Alternate adenovirus type-pairs for a possible circumvention of host immune response to recombinant adenovirus vectors

With the help of monoclonal antibodies the existence of at least 18 different earlier not known intertype (IT) specific epitopes were demonstrated in different numbers and combinations on the hexons of different adenovirus serotypes. The IT specific epitopes play an important role in the experimental gene therapy and in the recombinant adenovirus vaccination because of the harmful immune response of the recipient organisms directed against the many different epitopes of the adenovirus vector. For the elimination of harmful effect the authors suggest the use of multiple vectors, each prepared from different adenovirus serotypes showing the loosest antigenic relationship to each other. The vectors would be used sequentially when second or multiple administration is needed. For this purpose the authors determined and described 31 such adenovirus type-pairs, which are probably the best alternates for sequential use in experimental gene therapy.

Characterisation of the fiber gene and partial sequence of the early region 4 of bovine adenovirus 2 (short communication)

The full sequence of the fiber gene and partial sequence of the putative 17 kD protein gene of bovine adenovirus-2 (BAdV-2) were determined. The size of the fiber gene of BAdV-2 proved to be 561 amino acids, of which the amino acids 37 to 385 form a typical shaft domain of 22 repetitive motifs. On the complementary strand, a gene homologous to the 17 kD protein coded in the E4 region of several human adenoviruses was found. The sequence analysis seems to confirm the presence of an intron in the sequenced part of the E4 region.

Porcine adenoviruses: an update on genome analysis and vector development

Although porcine adenoviruses (PAdV) are present in the swine populations worldwide, they usually do not cause any disease, or the infection is only manifested in a mild diarrhoea or respiratory signs. The importance of adenoviruses, however, is constantly growing as there is a possibility of developing them into viral vector vaccines against more significant swine pathogens. A short summary of the well-established facts of porcine adenoviruses is given and recent developments of the genetic analysis of these viruses are discussed in detail. The possibilities of vector development and examples of vector vaccines already reported in the literature are mentioned.

Comparison of the genome of ovine adenovirus types 1 through 5 by restriction enzyme analysis and DNA hybridisation

The DNA of the prototype strains of ovine adenovirus (OAdV) 1 through 5 was analysed by restriction enzyme (RE) digestion. The RE patterns generated by HindIII and PstI enzymes were characteristic of the examined strains. OAdV-2 and 3 resembled each other the most, and their EcoRI and HindIII patterns seemed to be identical. Considering the number of comigrating fragments, serotypes OAdV-2, 3, 4 and 5 looked more closely related to each other than to OAdV-1. This finding was strengthened by Southern blot hybridisations probed with random HindIII clones of OAdV-3. The estimated genome size of the examined OAdV types ranged between 31.9 and 32.8 kilobase pairs. The results supported the new genus classification of OAdVs.

Determination of bovine adenovirus-3 titer based on immunohistochemical detection of DNA binding protein in infected cells

DNA sequence coding for a portion of DNA binding protein (amino acids 3-58) of bovine adenovirus type-3 (BAV-3) was cloned and expressed in Escherichia coli as a fusion protein with Schistosoma japonicum glutathione S-transferase. The fusion protein was affinity purified and used to immunize rabbits. Immunoprecipitation and Western blot analysis showed that the antiserum could specifically recognize a protein of 48 kDa in BAV-3-infected cells, which was produced both in early and late phases of BAV-3 life cycle. Based on the ability of antiserum to recognize DNA binding protein, a novel assay for BAV-3 quantitation was established. The assay is less time consuming and can be performed on a wide variety of bovine cells. In addition, virus titers determined by this assay are comparable to the standard plaque assay.

Four new inverted terminal repeat sequences from bovine adenoviruses reveal striking differences in the length and content of the ITRs

The inverted terminal repeat (ITR) of the genome of four bovine adenovirus (BAdV) types have been sequenced, analysed and compared to the ITRs of other adenoviruses. The length of ITRs of the examined BAdVs ranged between 59 and 368 base pairs, thus the presently known longest adenovirus ITR sequence is from BAdV-10. The conserved motifs and characteristic sequence elements of the ITRs providing different binding sites for replicative proteins of viral and cellular origin seemed to be distributed according to the proposed genus classification of BAdVs. The ITRs of BAdV-10 share similarity with the members of the genus Mastadenovirus, while the ITRs of the other three sequenced serotypes (BAdV-4, 5 and strain Rus) which are candidate members of the genus Atadenovirus are very short and contain NFI and Sp1 binding sites only. The analysis of the new ITRs implied that the nucleotide sequence of the so-called core origin is highly preserved within the mastadenovirus genus only.

