Growth factor(s) produced during infection with an adenovirus variant stimulates proliferation of nonestablished epithelial cells.

Infection of primary baby rat kidney cells with an adenovirus variant that encodes only the 12S gene of the E1A region, adenovirus type 5 (Ad5) 12S, results in the production of a growth factor that stimulates primary epithelial cells to proliferate. Increased epithelial cell DNA synthesis and proliferation is detectable between 24 and 36 hr after the addition of conditioned medium from Ad5 12S infected cells and not from cells infected with an E1A deletion mutant virus, Ad5 dl312. This mitogenic factor(s) is effective in the absence of serum and can override the inhibitory effect of serum on primary epithelial cells. Furthermore, there is a requirement for the continued presence of the growth factor(s) in the Ad5 12S conditioned medium to maintain epithelial cell proliferation, and the conditioned medium can maintain these cells in a proliferative state for at least 6 wk. The stimulatory activity in Ad5 12S conditioned medium is associated with large molecular weight complexes, from which it can be released by 4 M NaCl. Several characteristics of the growth factor(s) indicate that it is a unique mitogen for epithelial cells.     

Adenovirus type 12 early region 1A proteins repress class I HLA expression in transformed human cells

The adenovirus type 12 (Ad12) early region 1A (E1A) gene is thought to play a major role in repressing class I major histocompatibility complex expression in transformed rodent cells. However, since transformation by adenovirus requires both E1A and E1B genes, it has not been demonstrated whether the Ad12 E1A gene acts alone or synergistically with the E1B gene to accomplish this effect. Moreover, it is not known whether the repression of class I antigen synthesis by Ad12-transforming gene products occurs only in rodent cells. We show that the Ad12 E1A gene, in the absence of the E1B gene, is capable of greatly reducing the levels of class I HLA antigens and mRNAs in primary human cells transformed by the E1A gene of Ad12 and the large tumor antigen (T-antigen) gene of BK virus; control cells transformed by BK virus T-antigen gene alone or the highly related simian virus 40 T-antigen gene showed no apparent alteration in class I HLA expression. Human recombinant interferon gamma was able to restore synthesis of class I HLA antigens in transformed cells that produced Ad12 E1A proteins, indicating that these cells were not deficient for class I genes. These results strongly indicate that the Ad12 E1A proteins modulate class I gene expression by similar mechanisms in both transformed rodent and human cells.     

Biological activity of purified simian virus 40 T antigen proteins.

Proteins related to simian virus 40 (SV40) T antigen uere isolated from cells infected with adenovirus 2/SV40 hybrids Ad2+D2 and Ad2+ND1 dp2 as well as from a line of human cells (SV80) transformed by SV40. The 96,000- and 107,000-dalton proteins of SV80 and Ad2+D2, after injection into the cytoplasm of cultured cells, rapidly accumulate in the nuclei, where they remain antigenically reactive for at least 20 hr and trigger DNA synthesis in quiescent cells. By contrast, the 23,000-dalton protein coded by Ad2+ND1 dp2 does not stimulate cellular DNA synthesis. However, all three purified proteins are able to provide helper function for the growth of adenovirus 2 in monkey cells. Thus, purified SV40 T antigen and proteins that share sequences with it retain the ability to carry out at least two functions associated with the product of the A gene of SV40.     

Expression of histocompatibility antigens H-2K, -D, and -L is reduced in adenovirus-12-transformed mouse cells and is restored by interferon gamma.

