Isolation and characterization of monoclonal antibodies to structural and nonstructural herpesvirus saimiri proteins

An improved screening procedure was applied to identify hybridomas secreting antibodies to herpesvirus saimiri-specified polypeptides among the products of fusions between SP2/0 myeloma cells and spleen cells from mice immunized with purified virus particles or virus-specific DNA-binding proteins. Twenty-four monoclonal antibodies were isolated with specificities for 13 different virus-specified polypeptides (or complexes of polypeptides), including the major capsid protein of the virus (150K), the 160K and 130K structural proteins, a 108K structural phosphoprotein, structural glycoproteins, the nonstructural early 76K protein, early nonstructural DNA-binding proteins of 48 to 51K and 110K and the major immediate-early protein of 52K. Antibody to the virus 76K protein precipitated a host protein of 62K, and a number of antibodies specific for host proteins were also isolated. Antibody to the 52K immediate-early polypeptide precipitated the delayed-early 76K protein, whereas the antibody to the 76K protein did not precipitate the 52K polypeptide. These observations suggest the presence of epitopes common to virus and host proteins and an antigenic site common to an immediate-early and a delayed-early virus protein. The antibodies were used to examine the sites of intracellular accumulation of virus polypeptides, the formation of complexes of structural proteins, and the postsynthetic processing of virus proteins. The present collection of monoclonal antibodies provides a set of reagents with specificities for members of each of the major kinetically or functionally distinct classes of virus gene products.     

Primary structure of the herpesvirus saimiri genome.

This report describes the complete nucleotide sequence of the genome of herpesvirus saimiri, the prototype of gammaherpesvirus subgroup 2 (rhadinoviruses). The unique low-G + C-content DNA region has 112,930 bp with an average base composition of 34.5% G + C and is flanked by about 35 noncoding high-G + C-content DNA repeats of 1,444 bp (70.8% G + C) in tandem orientation. We identified 76 major open reading frames and a set of seven U-RNA genes for a total of 83 potential genes. The genes are closely arranged, with only a few regions of sizable noncoding sequences. For 60 of the predicted proteins, homologous sequences are found in other herpesviruses. Genes conserved between herpesvirus saimiri and Epstein-Barr virus (gammaherpesvirus subgroup 1) show that their genomes are generally collinear, although conserved gene blocks are separated by unique genes that appear to determine the particular phenotype of these viruses. Several deduced protein sequences of herpesvirus saimiri without counterparts in most of the other sequenced herpesviruses exhibited significant homology with cellular proteins of known function. These include thymidylate synthase, dihydrofolate reductase, complement control proteins, the cell surface antigen CD59, cyclins, and G protein-coupled receptors. Searching for functional protein motifs revealed that the virus may encode a cytosine-specific methylase and a tyrosine-specific protein kinase. Several herpesvirus saimiri genes are potential candidates to cooperate with the gene for saimiri transformation-associated protein of subgroup A (STP-A) in T-lymphocyte growth stimulation.     

Mapping nucleolar proteins with monoclonal antibodies

Using monoclonal antibodies as probes, we have characterized three antigens with respect to localization in the nucleolus, molecular weight and solubility. Two proteins, of 110,000 and 94,000 apparent molecular weight, were found associated with the ribonucleoprotein fibers. A third protein, with a molecular weight of 40,000, was accumulated at the nucleolar periphery, was present in the nucleoplasm, and may be involved in pre-ribosome maturation and transport.     

Structural proteins of Herpesvirus saimiri.

Herpesvirus saimiri particles were purified from productively infected owl monkey kidney cell cultures, and the virion polypeptides were analyzed by polyacrylamide gel electrophoresis. A total of 21 predominant proteins were found in lysates of H. saimiri 11 particles by Coomassie blue staining or by [35S]methionine labeling and autoradiography; all proteins were between 160,000 and 12,000 daltons in size. They are most probably virion constituents, as most of them were precipitated by immune sera, and no dominant proteins of equivalent sizes were found in mock-infected cultures. Four glycoproteins (gp 155/160, gp 128, gp 84/90, gp 55) and three polypeptides that appeared not to be glycosylated (p71, p35, p28) were assigned to the envelope or matrix of virions, whereas at least four phosphoproteins (pp132, pp118, pp55, pp13) and ten polypeptides without apparent secondary modification (p155/160, p106, p96, p67, p53, p36, p32, p15, p14, p12) were found in the nucleocapsid fraction. Analysis of virion proteins from different H. saimiri strains did not reveal appreciable differences in the migration behavior of most polypeptides, including all glycoproteins; however, determination of a strain-specific size pattern was possible for three of four phosphoproteins. The overall similarity in protein architecture of H. saimiri strains obviously does not reflect the variability in biology, such as oncogenic properties. In comparison, DNA sequence divergences appear to remain a better taxonomic criterion for strain distinction.     