The complete nucleotide sequence of porcine adenovirus serotype 5

The complete nucleotide sequence of porcine adenovirus serotype 5 (PAdV-5) has been determined and the putative genomic map was constructed. The size of the genome was found to be 32621 nucleotides. Twenty-eight putative ORFs were identified by their homology to other adenovirus or other virus and eukaryotic genes. Several special protein sequence motifs were identified by their homology to similar protein motifs. The putative promoter regions, polyadenylation and splice sites were predicted and the early and late transcription units were determined. Based on sequence analysis and RNA secondary structure prediction, sequences for virus-associated RNA could not be recognized. Phylogenetic analysis showed that PAdV-5 was more closely related to certain bovine adenoviruses than to other porcine adenoviruses.

Construction and characterization of recombinant porcine adenovirus serotype 5 expressing the transmissible gastroenteritis virus spike gene

Five recombinant porcine adenoviruses of serotype 5 (PAdV-5) carrying the full-length or the 5' 2.2 kb half of the transmissible gastroenteritis virus (TGEV) spike (S) gene were generated by homologous recombination in E. coli strain BJ5183 cells and subsequent transfection of swine testicle cells. The foreign genes were inserted into the E3 region of PAdV-5. One recombinant virus had no deletion in the E3 region, whereas a 1.2 kb fragment was removed from the E3 region in the remainder of the recombinant viruses. One stable construct with a 4.4 kb insertion had a genome size of 109.6% of the wild-type genome, the largest reported for any recombinant adenovirus. Only those viruses that carried the S gene in the left to right orientation expressed the S gene. Three recombinant viruses were tested by oral immunization of pigs and both antibody response and virus shedding were monitored. None of the pigs showed clinical signs and the virus was recovered from rectal swabs until 6-7 days post-infection. Viruses expressing the S gene induced TGEV- and PAdV-5-specific virus-neutralizing antibodies. Moreover, TGEV-specific secretory IgA was detected in the small intestine and in the lungs of the immunized animals.

Adenoviral vector-mediated rescue of the OMP-null phenotype in vivo

The use of gene deletion by homologous recombination to determine gene or protein function has wide application in vertebrate neurobiology. An ideal complement to gene deletion would be subsequent gene replacement to demonstrate re-acquisition of function. Here we used an adenoviral vector to replace the olfactory marker protein (OMP) gene in olfactory receptor neurons of adult OMP-null mice and demonstrated the subsequent re-acquisition of function. Our results show that short-term expression of OMP restores the kinetics of electrophysiological responses of OMP-null mice to those of the control phenotype. This adenoviral-mediated rescue of the OMP-null phenotype is consistent with involvement of OMP in olfactory transduction.

Adenoviral gene transfer of nitric oxide synthase increases cerebral blood flow in rats

OBJECTIVE

Depletion of nitric oxide may play a role in the development of vasospasm after aneurysmal subarachnoid hemorrhage. Replenishment of nitric oxide might be a useful treatment for vasospasm. Using rats, we performed intracisternal injections of replication-defective adenovirus containing the endothelial nitric oxide synthase (eNOS) gene and determined the localization of and effect on cerebral blood flow of transgene expression.

METHODS

Rats underwent baseline measurement of cortical cerebral blood flow using laser Doppler flowmetry. Replication-defective adenovirus containing the Escherichia coli LacZ gene (Ad327beta-Gal, n = 2/time point) or the bovine eNOS gene (AdCD8-NOS, n = 4/time point) or physiological saline solution was injected into the cisterna magna. Cerebral blood flow was measured 1, 2, 4, 7, or 14 days later, and the animals were killed. Expression of beta-galactosidase activity from the LacZ gene was examined by histochemical staining and that of eNOS was examined by polymerase chain reaction assays of messenger ribonucleic acid. Brains were histopathologically examined for inflammation.

RESULTS

Beta-galactosidase activity was observed throughout the leptomeninges and in some cells in the adventitia of small subarachnoid blood vessels in the Ad327beta-Gal-injected rats. Messenger ribonucleic acid for eNOS was detected in the leptomeninges and brainstem 1 and 2 days after injection of AdCD8-NOS. Rats injected with Ad327beta-Gal or physiological saline solution exhibited decreased cerebral blood flow beginning 2 days after virus injection and lasting up to 14 days after injection. Rats injected with AdCD8-NOS developed significant transient increases in cerebral blood flow 2 days after virus injection, followed by slight decreases in blood flow. There was inflammation in the subarachnoid space of all animals; the inflammation was qualitatively worse in animals injected with Ad327beta-Gal, compared with rats injected with AdCD8-NOS or saline solution.

CONCLUSION

Intracisternal injection of replication-defective adenovirus containing the eNOS gene can transiently increase cerebral blood flow.

DNA sequence of frog adenovirus

The genome of frog adenovirus (FrAdV-1) was sequenced and found to be the smallest of all known adenovirus genomes. The sequence obtained was 26163 bp in size and contains a substantial direct repeat near the right terminus, implying that it was derived by recombination from a parental genome of only 25517 bp. The closest relative of FrAdV-1 proved to be turkey adenovirus 3, an avian adenovirus with no previously known near relative. Sequence comparisons showed that the two viruses have equivalent gene complements, including one gene the product of which is related to sialidases. Phylogenetic analyses supported the establishment of a fourth adenovirus genus containing these two viruses, in addition to the established genera Mastadenovirus: and Aviadenovirus: and the proposed genus Atadenovirus: Sixteen genes were identified as being conserved between these four lineages and were presumably inherited from an ancestral adenovirus.