Primary mouse cells transformed by adenovirus type 12 (Ad12) expressed negligible amounts of class I antigens H-2K, -D, and -L on the cell surface and were capable of forming tumors in syngeneic animals, whereas cells transformed by Ad5 continued to express class I antigens and were nontumorigenic. Cells from a tumor, generated by injection of Ad12-transformed mouse cells into a syngeneic mouse, also expressed low levels of H-2 antigens, indicating that this phenotype is maintained in vivo. In all Ad12-transformed cells, synthesis of the H-2 heavy chain was not detected whereas the beta 2-microglobulin light chain was synthesized. Furthermore, the level of cytoplasmic H-2 mRNA in the Ad12 lines was greatly reduced. Reduction of H-2 expression is instructed solely by the transforming region of the viral genome, since this repression occurred in cells transformed by a DNA fragment containing only Ad12 E1A and E1B genes. Addition of recombinant murine interferon gamma strongly stimulated expression of class I antigens in the Ad12 transformants as well as in cells from the Ad12 tumor. This result indicates that Ad12 does not preferentially transform cells that are deficient for class I genes and that Ad12 does not mutate the class I genes in cells it transforms. The correlation between tumorigenicity and loss of H-2 expression in Ad12-transformed cells is discussed.     

Eukaryotic translational control: adeno-associated virus protein synthesis is affected by a mutation in the adenovirus DNA-binding protein.

Growth of adeno-associated virus (AAV) requires expression of certain adenovirus (Ad) genes in the same cell. AAV particles contain three proteins, VP1 (Mr 85,700), VP2 (Mr 72,000), and VP3 (Mr 61,500). These proteins have overlapping peptide maps. We recently reported that AAV RNAs make up a 3'-coterminal family of overlapping molecules. We report here that the most abundant AAV mRNA, a 2.3-kilobase spliced RNA, codes for all three proteins--VP1, VP2, and VP3--when translated in an in vitro reticulocyte lysate. This shows that the AAV capsid proteins are coded by the genome sequence between map positions 48.0 and 96.0 (1 map unit is 1% of the genome or 47 base pairs). When AAV was grown in human KB cells with the Ad temperature-sensitive mutant Ad5ts125 at the nonpermissive temperature (40 degrees C), the accumulation in vivo of AAV capsid proteins VP1, VP2, and VP3 was decreased to less than 1/50th. However, normal amounts of the 2.3-kilobase mRNA were accumulated, and this RNA could be efficiently translated in an in vitro reticulocyte lysate system to yield VP1, VP2, and VP3. These experiments suggest that in infected cells control is exerted upon the AAV 2.3-kilobase mRNA at the translational level and that this control can be influenced by mutations in Ad. These Ad mutations map in the region 2 early gene for the Ad DNA-binding protein. The temperature-sensitive system that we have studied may be useful for analysis of translational control of a eukaryotic mRNA.     

Concatemers of alternating plus and minus strands are intermediates in adenovirus-associated virus DNA synthesis.

Replicating DNA molecules of adenovirus-associated virus (AAV) were selectively extracted from KB cells coinfected at 39.5 detrees with a DNA minus, temperature-sensitive mutant of adenovirus 5 (ts125) as helper. Under these conditions AAV DNA replication proceeds normally, but there is little, if any, adenovirus DNA synthesis. An analysis of the replicating molecules in sucrose density gradients reveals that there are AAV DNA intermediates which consist of covalently linked plus and minus DNA strands. Under denaturing conditions, these concatemers are linear single strands whose lengths can reach at least four times the size of the AAV genome. The most abundant concatemeric species is a dimer which presumably exists in vivo as a unit length hairpin. Unit length linear duplexes appear to be immediate precursors of plus and minus progeny strands. These findings are compatible with a self-priming mechanism for the synthesis of AAV DNA.     

Use of adeno-associated virus as a mammalian DNA cloning vector: transduction of neomycin resistance into mammalian tissue culture cells.