Organization of the thymidylate synthase gene of herpesvirus saimiri.

Herpesvirus saimiri codes, unlike most other herpesviruses, for a thymidylate synthase (TS). The TS gene of herpesvirus saimiri is unusual in structure and regulation of expression. It is transcribed into a nonspliced mRNA of 2,190 nucleotides. The single open reading frame of the viral TS gene, instructing a polypeptide of 33.5 kilodaltons, has extensive sequence homology with the corresponding TS coding sequences of human cells and of various procaryotes; the putative polypeptide derived from the nucleotide sequence of the herpesvirus saimiri TS gene is 70% identical with the human enzyme. The untranslated regions of the herpesvirus saimiri TS gene do not share homology with the other characterized eucaryotic or bacterial TS genes. The 5' untranslated sequence has 22 ATG triplets shortly followed by stop codons. The herpesvirus saimiri TS gene, which may be weakly transcribed during immediate early and early times of virus replication, is maximally expressed at the late phase. Various parameters suggest that the TS gene has been acquired in virus evolution by an ancestral herpesvirus from the cellular genome.     

Analysis of gene expression in a human cell line stably transduced with herpesvirus saimiri

Herpesvirus saimiri (HVS) is the prototype gamma-2 herpesvirus; it has significant homology to the human gammaherpesviruses Kaposi's sarcoma-associated virus and Epstein-Barr virus and the murine gammaherpesvirus murine herpesvirus 68. HVS causes a persistent asymptomatic infection in its natural host, the squirrel monkey. Both subgroups A and C possess the ability to immortalize common marmoset T lymphocytes to interleukin-2-independent proliferation. However, only subgroup C is capable of transforming human, rabbit, and rhesus monkey lymphocytes in vitro. In addition, HVS can stably transduce a variety of human cell lines where the virus persists as a nonintegrating circular episome. In this study, we have developed a system in which the HVS DNA is stably maintained as a nonintegrated circular episome in the human lung carcinoma cell line A549. Virus production can be reactivated using chemical inducing agents, including tetradecanoyl phorbol acetate and n-butyrate, suggesting that the infection in human A549 cells is latent. To analyze virus gene expression in these stably transduced cells, Northern blot analysis was performed using a series of probes produced from restriction fragments spanning the entire coding region of the HVS genome. This demonstrated that an adjacent set of genes containing open reading frames (ORFs) 71 to 73 are expressed in this stably transduced cell line. Moreover, these genes are transcribed as a polycistronic mRNA species produced from a common promoter upstream of ORF 73. This model may serve as a useful tool in the further analysis of the role of ORFs 71 to 73 in gamma-2 herpesvirus latency.     

Mapping of herpesvirus saimiri proteins on the viral genome: proteins dependent and not dependent on viral DNA synthesis.

Hybrid selected translation was used to map the genome of herpesvirus saimiri, a lymphotropic and oncogenic herpesvirus. RNA extracted from virus-infected cells was hybridized to cloned genomic fragments, and the hybrid selected mRNAs were translated in vitro in a rabbit reticulocyte lysate. Forty-five virus-induced polypeptides were identified and correlated to their coding regions on the herpesvirus saimiri genome. Inhibition of the replication of viral DNA with phosphonoacetic acid showed that 22 of these polypeptides belong to the early group of herpesvirus saimiri gene products.     

Identification and characterization of the herpesvirus saimiri oncoprotein STP-C488.