Ovine adenovirus vectors mediate efficient gene transfer to skeletal muscle

Ovine adenovirus (OAV) vectors represent a promising tool for human gene therapy since these vectors overcome the problem of pre-existing immunity against human adenovirus vectors. In this report we investigated the in vivo characteristics of this novel vector system with respect to its potential for gene transfer into skeletal muscle. We found that moderate doses of an OAV-derived vector expressing the human alpha1-antitrypsin gene (OAVhaat) infected skeletal muscle in mice very efficiently resulting in high serum hAAT levels. The infection was restricted to skeletal muscle, but gene expression was transient and vector DNA was rapidly cleared. Vector clearance was also observed with a vector that lacked the transgene. The loss of vector DNA was accompanied by a cellular immune response in the infected muscle but was not connected with detectable expression of early or late genes of the viral backbone as analyzed by RT-PCR. A very low dose of OAVhaat (3x 10(7) infectious particles) was sufficient to produce reasonable amounts (>100 ng/ml) of serum hAAT, and this was accompanied by a weak immune response to the vector. Under these conditions, a second intramuscular injection of the same recombinant OAV vector was successful. Our study expands the known tissue tropism of OAV-derived vectors in vivo and points to the possible utility of the vector for muscle gene transfer and vaccination.

Identification and sequence analysis of the core protein genes of bovine adenovirus 2

The DNA sequence of the genome of bovine adenovirus type 2 (BAdV-2) was determined between map units 42.5 and 50. By sequence analysis and homology search, the genes of five structural proteins were identified within this region: the penton base protein (III; partial sequence), the major core protein precursor (pVII), the minor core protein (V), the mu core protein precursor (pX) and the hexon associated protein precursor (pVI; partial sequence). The putative polypeptides were compared to their known counterparts from other adenoviruses. The existence of protein V and the presence and structure of certain protease cleavage recognition sites confirmed BAdV-2 as a member of the genus Mastadenovirus.

Optimization of bovine coronavirus hemagglutinin-estrase glycoprotein expression in E3 deleted bovine adenovirus-3

Adenoviral vectors expressing foreign genes have many desirable properties in applications such as vaccination. Recently, we have generated replication-competent (E3 deleted) bovine adenovirus-3 (BAV-3) recombinants expressing significant amounts of glycoprotein D (gD) of bovine herpesvirus-1 (a DNA virus). However, attempts to express the RNA virus genes using the same strategy were not successful. In an effort to optimize the expression, we have constructed several BAV-3 recombinants carrying the hemagglutinin esterase (HE) gene of bovine coronavirus (BCV) in the E3 region with or without exogenous transcription control elements. The expression studies suggest that the introduction of a 137 bp chimeric intron upstream of the HE cDNA is able to increase the level of HE gene expression. The introduction of a SV40 early promoter or human cytomegalovirus (HCMV) immediate early (IE) promoter into the expression cassette changed the kinetics of the HE expression. However, the recombinant BAV-3 containing HE under the HCMV IE promoter replicated less efficiently than the wild-type BAV-3. These studies should prove useful in expression of other RNA viral genes in the E3 region of BAV-3 expression system.

Sequencing analysis of the region encoding the DNA polymerase of bovine adenovirus serotypes 2 and 3

Bovine adenoviruses (BAVs) are important pathogens causing significant economic losses to the cattle industry. We have been interested in the differences among serotypes of these viruses, particularly in their pathogenicity and host range. As part of our efforts to better understand these viruses, we have determined the nucleotide sequences for serotype 3 (BAV3) at map coordinates beween 11.7 and 23.7% and for serotype 2 (BAV2) between 13.1 and 24.0%. Analyses of these sequences revealed large open reading frames (ORFs) encoded within the leftward-reading strand of the viral DNA. The coding capacity of the ORF in BAV3 is 1,167 amino acid residues and 1,138 in BAV2. A search in the GenEMBL protein sequence databank for homology to the predicted polypeptide products of these ORFs established their identity as that for the adenovirus (Ad) DNA polymerase (DNA pol). The deduced polypeptide sequences were aligned with each other and with other known Ad DNA pols to reveal regions of homology and similarity. The comparison at the amino acid sequence level not only showed that the bovine Ad DNA pols from the two serotypes are quite distinct from each other, but also revealed that Ad DNA pols contain multiple domains that are highly conserved among human, canine and bovine Ads. These conserved domains are likely important for the multiple functions attributed to Ad DNA pol, which include catalysis of its own initiation complex, elongation of nascent DNA strand, as well as correction of DNA replication errors.