Adeno-associated virus (AAV) is a human DNA virus that has a broad host range and can be grown both as an integrated provirus and as a lytic genome. These properties suggested that AAV may be useful as a mammalian transduction vector. To test this possibility, we have isolated a recombinant AAV viral stock in which the neomycin resistance gene was substituted for the AAV capsid genes. Using this recombinant stock, we have demonstrated that AAV can be used to transduce foreign DNA into human and murine tissue culture cells. In addition, we have demonstrated that, if the transductants are superinfected with a helper virus (adenovirus), the recombinant AAV genome is rescued from the proviral state and amplified to high copy number. These unique features of AAV vectors suggest that they may have a broad utility in the study of biological problems. Because AAV, itself, is nonpathogenic in both humans and animals, these vectors also may be useful for the purpose of gene therapy.     

Third-generation lentivirus vectors efficiently transduce and phenotypically modify vascular cells: implications for gene therapy

Grafting of saphenous vein (SV) conduits into the arterial circulation triggers a number of adaptive pathological changes characterized by progressive medial thickening, neointima formation and accelerated atheroma. Previous studies have shown that modification of vein graft biology is possible by adenovirus (Ad)-mediated gene transfer, although gene expression is transient. Advancement of vascular gene therapy to the clinic is compromised by the lack of safe and efficient vector systems that provide sustained therapeutic gene delivery to the vasculature. Due to inadequacies of both Ad and adeno-associated virus (AAV) serotype-2 (AAV-2) systems, we have evaluated gene delivery to endothelial cells (ECs) and smooth muscle cells (SMCs) using alternate AAV serotypes and a third-generation vesicular stomatis virus glycoprotein-pseudotyped lentiviral system. Transduction of both primary human SV EC and SMC was lower using all alternate AAV serotypes compared to AAV-2. However, transduction of both cell types by lentivirus was efficient even at clinically relevant exposure times (15 min), was without toxicity and was promoter sensitive. Transduction levels at lower doses were further enhanced with the addition of the surfactant Poloxamer-407 (P-407). Direct comparison with Ad and AAV-2 confirmed the unique potential for this system. Moreover, we constructed and overexpressed the therapeutic gene tissue inhibitor of metalloproteinase-3 (TIMP-3) using lentivirus and demonstrated transgene production comparable to Ad with concomitant blockade of SMC migration and induction of cell death. We have demonstrated for the first time the potential for third-generation lentiviral vectors, but not alternate AAV serotypes, as efficient vascular gene delivery vectors.     

Cloning of adeno-associated virus into pBR322: rescue of intact virus from the recombinant plasmid in human cells.

We have cloned intact duplex adeno-associated virus (AAV) DNA into the bacterial plasmid pBR322. The AAV genome could be rescued from the recombinant plasmid by transfection of the plasmid DNA into human cells with adenovirus 5 as helper. The efficiency of rescue from the plasmid was sufficiently high to produce yields of AAV DNA comparable to those observed after transfection with equal amounts of purified virion DNA. Thus, the recombinant plasmid itself may be a model for studying the rescue of a latent AAV viral infection. In addition, the efficient rescue of viable AAV from the recombinant plasmid should facilitate the genetic analysis of AAV. Finally, the results of an analysis of the DNA from rescued virions indicate that an inversion of the AAV terminal sequences occurred during replication.     

Effect of mechanical damage on ex vivo DNA virus vector-mediated gene transduction in epithelial cells of murine trachea]

The mechanism of Adenovirus (Ad) and Adeno-associated virus (AAV) vector-mediated gene transduction in murine tracheae has not been fully understood. Excised tracheae from mice were exposed to either Ad vector (Ad-CMV-LacZ) or AAV vector (AAV-CMV-LacZ) for 1 hour. LacZ gene expression in tracheal epithelial cells was detected by X-gal staining. Only patch distributions of LacZ expressing cells were observed. The percentage of LacZ expressing cells to total cells was less than 1% with either vector. Ad-mediated LacZ transduction was increased by mechanical damage using forceps. AAV-mediated gene transduction in tracheal epithelial cells was also increased by mechanical damage. Furthermore, this increased expression of vector LacZ by damaged epithelial cells was not affected by pretreatment with anti-ICAM-1 mAb or platelet-activating factor receptor antagonist. Although the Ad and AAV vectors were inefficient in transferring genetic material to murine trachea ex vivo, our results suggest that mechanical damage can enhance their transduction efficiency.     

