulin (beta 2m; 11,700 daltons), inhibited the detection of cell culture-grown CMV in the ELISA over the concentration range found in clinical urine samples. In contrast, another low molecular weight urinary protein, lysozyme, had no inhibitory effect. beta 2m caused inhibition only when added to the virus preparation and not to the antibody-capture stage. We conclude that beta 2m in urine prevents the detection of CMV by ELISA by binding to the virus and masking its antigenic determinants and we calculate that of the order of 10(5) molecules of beta 2m bind to each particle of cell culture-grown CMV. We postulate that CMV in fresh urine specimens is similarly coated with beta 2m, accounting for the failure to detect it by ELISA.

Synthesis and processing of the envelope gp55-116 complex of human cytomegalovirus

The envelope of human cytomegalovirus has been reported to contain between three and eight glycoproteins. Major constituents of the envelope include two abundant glycoproteins with estimated molecular weights of 55,000 (gp55) and 116,000 (gp116). These two glycoproteins have been shown to exist as a disulfide-linked complex (gp55-116) within the envelope of mature virions. Utilizing a panel of monoclonal antibodies reactive with the gp55-116 complex, we characterized the synthesis and processing of these two virion proteins. Infected cells were shown to contain two glycosylated proteins of 160,000 and 150,000 daltons as well as the mature gp55 and gp116. Pulse-chase analysis indicated that gp150 was a precursor protein of gp160. The mature gp55 and gp116 were generated, in turn, by cleavage of gp160. Antigenic and structural analysis revealed that gp55 and gp116 shared little structural homology and no detectable antigenic cross-reactivity. The results of this study are discussed in relation to the synthesis of envelope proteins of other herpesviruses.

Regulation of cytomegalovirus late gene expression: gamma genes are controlled by posttranscriptional events

We investigated the control of human cytomegalovirus (CMV) late (gamma)-gene expression in human fibroblast cells. Transcriptional activity of two gamma genes, encoding ICP27, a structural component (matrix or tegument) of virions, and ICP36, a major DNA-binding protein family, was followed by analysis of steady-state RNA levels during viral infection. Synthesis of the protein products of these genes was analyzed with specific monoclonal antibodies in conjunction with sensitive immunoblot or immunoprecipitation analysis. Although accumulation of ICP27 and ICP36 was not abundant until late times, both late genes were as transcriptionally active at early times (4 h postinfection) as at late times (48 h postinfection). Reduced amounts (less than 5% of late levels) of the protein products were detected at early times, demonstrating that a small proportion of the ICP27 and ICP36 RNA made at this time was translated. These observations establish that expression of at least two CMV gamma genes is regulated through posttranscriptional events. The very early transcriptional activation of late genes and the relative importance of posttranscriptional regulation to late-gene expression distinguishes CMV from other well-studied herpesviruses and does not appear analogous to late-gene regulation in any other DNA animal virus.

Anti-complement immunofluorescence establishes nuclear localization of human cytomegalovirus matrix protein

A monospecific, polyclonal antiserum to the 69-kDa matrix protein of human cytomegalovirus (HCMV) was prepared in a guinea pig and used to determine the intracellular distribution of this viral antigen. The resulting antiserum was specific for infected cells as tested by immunofluorescence, and specific for the HCMV matrix protein as determined by "nitrocellulose immunoassay" of electrophoretically separated, infected-cell proteins. Antibodies were reacted with fixed, infected human fibroblasts, and visualized by the anti-complement immunofluorescence procedure to avoid complications arising from the strong IgG Fc binding activity of the infected-cell-specific cytoplasmic inclusion. Results establish that the matrix protein is located in the nucleus, and indicate that it is concentrated in the nucleoplasm rather than within the intranuclear inclusions.

A murine monoclonal antibody recognising a single glycoprotein within a human cytomegalovirus virion envelope glycoprotein complex

Nonionic detergent solubilised polypeptides from highly purified human cytomegalovirus virions were used as immunogens to produce murine monoclonal antibody secreting hybridomas. One monoclonal antibody was shown, by immunoprecipitation followed by SDS-polyacrylamide gel electrophoresis (SDS-PAGE), to precipitate three glycoproteins with molecular weights 52, 95, and 130 (all X 10(3)) and one minor component with a molecular weight of 50 X 10(3). When virion envelope components were first separated by SDS-PAGE and electrophoretically transferred to nitrocellulose membranes, this monoclonal antibody recognised two related components with molecular weights 50 and 52 (both X 10(3)). Immunofluorescence studies suggested that these viral antigens were associated with membrane systems of virus-infected cells and were particularly abundant late in infection.