Evaluation of the efficacy of 2',3'-dideoxycytidine against adenovirus infection in a mouse pneumonia model

The antiviral activity of 2',3'-dideoxycytidine (ddC) has been investigated in a mouse pneumonia model. Consolidation of lung, histopathological changes, DNA synthesis as well as levels of TNFalpha were assayed. In this in vivo model, the oral administration of ddC twice daily over 4 days, displayed an inhibitory effect. The drug significantly reduced histopathologic responses. Analysis indicated that under treatment pulmonary lesions were less severe than those of untreated controls. These data confirm the in vitro activity of ddC against adenovirus. Thus, ddC represents a potential therapeutic approach for inhibiting adenovirus infection and may offer promise as an anti-adenovirus agent for immunocompromised patients in whom serious adenovirus infection may prove fatal.

Sequence analysis and deletion of porcine adenovirus serotype 5 E3 region

A 3000 basepair (bp) region corresponding to the E3 region, the flanking pVIII and part of the fiber protein genes, of the two prototype strains (HNF-61 and HNF-70) of porcine adenovirus serotype five (PAdV-5) was sequenced. A potential E3 promoter and poly-A signals were identified. The size of the E3 region was 2039 (strain HNF-61) and 2020 bp (strain HNF-70) the largest E3 so far reported among PAdVs. Three open reading frames (ORF2-4) were identified within the E3 region. Based on the predicted amino acid (aa) sequences ORF2 was similar to other adenovirus E3 ORFs, ORF3 showed some similarity to a bovine adenovirus (BAdV-1) ORF. ORF4 was unique to PAdV-5. E3 mRNA transcripts were detected early in infection by Northern blot analysis. Genomic clones of HNF-70 with a 1505 or 1237 bp deletions in the E3 region were constructed to map non-essential regions. After transfection of the DNA into swine testicle cells, virions were recovered for only the shorter 1237 bp deletion. At least 60% of the E3 region was not essential for virus replication, bringing the theoretical vector capacity of a helper independent PAdV-5 to 2.9 kb.

Sequence analysis of porcine adenovirus type 3 E1 region, pIX and pIVa2 genes, and two novel open reading frames

The porcine adenovirus type 3 (PAd3) genome between map units 0 and 13.7 was sequenced and compared with similar regions of other adenoviruses. This region consists of the left inverted terminal repeat sequences involved in DNA packaging, the entire early region 1 (E1) and the protein IX (pIX) transcription unit. The lower strand contains the C-terminal end of IVa2 of the E2A transcriptional unit and two novel open reading frames (ORFs). The E1 transcription unit consists of ORFs for proteins homologous to the E1A, E1B-17k and E1B-55k of both human adenovirus type 5 (HAd5) and bovine adenovirus type 3 (BAd3). The predicted PAd3 pIX demonstrated homology with the N-terminal portion of the pIXs of HAd5 and BAd3. On the lower strand, immediately after the putative IVa2 ORF, there are two unique ORFs of 208 and 203 amino acid residues that showed homology with Epstein-Barr virus nuclear antigens and other cellular transcription factors.

Circumvention of vector-specific neutralizing antibody response by alternating use of human and non-human adenoviruses: implications in gene therapy

To determine whether non-human adenovirus-specific antibodies are cross-neutralizing, rabbit and mouse anti-human adenovirus type 5 (HAd5), anti-bovine adenovirus type 3 (BAd3), and anti-porcine adenovirus type 3 (PAd3) sera were used in cross-virus neutralization assays. Adenovirus neutralizing antibodies were found to be virus-specific, suggesting that virus neutralizing epitope differs significantly in HAd5, BAd3, and PAd3. To further investigate whether immunity to an HAd5-derived vector could be circumvented by the use of non-human adenoviruses in vivo, mice were first immunized either intranasally or intraperitoneally with HAd5, BAd3, PAd3, or BAd3 + PAd3, and after development of adenovirus-specific antibodies, animals were inoculated with the HAd5 recombinant (AdCA36lacZ) containing the bacterial beta-galactosidase gene under the control of murine cytomegalovirus immediate-early promoter. Virus-inoculated animals developed virus-specific IgG and IgA antibodies. LacZ expression in animals initially primed with HAd5 was significantly reduced (P < 0.05), suggesting that the immune response against the vector could prevent the transgene expression following subsequent inoculation of the same vector, whereas LacZ expression in mice initially primed with BAd3, PAd3, or BAd3 + PAd3 was significantly higher (P > 0.05) than that obtained in HAd5-primed animals. Our results suggest that HAd5-, BAd3-, or PAd3-based vectors may be used sequentially for human gene therapy or vaccine production as a means to avoid immunity to the vector.

DNA sequencing and phylogenetic analysis of the protease gene of ovine adenovirus 3 suggest that adenoviruses of sheep belong to two different genera

Until now, the only published ovine adenovirus DNA sequence was the complete genome of ovine adenovirus isolate 287 (OAV287) which, compared to other mammalian adenoviruses, possesses strikingly unique genomic organisation and should properly be classified into a new adenovirus genus. The protease gene sequence of ovine adenovirus type 3 (OAdV-3) was determined and analysed. The results of phylogenetic analysis of the 205 residue long protein demonstrated that OAdV-3 belongs to the genus Mastadenovirus, and is surprisingly closely related to bovine adenovirus type 2. In spite of the common host origin, the evolutionary distance between OAdV-3 and OAV287 proved to be great suggesting that sheep, similarly to cattle and fowl, might be infected by distantly related adenoviruses belonging to different genera.