Methylation of integrated adenovirus type 12 DNA sequences in transformed cells is inversely correlated with viral gene expression.

The adenovirus type 12 (Ad12) DNA sequences integrated into the DNA of four lines of Ad12-transformed hamster cells are extensively methylated. Methylation in mammalian cell DNA is believed to occur predominantly at 5'-C-G-3' sequences. The majority, although not all, of the 5'-C-C-G-G-3' sequences present in integrated Ad12 DNA are methylated. Ad12 DNA isolated from purified virions, on the other hand, is not methylated to any significant extent. The segments of the integrated viral DNA comprising early genes, which are expressed as mRNA in two lines of Ad2-transformed hamster cells, are undermethylated in comparison to late viral segments, which are not expressed and are extensively methylated. In contrast, in two lines of Ad12-induced rat brain tumor cells, some of the late viral genes have been shown to be expressed as mRNA. The segment of the integrated Ad12 DNA that comprises these late genes, the EcoRI B fragment, is undermethylated in comparison to the extensive methylation of the same fragment in Ad12-transformed hamster cells. Thus, there appears to exist a striking inverse correlation between the levels of methylation of specific DNA segments and the extent to which these segments are expressed as mRNA. The functional significance of this correlation remains to be determined. It may provide a clue to understanding the regulation of gene expression in transformed cells and perhaps in eukaryotic cells in general.     

Two tumor antigens and their polypeptides in adenovirus type 12-infected and transformed cells

A tumor (T) antigen, designated T antigen g, was visualized as fine fluorescent granules in nuclei of adenovirus type 12 (Ad12)-infected cells by immunofluorescence with sera from rats bearing HY cell tumors (H sera). HY cells are rat cells incompletely transformed by the Acc I-H endonuclease fragment (0-4.7 map units) of Ad12 DNA. The antigen is different from the usually described T antigen, designated T antigen f, which is visualized as fluorescent flecks or filaments in both nucleus and cytoplasm of Ad12-infected cells when tested with narrowly reacting T sera. Extracts of [³⁵S]methioninelabeled infected cells were immunoprecipitated with H sera, and the resultant precipitate was analyzed by the two-dimensional gel electrophoresis technique of O'Farrell. The autoradiogram showed the presence of a cluster of several polypeptides (M_r 35,000-40,000, pI 5.0-5.5) that was absent in extracts of mock-infected cells. A similar autoradiogram of infected cells analyzed with narrowly reacting T sera showed the presence of a small polypeptide (M_r 10,000, pI 6.4), that was absent in extracts of mock-infected cells. The results show that M_r 35,000-40,000 polypeptides are components of T antigen g and a M_r 10,000 polypeptide is a component of T antigen f. Ad12-transformed cells showed a similar result. T antigen g was present and T antigen f was absent in HY cells. Both T antigen g and T antigen f were present in CY cells, which are rat cells completely transformed by the EcoRI-C endonuclease fragment (0-16 map units) of Ad12 DNA. The possible functions of these proteins are discussed.     

Neoplastic transformation of chimpanzee cells induced by adenovirus type 12--simian virus 40 hybrid virus.

The adenovirus 12--simian virus 40 hybrid virus produced neoplastic transformation of chimpanzee skin fibroblasts in vitro. The transformed fibroblasts showed morphological alteration and became permanent lines. The transformed cells contained both adenovirus 12 and simian virus 40 large tumor antigens and were virus producers. However at passage 9, one line (WES) was found to be a nonproducer, producing neither infectious virus nor virus-specific antigen detectable by the complement fixation test. Virus particles were not detected nor could infectious hybrid virus be rescued from this line by cocultivation with Vero cells. The transformed cells formed large cell aggregates and grew in liquid growth medium above an agar base, formed colonies in soft agar, and grew to high saturation densities; the normal chimpanzee skin fibroblasts did not. One transformed WES line produced tumors when transplanted subcutaneously into newborn nude mice, thus providing an important tool for studying tumor immunity in the chimpanzee.     