Preparation of highly purified human cytomegalovirus envelope antigen

A human cytomegalovirus (HCMV) envelope preparation was highly purified by immunoaffinity column chromatography using an anti-cellular-IgG column. The purified envelope induced high titre antibodies to HCMV in guinea-pigs. Analysis of the guinea-pig immune sera by RIA and immunofluorescence (IF) showed that this envelope preparation, unlike its unpurified counterpart, did not induce antibody to cellular contaminants. Dot-blot assay revealed viral proteins in the flow-through fraction and cellular proteins in the bound fractions. Results of sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis of flow-through and bound fractions suggest that a number of proteins previously identified as virus-specific may, in fact, reflect cellular contamination of the envelope preparation, or crossreactivity of some virus-specific proteins with cellular proteins.

Distinction of viral and host-derived glycopolypeptides induced by "early" functions of human cytomegalovirus

Human cytomegalovirus is shown to induce in phosphonoacetic acid-treated human fibroblasts glycosylation of five polypeptides with approximate molecular weights of 200-250, 150, 135, 130 and 100 kilodaltons (kd). Except for the 130 kd product, these glycopolypeptides (gp) separate with the cytoplasmic fraction, only one (200-250 kd) with the chromatin fraction as well. The gp of 135 and 100 kd were found to be virus-specified as determined by immunoblotting and immunoprecipitation. The gp of 200-250 kd exhibited an immunological relatedness to fibronectin and are therefore considered host-specific products. Both subsets of gp participate in virus-induced surface membrane alterations as documented by living cell immunofluorescence.

Monoclonal antibody for rapid laboratory detection of cytomegalovirus infections: characterization and diagnostic application

Monoclonal antibodies to early (2H2.4, molecular weight 72,000 daltons) and late (2F3.0, molecular weight 68,000 daltons) antigens of the AD-169 strain of cytomegalovirus (CMV) were prepared by fusing mouse spleen cells with NS-1 mouse myeloma cells. The 2H2.4 monoclonal antibody produced a dense immunofluorescence with prominent lobular staining within the nucleus of CMV-infected substrate cells, whereas the reaction of 2F3.0 was more diffuse and generally involved the entire nucleus of the cells. Both monoclonal antibodies had little or no neutralizing activity against CMV in plaque-reduction assays. No cross-reactions were observed between these monoclonal antibodies and other members of the herpesvirus group. The 2H2.4 monoclonal antibody to early CMV antigen was used in a shell vial assay with a low-speed centrifugation step for the rapid (within 16 hours after inoculation) diagnosis of CMV infections. Optimal conditions for the test included centrifugation of shell vials at 700 X g for 45 minutes at 36 degrees C. An inoculum volume of 0.2 ml provided a reasonable balance between the optimal sensitivity for detecting specific viral fluorescence and the easy discrimination of the specific immunofluorescence from the background debris. Because of the commercial availability of the monoclonal antibody and the simplicity of the procedures used in the shell vial assay and subsequent fluorescence techniques, this rapid assay can be done in any laboratory that is familiar with cell culture manipulations.

Viral polypeptides detected by a complement-dependent neutralizing murine monoclonal antibody to human cytomegalovirus

Murine monoclonal antibodies were produced which coimmunoprecipitated, under reducing conditions, 130,000- and 55,000-dalton (Da) polypeptides from cells infected with human cytomegalovirus (CMV) strain AD169. A 92,000-Da species, possibly a biosynthetic intermediate, was also detectable. One of the monoclonal antibodies, 15D8, neutralized CMV AD169 only in the presence of guinea pig complement. A second monoclonal antibody, 14E10, coimmunoprecipitated the 130,000- and 55,000-Da polypeptides but did not neutralize viral infectivity. By sequential immunoprecipitation, both monoclonal antibodies have been shown to recognize the same polypeptides. Monoclonal antibody 15D8 detected the 130,000- and 55,000-Da polypeptides in five of six clinical strains and three laboratory strains tested. The 14E10 monoclonal antibody detected the 130,000-Da protein in four of six CMV clinical isolates and in strain AD169 but did not immunoprecipitate any polypeptides from extracts of cells infected with either Towne or Davis laboratory strains. In kinetic studies, the synthesis of the 130,000-Da polypeptide preceded the appearance of the 55,000-Da polypeptide. In infected cells radiolabeled with a pulse of L-[35S]methionine, the isotope was initially detected in the 130,000-Da polypeptide but could be chased into the 55,000-Da polypeptide. These polypeptides exist in the intracellular and extracellular virus as disulfide-linked multimers. Extracellular virus contained a high-molecular-weight (greater than 200,000 Da) multimer composed entirely of 55,000-Da polypeptides. In extracts from infected cells an additional high-molecular-weight multimer was detected consisting of disulfide-linked 130,000-Da polypeptides.