Novel human gene transfer vectors: evaluation of wild-type and recombinant animal adenoviruses in human-derived cells

Major disadvantages of human adenovirus (hAd) vectors in gene therapy include preexisting or induced immune responses, and possible coreplication of recombinant hAd in the presence of wild-type hAds. These disadvantages may be overcome by using nonhuman, animal adenoviruses (aAds). We evaluated four different aAds for their potential use as viral vectors. The canine adenovirus type 2 (CAV2) and bovine adenovirus type 3 (BAV3) appeared to be suitable systems, as they infect human cells. CAV2, but not BAV3, caused cytotoxicity, and only limited (CAV2) or no (BAV3) production of infectious virus particles was observed after infection of human cell lines. CAV2 showed higher expression of endogenous genes than did BAV3 in the tested human cells. No interference between hAd and CAV2 or BAV3, such as recombination of DNA or cross-activation of virus replication, was observed in up to five passages in double-infected human cells. Transfection of cloned genomic CAV2 or BAV3 DNA into appropriate permissive cell lines rescued infectious virus. Furthermore, we produced a recombinant E1-deleted BAV3, and showed that it could infect and express a reporter gene in various human cell types. The goal was to construct and evaluate recombinant (E1-deleted) animal adenoviruses (aAds) as new vector systems for human gene therapy. The rationale for developing aAds for human use is the potential higher safety and efficiency, as compared with human adenoviruses (hAds). Coreplication and recombination with preexisting hAds should not be possible owing to lack of homology, and preexisting immunity in the general population should be limited. Of the four aAds we evaluated, BAV3 appeared to be the best candidate. It infects human cells without showing growth or cytotoxic effects, viral gene expression was barely detectable, and no trans-activation of either virus was detected in coinfections with hAd5. Rescue of virus in permissive cells, from plasmids containing the CAV2 or BAV3 genome, confirmed our approach. Furthermore, an E1-deleted recombinant BAV3 was constructed and shown to transduce and express the lacZ reporter gene in human cells.

Replication-defective bovine adenovirus type 3 as an expression vector

Although recombinant human adenovirus (HAV)-based vectors offer several advantages for somatic gene therapy and vaccination over other viral vectors, it would be desirable to develop alternative vectors with prolonged expression and decreased toxicity. Toward this objective, a replication-defective bovine adenovirus type 3 (BAV-3) was developed as an expression vector. Bovine cell lines designated VIDO R2 (HAV-5 E1A/B-transformed fetal bovine retina cell [FBRC] line) and 6.93.9 (Madin-Darby bovine kidney [MDBK] cell line expressing E1 proteins) were developed and found to complement the E1A deletion in BAV-3. Replication-defective BAV-3 with a 1.7-kb deletion removing most of the E1A and E3 regions was constructed. This virus could be grown in VIDO R2 or 6.93.9 cells but not in FBRC or MDBK cells. The results demonstrated that the E1 region of HAV-5 has the capacity to transform bovine retina cells and that the E1A region of HAV-5 can complement that of BAV-3. A replication-defective BAV-3 vector expressing bovine herpesvirus type 1 glycoprotein D from the E1A region was made. A similar replication-defective vector expressing the hemagglutinin-esterase gene of bovine coronavirus from the E3 region was isolated. Although these viruses grew less efficiently than the replication-competent recombinant BAV-3 (E3 deleted), they are suitable for detailed studies with animals to evaluate the safety, duration of foreign gene expression, and ability to induce immune responses. In addition, a replication-competent recombinant BAV-3 expressing green fluorescent protein was constructed and used to evaluate the host range of BAV-3 under cell culture conditions. The development of bovine E1A-complementing cell lines and the generation of replication-defective BAV-3 vectors is a major technical advancement for defining the use of BAV-3 as vector for vaccination against diseases of cattle and somatic gene therapy in humans.

Porcine adenovirus-3 as a helper-dependent expression vector

Porcine adenovirus has been proposed as a potential vector for generating novel and effective vaccines for pigs. As a prerequisite for the generation of helper-dependent porcine adenovirus-3 (PAV-3) vectors, two E1-complementing porcine cell lines expressing E1 proteins of human adenovirus-5 (HAV-5) were made. These cell lines could be efficiently transfected with DNA and allowed the rescue and propagation of a PAV-3 recombinant, PAV201, containing a 0.597 kb E3 deletion and a 0.803 kb E1A deletion. Our data demonstrate that E1A proteins of HAV-5 have the capacity to transform foetal porcine retina cells and complement for the E1A proteins of PAV-3. The green fluorescent protein (GFP) gene placed under the control of a cytomegalovirus immediate early promoter was inserted into the E1A region of the PAV201 genome. Using these cell lines, a helper-dependent PAV-3 recombinant expressing GFP, PAV202, was constructed and characterized. The wild-type PAV-3 and the recombinant PAV202 expressing GFP were used to determine the ability of the virus to enter and replicate in cells of human and animal origin under cell culture conditions. Our results suggest that PAV-3 enters but does not replicate in dog, sheep, bovine and human cells.