Regulated high level expression of a human gamma-globin gene introduced into erythroid cells by an adeno-associated virus vector.

Gene therapy of severe hemoglobinopathies will require high-level expression of a transferred globin gene in erythroid cells. Distant regulatory elements flanking the beta-globin gene cluster, the locus control region, are needed for appropriate expression. We have explored the use of a human parvovirus, the adeno-associated virus (AAV), for globin gene transfer. The human A gamma-globin gene, linked to hypersensitivity site 2 from the locus control region of the beta-globin gene cluster, was subcloned into a plasmid (psub201) containing the AAV inverted terminal repeats. This construct was cotransfected with a helper plasmid containing trans-acting AAV genes into human 293 cells that had been infected with adenovirus. The recombinant AAV vector containing hypersensitivity site 2 stably introduced on average one or two unrearranged proviral copies into human K562 erythroleukemia cells. The transferred globin gene exhibited normal regulation upon hemin induction of erythroid maturation and was expressed at a level equivalent to a native chromosomal A gamma-globin gene.     

An unusual symmetric recombinant between adenovirus type 12 DNA and human cell DNA

On purification of human adenovirus type 12 (Ad12) by equilibrium sedimentation in CsCl density gradients, two bands of particles, Ad12-3 and Ad12-3a, are observed. The particles from band Ad12-3a contain a recombinant of human host cell DNA and of Ad12 DNA. The human cell DNA sequences contain repetitive DNA recurring 200 to 500 times in cellular DNA. Ad12 DNA and the recombinant genomes exhibit the same or similar lengths. This finding suggests that a constant amount of DNA is packaged into complete Ad12 particles. On cleavage of KB cellular DNA with EcoRI, BamHI, HinfI, Msp I, Mbo I Pst I, or Bgl II, the (32)P-labeled cellular DNA from Ad12-3a particles hybridizes on Southern blots to distinct bands of KB DNA. There is also less-specific background hybridization that is not observed in the control. The cellular DNA from Ad12-3a particles is not methylated, whereas the same cellular sequences in KB cell DNA appear to be extensively methylated. On denaturation and renaturation, the recombinant DNA molecules are converted to molecules half as long as Ad12 DNA, as determined by gel electrophoresis and electron microscopy. The recombinant DNA molecules were terminally labeled by exonuclease III treatment and subsequent refilling of the depleted segments with [(32)P]dNTPs by using DNA polymerase I (Klenow fragment). When these molecules were cleaved with EcoRI, BamHI, Msp I, or Pst I, only one terminal DNA fragment was found to be labeled. The results of partial digestion experiments using Msp I, HinfI, or Mbo I are consistent with a model in which 700-1150 base pairs from the left terminus of Ad12 DNA are linked to host cell DNA containing repetitious sequences, and this structure is symmetrically duplicated as a large inverted repeat of the type ABCDD'C'B'A'. The Ad12 DNA sequences are flanking the entire molecule, which consists mainly of human KB cell DNA. The recombinants appear to be stable on serial passage of the virus preparation for many years, although variations in the sequence of the recombinants occur. These symmetric recombinant (SYREC) molecules suggest a way to use adenovirus DNA as a eukaryotic vector. Their occurrence provides further evidence for the generation of virus-host DNA recombinants and may help elucidate the role this interaction may have in adenovirus replication and oncogenesis.     

Locations of adenovirus genes required for the replication of adenovirus-associated virus.