Detection of cytomegalovirus in urine samples by enzyme-linked immunosorbent assay

An enzyme-linked immunosorbent assay (ELISA) was developed for the detection of cytomegalovirus (CMV) in urine using monoclonal antibodies directed against CMV as a capture for viral antigen. The assay was capable of detecting virus at 10(2.3)TCID50/ml as determined by titration of stock virus, strain Ad169. The assay was found to have a sensitivity of 65% and a specificity of 100% when 73 coded stored urine specimens were examined. Assuming that the poor sensitivity was due to loss of antigen following storage, we proceeded to analyse fresh urine specimens. Surprisingly, the assay gave negative results with 46 fresh urines known to contain CMV; however, following storage at +4 degrees C for two weeks, 35 (76%) of these samples gave ELISA results in the positive range. This detection of CMV, after storage at +4 degrees C, could be due to degradation of virus particles leading to release of soluble glycoproteins into the medium or to the presence of an inhibitory substance in fresh urine that is destroyed during storage.

Antigenic and immunogenic characteristics of bovine herpesvirus type-1 glycoproteins GVP 3/9 and GVP 6/11a/16, purified by immunoadsorbent chromatography

Glycoproteins GVP 3/9 and GVP 6/11a/16, two of the major glycosylated proteins specified by bovine herpesvirus type-1 (BHV-1), were purified on immunoadsorbents consisting of the appropriate monoclonal antibodies linked to Affigel-10. Each glycoprotein, whether purified from virus-infected cells or from virus, retained antigenic activity and induced high titers of monospecific antibodies in rabbits. These antibodies could neutralize virus and mediate complement-dependent lysis of virus-infected cells. Denatured glycoproteins GVP 3, GVP 6, GVP 11a, and GVP 16, which were purified by immunoadsorbent chromatography, followed by preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis, also retained antigenicity and immunogenicity, though to a lesser extent than the native glycoproteins. Antibodies induced by GVP 9, GVP 6, and GVP 11a could also neutralize and mediate immune lysis. Even though GVP 16 induced high levels of antibody, these antibodies could not neutralize virus or participate in antibody and complement-mediated cytolysis. These results may suggest that the orientation of GVP 6/11a/16 in the membrane is such that GVP 11a is better exposed on the virion envelope and the cell surface than GVP 16. Cross-reactivity between monospecific antibodies against GVP 3 and GVP 9, as well as GVP 6, GVP 11a, and GVP 16 supported the previously proposed hypothesis that GVP 3 (180K) is a dimer of GVP 9 (91K) and that GVP 6 exists in two forms: one being a 130K polypeptide and the other composed of GVP 11a (74K) and GVP 16 (55K) linked by disulfide bonds. These data suggest that, thus far, either GVP 6/11a/16 or GVP 3/9 may be a potential candidate for a subunit vaccine against BHV-1 infection.

Sodium butyrate selectively inhibits host cell glycoprotein synthesis in human fibroblasts infected with cytomegalovirus

Host cell as well as viral DNA synthesis in human fibroblasts infected with human cytomegalovirus was found to be largely resistant even to high concentrations of sodium butyrate. Likewise, production of viral progeny was reduced by 1-2 orders of magnitude but not abolished. On the other hand, the drug allowed (modified) glycosylation only of viral polypeptides whereas that of host proteins was suppressed. Immunofluorescence studies on living cells suggested that butyrate may interfere with processing and intracellular transport of virus-specific surface membrane antigens.

Rapid neutralization assay for human cytomegalovirus antibody

Human cytomegalovirus induces the appearance of immediate early antigens in infected cells 1 h after infection. This provided the basis for the development of a rapid neutralization assay for cytomegalovirus antibody which was able to yield results within a single day. Indirect immunofluorescence to visualize immediate early antigen-positive cells was applied to the rapid determination of cytomegalovirus-neutralizing antibody. The neutralization titers obtained with this assay on 92 serum samples were in accordance with the immune status as determined by enzyme-linked immunosorbent assay to cytomegalovirus-induced immediate early, early, and late antigens.