The role of the L4 33K gene in adenovirus infection

The late phase of adenovirus infection is characterized not only by the synthesis of late proteins and the assembly of new virions, but also by the inhibition of early gene expression and host cell translation. Previous work has demonstrated that both of these inhibitory effects depend upon expression from the major late transcription unit (MLTU), controlled by the major late promoter (MLP). Furthermore, the repression of early gene expression has been shown to be mediated in trans, suggesting a role for one or more MLTU-encoded soluble factor(s). A possible candidate for such a factor is the L4-encoded 33K gene product, a protein conserved throughout the Mastadenoviridae, but of no known function. To test the role of this protein in viral infection, a stop codon was placed at the 20th position of the 33K ORF. Viable virus with genomes containing the mutation were recovered in an overlap recombination assay. Phenotypic analysis revealed that the mutant virus had a significant deficiency in both kinetics of replication and final yield, as compared to the wild-type virus. Detailed analysis of infected cells showed that there was no detectable change in the regulation of expression of several early genes and the pIX gene. This suggests either that 33K is not involved in this late phase phenomenon or that this function is replaceable by another late protein(s). Late protein synthesis and accumulation were similar to those in wild-type-infected cells. However, the reduced yield of infectious mutant virus could be accounted for by a marked deficiency in the accumulation of intermediate particles and completed capsids, suggesting a role for 33K in the process of assembly. In addition there was a small but reproducible deficiency in the shutoff of host cell translation. These results show that the 33K protein plays an important, although apparently not essential, function in the late phase of virus infection.

The adenovirus that causes hemorrhagic disease of black-tailed deer is closely related to bovine adenovirus-3

DNA sequence data was obtained from an adenovirus previously shown to be the cause of a distinctive, fatal hemorrhagic disease of black-tailed deer in California. A 256 base fragment of the viral hexon gene was amplified by PCR from purified adenovirus preparations. The amplicon then was cloned and sequenced. Phylogenetic relationships with other mammalian adenoviruses were also determined. Although sequence analysis of this portion of the hexon gene indicates that the black-tailed deer adenovirus is closely related to bovine adenovirus-3, the biologic properties of the two viruses are clearly distinct.

Transcription map and expression of bovine herpesvirus-1 glycoprotein D in early region 4 of bovine adenovirus-3

Early region 4 (E4) of bovine adenovirus type 3 (BAV-3) was analyzed by Northern blotting, RT-PCR analysis, cDNA sequencing, and S1 nuclease protection assays. The transcriptional map of the E4 region of BAV-3 has marked dissimilarities from those of mouse adenovirus-1, ovine adenovirus-287, and human adenovirus-2, for which the transcriptional maps have been constructed. The E4 region of BAV-3, located between 98.6 and 89.8 MU transcribes seven distinct classes of bovine adenovirus type 3 mRNA. The seven mRNA species formed by the removal of one to three introns share both the 3' end and a short 5' leader (25 nucleotides). The E4 mRNAs can encode at least five unique polypeptides, namely, 143R1, 69R, 143R2, 268R, and 219R. Isolation of a replication-competent recombinant "BAV404" containing 1.9-kb insertion [glycoprotein (gD) of bovine herpesvirus 1, under the control of a SV40 early promoter and poly(A)] in the region between E4 and the right ITR suggested that this region is nonessential for BAV-3 replication. Expression of gD by BAV404 recombinant virus was confirmed by immunoprecipitation with gD-specific monoclonal antibodies. Analysis of the kinetics of protein expression indicated that gD is expressed at both early and late times postinfection. These results suggest that: (a) E4 produces seven 5'-3' coterminal mRNAs and (b) the right terminal region of BAV-3 can be used for the expression of vaccine antigens.

Genomic location and nucleotide sequence of a serotype 3 porcine adenovirus hexon gene

The putative hexon gene of a porcine adenovirus serotype 3 (PAV3) has been identified, cloned and the nucleotide sequence determined. The genomic location of the PAV3 hexon gene was determined and an open reading frame (ORF) encoding a polypeptide of 939 amino acids identified. Comparison of the nucleotide sequence of the putative PAV3 hexon gene with the sequence of the HAV2 hexon gene returned an overall identity of approximately 63%. A stop codon 144 nucleotides upstream and a start codon 18 nucleotides downstream of the ORF were identified and comparison with the HAV genome demonstrated that their positions corresponded to the stop site of the pVI gene and start site of the 23K gene, respectively. To confirm the correct start codon of the putative PAV3 hexon gene, the acceptor splice site for the putative PAV3 hexon gene was determined from cDNA and found to be between the two guanines immediately upstream of the first ATG in the ORF. Comparison with the HAV2 hexon protein showed overall identity of approximately 65%, with higher identity in the carboxy-terminus of approaching 76% over 380 amino acids. Multiple alignment of the PAV3 hexon amino acid sequence with other known HAV and animal adenovirus hexon sequences indicated that conservation is generally maintained but that identity is much lower within the loop structures of the protein.