We have used DNA transfection to identify several regions of the adenovirus genome needed to induce replication of the defective parvovirus, adenovirus-associated virus (AAV). Previous studies have indicated that only early adenovirus functions are needed to aid the replication of AAV. In this report, we demonstrate that three restriction endonuclease fragments of adenovirus DNA are necessary for production of infectious AAV in 293-31 cells (an adenovirus type 5-transformed human embryonic kidney cell line). These fragments map from 28.5 to 29.4, 59.5 to 75.9, and 89.7 to 100 map units on the adenovirus type 2 genome and correspond to the locations of the VAI RNA gene, early region 2, and early region 4, respectively. The 293-31 cell line, which has been found to express early region 1A and 1B proteins, alone is incapable of supporting AAV replication or even AAV DNA synthesis. Additional experiments with adenovirus type 5 host range mutants (group I, hr1 and group II, hr7) indicate, however, that early region 1A provides an essential function(s) for AAV replication, whereas early region 1B probably does not.     

Evidence that a second tumor antigen coded by adenovirus early gene region E1a is required for efficient cell transformation.

The expression of the adenovirus (Ad) early coding region 1a (E1a) is required for virus-induced cell transformation and for the activation of other viral early genes and some cellular genes. Two overlapping early mRNAs of 13S and 12S that are transcribed from this region code for a 289-amino acid protein and a 243-amino acid protein, respectively. Earlier studies have shown that the 289-amino acid protein is essential for cell transformation. We have constructed an Ad type 2 (Ad2) deletion mutant (dl231) in which the intervening sequence for the 13S mRNA is precisely removed. Mutant dl231 is completely viable in human KB cells and produces normal amounts of 13S mRNA but much reduced amounts of a defective 12S mRNA. Mutant dl231 induces focal transformation of established rat embryo fibroblasts at a frequency one-fifth to one-half that of wild-type virus. However, the transformed cells are defective in their ability to form anchorage-independent colonies on semisolid medium. Therefore, our results demonstrate that the 243-amino acid protein is required for full transformation of rat embryo cells.     

Adenovirus 2 early gene expression promotes susceptibility to effector cell lysis of hybrids formed between hamster cells transformed by adenovirus 2 and simian virus 40.

Weakly oncogenic adenovirus 2 (Ad2)-transformed LSH hamster cells are sensitive to lysis by spontaneously cytolytic lymphoid cells and activated macrophages, whereas highly oncogenic simian virus 40 (SV40)-transformed LSH cells are relatively resistant to these nonspecific effector cells. Somatic cell hybrids formed between Ad2- and SV40-transformed hamster cells, which expressed Ad2 tumor (T) antigens, exhibited an increased cytolytic susceptibility compared to Ad2 T antigen-negative cell hybrids or nonhybrid SV40-transformed cells. No correlation was found between the expression of SV40 T antigen in hybrid cells and cytolytic susceptibility. The results suggest the existence of a novel function for early Ad2 genome-encoded polypeptides (T antigens) expressed in transformed hamster cells--the induction of susceptibility to destruction mediated by immunologically nonspecific effector cells.     

Adenovirus serotype 5 hexon is critical for virus infection of hepatocytes in vivo

Human species C adenovirus serotype 5 (Ad5) is the most common viral vector used in clinical studies worldwide. Ad5 vectors infect liver cells in vivo with high efficiency via a poorly defined mechanism, which involves virus binding to vitamin K-dependent blood coagulation factors. Here, we report that the major Ad5 capsid protein, hexon, binds human coagulation factor X (FX) with an affinity of 229 pM. This affinity is 40-fold stronger than the reported affinity of Ad5 fiber for the cellular receptor coxsackievirus and adenovirus receptor, CAR. Cryoelectron microscopy and single-particle image reconstruction revealed that the FX attachment site is localized to the central depression at the top of the hexon trimer. Hexon-mutated virus bearing a large insertion in hexon showed markedly reduced FX binding in vitro and failed to deliver a transgene to hepatocytes in vivo. This study describes the mechanism of FX binding to Ad5 and demonstrates the critical role of hexon for virus infection of hepatocytes in vivo.