Rapid detection of cytomegalovirus in cell culture by indirect immunoperoxidase staining with monoclonal antibody to an early nuclear antigen

A method for the rapid detection of cytomegalovirus (CMV) in MRC-5 cells 48 h after inoculation with clinical specimens was developed. A commercially available monoclonal antibody to a CMV early nuclear antigen was used in an indirect immunoperoxidase (IPA) staining procedure performed directly on acetone-fixed cell monolayers in standard tubes (16 by 125 mm). Of 190 clinical specimens tested, 30 specimens produced CMV cytopathic effect in tissue culture (TC-CPE) within 14 days after inoculation and, of these 30, 28 were positive for CMV after 48 h by the IPA staining procedure (sensitivity, 93%). Of the remaining 160 clinical specimens negative by TC-CPE within 14 days, 7 were positive by the IPA stain (specificity, 96%). However, three of these seven specimens were positive by TC-CPE upon subculture after the initial 14-day incubation period, and one specimen was overgrown by herpes simplex virus type 2 before CMV cytopathic effect could develop. The mean time to appearance of cytopathic effect for the 30 specimens positive by TC-CPE within 14 days was 6.7 days. These findings indicate that this IPA staining is a useful method for the rapid detection of CMV in cell monolayers inoculated with clinical specimens.

Antibody response to cytomegalovirus polypeptides captured by monoclonal antibodies on the solid phase in enzyme immunoassays

Antibodies to different cytomegalovirus (CMV) polypeptide antigens, captured by monoclonal antibodies coated on the solid phase of an enzyme immunoassay test, were analyzed in 42 serum pairs submitted for serodiagnosis of CMV infection. Three CMV antigens, captured on the solid phase by three monoclonal antibodies of different specificities, designated CH92-1, CH65-1, and CH16-1, were glycoproteins A (gA), gC, and gD, respectively; and one antigen, captured by CH23, was a polypeptide with an apparent molecular weight of 150,000, possibly associated with the nucleocapsid. Of these four CMV antigens, gA captured by CH92-1 was most effective in eliciting an antibody response. Antibody to this antigen was present in serum samples at a higher concentration in primary and reactivated infection and persisted longer than did antibody to the other tested antigens. In contrast, antibody to antigen captured by CH23 was at a lower concentration, rose more slowly in infection, and persisted for a shorter time than did antibody to the other antigens. Antibody response to gC and gD was intermediate in concentration and temporal appearance compared with the antibody response to gA and to the polypeptide bound by CH23. An enzyme immunoassay on paired serum samples with the captured glycoproteins as antigen was equal for the detection of current infection to an enzyme immunoassay with the whole CMV antigen from infected cell lysates. Enzyme immunoassays with either the CMV glycoproteins or the whole CMV antigen from infected cell lysates were superior to a complement fixation test with a glycine extract antigen for serodiagnosis of current infection.

Comparison of standard tube and shell vial cell culture techniques for the detection of cytomegalovirus in clinical specimens

A monoclonal antibody was used to detect an early antigen of cytomegalovirus (CMV) by fluorescence 16 h after inoculation of MRC-5 monolayers in 1-dram (ca. 3.7-ml) shell vials and low-speed centrifugation. Of 770 specimens (urine, blood, lung tissue, sputum) processed in shell vials, 124 (16%) were positive for the virus at 16 h postinfection. CMV was isolated in standard tube cell cultures (average time, 9 days) from only 88 specimens, but there were no instances (with the exception of 2 blood specimens) in which CMV was recovered from tube cultures but not from shell vials. Additional specimens from 18 patients were positive in the shell vial assay but negative in the conventional tube cell culture assay. Other specimens from 14 of the 18 patients yielded CMV in conventional tube cell cultures. Of the 4 patients from whom CMV was not recovered from other specimens by conventional tube cell culturing, all had evidence of recent CMV infections, as indicated by a fourfold or greater rise in antibody titer. The specificity of the shell vial assay for the detection of CMV is supported by assays of other specimens from the same patients yielding the virus or serological evidence indicating recent infections, the known enhancement of CMV detection after centrifugation of the shell vials, and the distinct and easily recognizable fluorescence confined to the nuclei of CMV-infected cells. Our data indicate that the shell vial cell culture assay for the detection of CMV is as specific as and more sensitive than conventional tube cell culturing for the diagnosis of CMV infections.