Transcription units of E1a, E1b and pIX regions of bovine adenovirus type 3

The major mRNA species in the E1 region of the genome of bovine adenovirus type 3 (BAV3) have been defined by using a combination of PCR, 5' RACE, Northern analysis and DNA sequencing. Independent transcription initiation sites were identified for each of the E1a, E1b and protein IX (pIX) transcription units, but all mRNA species terminated at the same poly(A) addition site immediately downstream of the pIX open reading frame. Thus, the BAV3 E1 region, which consists of the E1a and E1b genes together with that for pIX, functions as a nested overlapping transcription unit. One major mRNA species encoding the E1a protein was found and two mRNAs encoding E1b species, the smaller of which encodes the E1b 17K protein alone and the larger encodes both 17K and 47K E1b proteins, were identified. One mRNA species encodes pIX. The E1a transcript, encoding the predicted 214 residue E1a protein, has four exons. The smaller E1b mRNA has two exons, the second of which corresponds to the last exon of E1a. No introns were detected in the larger E1b mRNA that encodes both the E1b 17K and 47K proteins nor in the mRNA encoding pIX. The relative times of appearance of the mRNAs from the E1-pIX gene region following infection of bovine cells with BAV3 was determined.

Mucosal immunization of calves with recombinant bovine adenovirus-3: induction of protective immunity to bovine herpesvirus-1

To determine the potential of replication-competent (E3-deleted) bovine adenovirus-3 (BAV-3) as a delivery system for vaccine antigens in calves, we evaluated the ability of recombinant BAV-3 expressing different forms of of bovine herpesvirus-1 (BHV-1) glycoprotein gD to protect against BHV-1 infection in calves that had pre-existing BAV-3 specific antibodies. Three- to four-month-old calves, vaccinated intranasally with recombinant BAV-3 expressing full-length gD (BAV3.E3gD) or a truncated version of gD (gDt) (BAV3.E3gDt), or with E3-deleted BAV-3 (BAV3.E3d; control), were challenged with BHV-1 strain 108. Vaccination with BAV3.E3gD or BAV3.E3gDt induced gD-specific antibody responses in serum and nasal secretions, and primed calves for gD-specific lymphoproliferative responses. In addition, all calves developed complement-independent neutralizing antibodies against BHV-1. Protection against viral challenge was observed in calves vaccinated with recombinant BAV3.E3gD or BAV3.E3gDt as shown by a significant reduction in body temperature and clinical disease, and a partial reduction in the amount and duration of virus excretion in nasal secretions. These results indicate that replication-competent BAV-3-based vectors can induce protective immune responses in calves (the natural host) that have pre-existing BAV-3-specific antibodies.

Transcription mapping and characterization of 284R and 121R proteins produced from early region 3 of bovine adenovirus type 3

We established the transcription map of early region (E) 3 of bovine adenovirus 3 (BAV-3) by Northern blot, S1 nuclease protection assays, cDNA sequencing, and RT-PCR analysis. Five major classes of mRNAs were identified, which shared the 3' ends. Four classes of mRNAs transcribed from the E3 promoter also shared the 5' end, while one major class of mRNA transcribed from the major late promoter contained a tripartite leader sequence at the 5' end. These five transcripts have the potential to encode four proteins, namely 284R, 121R, 86R, and 82R. To identify the proteins, rabbit antiserum was prepared using a bacterial fusion protein encoding 284R or 121R protein. Serum against 284R immunoprecipitated protein of 26-32 kDa in in vitro translated and transcribed mRNA and three proteins of 48, 67, and 125 kDa from BAV-3-infected cells. Western blots and enzymatic digestions confirmed that the 284R protein is a glycoprotein, which contains only N-linked oligosaccharides, both high mannose (48 kDa) and complex types (67 kDa). Serum against 121R immunoprecipitated a protein of 14.5 kDa from in vitro translated and transcribed mRNA and BAV-3-infected cells. Although 121R protein shows limited sequence similarity to a 14.7-kDa protein of human adenovirus 5, the 284R protein appears to be unique to BAV-3. Since proteins encoded by the E3 region appear to influence adenovirus pathogenesis, the 284R protein may contribute to the unique pathogenic properties of BAV-3.