The protein encoded by herpesvirus saimiri transforming gene STP-C488 was identified and characterized. Antibodies were produced in rabbits by immunization with keyhole limpet hemocyanin-conjugated synthetic peptides specific for the predicted sequence of STP-C488. STP-C488-encoded protein was detected in recombinant Escherichia coli, transformed Rat-1 cells, transfected COS-1 cells, and in common marmoset T lymphocytes immortalized by herpesvirus saimiri strain 488. STP-C488 protein was sensitive to treatment by bacterial collagenase, consistent with the 18 uninterrupted collagenlike repeats predicted by the DNA sequence. The apparent molecular size of STP-C488 in sodium dodecyl sulfate (SDS)-polyacrylamide gels (20 to 22 kDa) was considerably larger than that predicted from the DNA sequence (9.9 kDa). Using indirect immunofluorescence tests and subcellular fractionation, STP-C488 was found to be membrane bound, primarily in perinuclear compartments. The 18 uninterrupted collagenlike repeats, sensitivity to collagenase, location in the cell, and anomalous migration through SDS-polyacrylamide gels suggest an unusual, membrane-associated, fibrous structure for this transforming herpesvirus oncoprotein.     

Epitope mapping of monoclonal antibodies against human immunodeficiency virus type 1 structural proteins by using peptides.

Murine monoclonal antibodies directed against the structural proteins p17 and p24 of human immunodeficiency virus type 1 were investigated in an epitope mapping system. Overlapping peptides consisting of 15 amino acids of the p17 and p24 protein, respectively, were used as competitors in an enzyme-linked immunosorbent assay. Three different immunogenic regions (A, B, and C) could be defined, one on p17 and two on p24. Twenty monoclonal antibodies reacted with the human immunodeficiency virus type 1 peptides of region B, although differences in the reactivity of these antibodies with human immunodeficiency virus type 2 and simian immunodeficiency virus strain mac were detectable. Recognized epitopes were characterized by computer analysis as described by T.P. Hopp and K.R. Woods (Proc. Natl. Acad. Sci. USA 78:3824-3828, 1981) and P.Y. Chou and G.D. Fasman (Biochemistry 13:222-245, 1974).     

Characterization of the structural proteins of the murine coronavirus strain A59 using monoclonal antibodies

Monoclonal antibodies reacting with the A59 strain of mouse hepatitis virus (MHV-A59) were characterized and those specific to the E2 major envelope glycoprotein were studied in detail. Antibodies were tested for their ability to neutralize viral infectivity (N+ characteristic) and prevent viral-induced cell-to-cell fusion (F+ characteristic). All four possible combinations of activities reflecting E2 functions were found, i.e., N+F+, N-F-, N+F-, and N-F+. In addition, competitive binding studies with these monoclonal antibodies revealed two nonoverlapping antigenic regions. The first region, designated A, was recognized by antibodies which included each of the four functional types. Region B was identified by a single monoclonal antibody with N-F- activities. The existence of antibodies which only neutralize virus or only block viral-induced fusion implies that the structures on E2 which serve as targets for neutralization and which induce fusion are not identical. The critical determinants for neutralization and fusion must be closely related topographically on E2 since both N+F- and N-F+ antibodies recognize the same antigenic region.     

Lysosomal membrane proteins of Amoeba proteus, as studied with monoclonal antibodies.

Monoclonal antibodies were prepared against lysosomal membrane proteins of amoebae and used to follow lysosome-phagosome fusion after induced phagocytosis. The specificity of antibodies was checked by indirect immunofluorescence microscopy, immunoelectron microscopy, and localization of the antigen in subcellular fractions. The antibody-recognized proteins started to appear on the membranes of phagolysosomes about 5 min after phagocytosis as detected by indirect immunofluorescence, and the intensity of fluorescence increased for up to 1 h. Results of injection experiments in which purified antibodies had been injected into living cells and probed by indirect fluorescence indicated that the antigens were located on the cytoplasmic side of the lysosomal membranes. Lysosomes fuse with phagosomes on the one hand but not with non-fusible vesicles such as symbiosomes on the other. The results support the view that a membrane component(s) of non-fusible vesicles somehow prevents lysosomes from fusing with them.     