Precise localization of genes on large animal virus genomes: use of lambda gt11 and monoclonal antibodies to map the gene for a cytomegalovirus protein family

We describe an efficient procedure, which uses monoclonal antibodies directed against specific viral proteins, for the precise mapping of genes on large DNA virus genomes. We have used the technique to locate the gene encoding a family of antigenically related DNA-binding proteins on the 240-kilobase-pair human cytomegalovirus (CMV) genome. A random library of CMV DNA fragments was generated using the prokaryotic vector lambda gt11, which expresses open reading frames as beta-galactosidase fusion proteins in infected Escherichia coli. The library was screened with a mixture of monoclonal antibodies directed against the gene products of interest. The coding sequence for infected cell protein 36 (ICP36) was localized to a 2800-base-pair EcoRI fragment (map coordinates 0.228-0.240) on the CMV(Towne) and CMV(AD169) genomes by using DNA from immunoreactive lambda gt11 as probe. A 5000-nucleotide transcript from this region was detected during the early and late phases of the CMV growth cycle. This transcript directed the synthesis of the predominant member of the ICP36 family when hybrid-selected and translated in vitro. Immunoprecipitation of the in vitro translation product with the same monoclonal antibodies used in the initial mapping confirmed the location of the ICP36 gene. These studies establish the utility of the lambda gt11 expression system for rapid and precise mapping of CMV genes (or other large animal virus genes) that encode proteins for which serological reagents exist.

Rapid diagnosis of cytomegalovirus infection in immunocompromised patients by detection of early antigen fluorescent foci

Cell-cultures of cytomegalovirus (CMV) were fixed after 24 hours' incubation and examined by a monoclonal antibody based immunofluorescence method for the detection of CMV-specific early antigens. 385 urine, saliva, or blood samples from 63 immunocompromised patients were inoculated onto cell-cultures. Comparison with the results of conventional cell-cultures in patients who remained uninfected showed that the new technique had a specificity of 100%. The sensitivity was 80%. This immunofluorescence method gave positive results 27h after inoculation of the specimens instead of the mean of 17 X 5 days with the conventional method based on detection of cytopathic effect. 3 saliva samples, from patients who had previously excreted CMV, reacted in the immunofluorescence method but CMV, reacted in the cell-cultures-perhaps because the assay identified defective, interfering particles in these samples. The monoclonal antibodies were also used successfully in another immunofluorescence system to diagnose cytomegalovirus pneumonitis in 3 patients by testing material obtained by bronchoalveolar lavage.

Polymorphism of human cytomegalovirus glycoproteins characterized by monoclonal antibodies

Monoclonal antibody panels selected in this and preceding studies were employed to begin to characterize the properties of human cytomegalovirus (CMV) glycoproteins. The results were as follows. (i) Four antigenically distinct CMV glycoproteins designated as gA, gB, gC, and gD have been identified. (ii) gA, gC, and gD each form several bands when immune precipitated from infected cell extracts by the corresponding monoclonal antibodies and electrophoretically separated in sodium dodecyl sulfate-polyacrylamide gels. In contrast, gB migrated at one broad band with an apparent molecular weight in the range of 116,000 to 123,000. Bands with different molecular weights were shown to share antigenic determinants by reactivity of monoclonal antibodies with electrophoretically separated polypeptides immobilized on nitrocellulose. (iii) A panel of 16 monoclonal antibodies to gA precipitated a family of glycoproteins 160,000-148,000, 142,000, 138,000, 123,000-107,000, 95,000, and 58,500 in apparent molecular weight designated as gA1 through gA6, respectively. (iv) To identify partially glycosylated precursors of gA, infected cells were treated with tunicamycin or deoxyglucose and reacted with different monoclonal antibodies. Tunicamycin-treated infected cells labeled for a short pulse or longer intervals contained only gA5. Whereas cells treated with deoxyglucose during a pulse contained gA4, those labeled for a longer interval contained gA6 and an additional band approximately 56,500 in apparent molecular weight designated gA7. (v) Precipitates of gA from infected cells labeled for a short pulse contained gA2 and gA3 which appear to be products of rapid glycosylation. After a chase, trace amounts of gA1 and gA6 were also precipitated suggesting that these are products of slow post-translational processing. (vi) Endo-beta-N-acetylglucosaminidase H was used to identify the forms of gA which contain high-mannose oligosaccharide chains. After treatment, the electrophoretic mobility of gA2, gA3, and gA6 increased significantly suggesting that these forms contain high-mannose chains cleaved by the enzyme. A hypothesis for processing gA is presented.