In vitro immortalization of marmoset cells with three subgroups of herpesvirus saimiri

Sequences within the rightmost 7 kilobases of the unique L DNA of herpesvirus saimiri are required for oncogenicity of the virus. The same DNA region has been found to be highly variable among different strains of herpesvirus saimiri. On the basis of this variability, herpesvirus saimiri strains were classified into groups A, B, and non-A, non-B. Herpesvirus saimiri strains representing the three groups were used successfully for in vitro immortalization of phytohemagglutinin-activated, interleukin 2 (IL-2)-expanded peripheral blood lymphocytes of common marmosets (Callithrix jacchus). Peripheral blood leukocytes could be immortalized from only a subset of common marmosets (5 of 13). All of the immortalized cell lines contained covalently closed circular viral DNA molecules and initially showed a low level of virus production. Cells immortalized by group A and group non-A, non-B strains did not require IL-2 in the medium. However, the only group B immortalized cell line, 473-SMHI, did not grow well in the absence of IL-2. The different characteristics of cell lines immortalized by herpesvirus saimiri strains belonging to different groups may help to elucidate some functions coded by the highly variable DNA region which is involved in the oncogenic process.     

Common epitopes of serum retinol-binding proteins: a study with monoclonal antibodies.

Monoclonal antibodies were raised against purified chicken retinol-binding protein. These were characterised extensively with respect to their ability to recognize retinol-binding proteins from different species. The monoclonal antibodies exhibited differential recognition characteristics. Though the majority presented restricted reactivities, one out of the four monoclonal antibodies studied cross-reacted with retinol-binding proteins from all species tested so far.     

Cytoplasmic proteins of porcine adipocytes: identification with monoclonal antibodies

In the present study, monoclonal antibodies were produced using porcine adipocyte extracts as the immunogen. Two of the monoclonal antibodies, designated CB6 and IB4, exhibited reactivity toward only cells containing lipid in stromal-vascular cell cultures. The antigens recognized by the CB6 and IB4 monoclonal antibodies were 50 kD and 55 kD proteins, respectively. In vivo, IB4 immunoreactivity was detected only in lipid-containing cells, whereas immunofluorescence using CB6 was also detectable around muscle fiber bundles underlying the subcutaneous mesenchyme. In fetal subcutaneous mesenchyme, CB6 and IB4 immunoreactivities toward lipid-containing cells increased with developmental age, but each was not detectable in cells containing the smallest lipid droplets. In stromal-vascular cultures containing adipocytes, 48 hour treatment with the anti-lipogenic agent, growth hormone, only slightly altered CB6 immunoreactivity, whereas IB4 immunoreactivity was reduced by more than sixfold. The exact identity of the CB6 and IB4 antigens was not determined, but each may be useful as markers for studying regulation of adipocyte metabolism.     

Expression of collagenlike sequences by a tumor virus, herpesvirus saimiri.

Sequencing demonstrates that the oncogenic regions of a group A strain and a group C strain of herpesvirus saimiri are nonhomologous. A bicistronic viral mRNA from this region is transcribed in tumor cells transformed by a highly oncogenic group C virus. The first open reading frame is homologous to collagen; no such sequences were found in group A or B strains. This is the first report that a virus encodes for sequences similar to those of a connective tissue protein.     

Genetic variation of herpesvirus saimiri subgroup A transforming protein and its association with cellular src.

Herpesvirus saimiri strain 11 of subgroup A contains a gene called the saimiri transformation-associated protein, STP, which is not required for viral replication but is required for in vitro immortalization and for the lymphoma-inducing capacity of the virus. To assess the effects of sequence variation on STP function, STP genes from six subgroup A isolates were cloned and sequenced. Sequence comparisons revealed extensive amino acid substitutions within the central region, but the acidic amino terminus and the hydrophobic carboxyl terminus were well conserved. Amino acid identities varied from 73 to 99% among all two-way comparisons. The highly conserved YAEV/I motif at amino acid residues 115 to 118 was preceded by negatively charged glutamic acid residues and thus matched very well the consensus sequence for binding to SH2 domains of src family kinases. The STPs of these subgroup A strains were shown to associate with cellular src and to be an in vitro substrate for src kinase. Mutational analysis of STP-A11 showed that binding to src kinase required the tyrosine residue at 115, showing that YAEV/I is a likely binding motif for src. Also, tyrosine phosphorylation of STP-A11 by src led to subsequent binding to lck and fyn in vitro. Thus, the association of STP with src is likely to be important for T-cell transformation by subgroup A strains of herpesvirus saimiri.