Development of porcine adenovirus-3 as an expression vector

Porcine adenovirus-3 (PAV-3) was developed as an expression vector using homologous recombination in Escherichia coli BJ 5183. As a prerequisite, the complete genome of PAV-3 was first introduced as a PacI restriction fragment into a bacterial plasmid. The plasmid, when PacI restricted and transfected into swine testicular cells, produces an infectious virus. The potential of this procedure was demonstrated by the construction of several PAV-3 recombinants. Part of the E3 region, which is nonessential for virus replication under cell culture conditions, was identified and deleted from the virus genome. The gene for glycoprotein D (gD) of pseudorabies virus (PRV), which elicits PRV-neutralizing antibodies in pigs, was cloned and expressed from the E3 region of PAV-3. A 50 kDa polypeptide was identified in recombinant PAV-3-infected cell lysates by immunoprecipitation assays using gD-specific monoclonal antibodies. In another experiment, a region between the right inverted terminal repeat and the promoter of the E4 region was used to clone and express the chloramphenicol acetyltransferase (CAT) gene under the control of SV40 immediate early promoter. CAT gene expression was observed irrespective of the orientation of the CAT gene. These results indicate that the helper-independent recombinant PAV-3 could be used as an expression vector and has potential as a recombinant vaccine vector in pigs.

Generation of infectious genome of bovine adenovirus type 3 by homologous recombination in bacteria

The widely used technique of generating adenovirus vectors by homologous recombination in mammalian cells is usually not very efficient. This communication describes a simple method of generating a plasmid containing the full-length genome of an adenovirus by homologous recombination in bacteria. Following transfection of a suitable mammalian cell line with the full-length adenovirus genome, infectious virus progeny could easily be generated. Using this technique the generation of adenovirus recombinants would be efficient and straightforward.

Characterization of early region 1 and pIX of bovine adenovirus-3

The mRNAs from early region 1 (E1) and pIX of bovine adenovirus type 3 (BAV-3) have been studied by Northern blot, S1 nuclease, and cDNA analysis and transcriptional maps for the regions were constructed. The transcriptional map for the E1 region of BAV-3 is different from those of mouse and human adenoviruses for which transcriptional maps for the regions have been constructed. The E1A region of BAV-3 is located between 0.8 and 10.5 map units and several different transcripts are produced from the region using alternative splice donor sites. The transcripts from the E1A region overlap with those of E1B and pIX. In BAV-3, the E1B region maps between 4.2 and 10.5 map units and encodes two major mRNA species. The mRNAs of E1B region differ from each other in that the smaller mRNA coding for the 157R protein has a large intron removed from a region corresponding to the coding region of E1B 420R protein. As in HAVs, the E1B 420R protein of BAV-3 could be translated only by internal initiation from the larger bicistronic mRNA as there are no transcripts produced exclusively for the production of 420R protein. The transcriptional unit of pIX is transcribed from an independent promoter and encodes a structural component of the adenovirus capsid. To identify and characterize the proteins produced from the region, antibodies were raised in rabbits that recognized specific proteins in Western blot and immunoprecipitation assays.

[The patterns in the molecular biology of the adenoviruses (the results of a 20-year study at the Institute of Microbiology and Virology of the National Academy of Sciences of Ukraine)]

Scientific data of the highest importance and priority concerning regularities of structural and functional organization of proteins of adenoviruses capsids and peculiarities of expression of the virus genome are as follows: New antigen determinants of hexon and adenovirus fiber have been discovered, their different nature (conformational or linear) and different orientation, depending on the spatial organization of proteins, have been proved; localization of some epitopes has been determined with the help of synthesised antigen-active peptides, imitating them. Some regularities of structural and functional organization of adenovirus hexon have been determined on the basis of comparative analysis of antigenic specificity and primary structure of proteins being apart in taxonomic respect. The conception of immunoactivation (infectivity neutralization) of adenoviruses has been developed, and a mathematical model of this process has been first proposed, which determines the impact of antibodies to several antigenic determinants of hexon and fiber as well as interferon and complement. The unknown peculiarities of the adenovirus genome expression were studied in the dynamics of productive infection or under the effect of modified nucleosides, proteolysis inhibitors and those of different nature promising for chemotherapy of adenovirus infection. Lymphotropicity of adenoviruses was established and a model of the mixed infection of lymphocytes with adenoviruses, HIV, and Epstein-Barr virus of the herpes virus family was proposed for the first time. It was determined that the mutual interference of viruses was developed at the process of a single or successive infection and this was important to understand AIDS immunopathogenesis. Data presented substantiate the ways of creation of modern efficient preparations for diagnosis, prophylaxis and chemotherapy of adenovirus infection.

Efficient, repeated adenovirus-mediated gene transfer in mice lacking both tumor necrosis factor alpha and lymphotoxin alpha

The efficiency of adenovirus-mediated gene transfer is now well established. However, the cellular and the humoral immune responses triggered by vector injection lead to the rapid elimination of the transduced cells and preclude any efficient readministration. The present investigation focuses on the role of tumor necrosis factor alpha (TNF-alpha), a proinflammatory cytokine, and the related cytokine lymphotoxin alpha (LTalpha), in mounting an immune reaction against recombinant adenovirus vectors. After gene transfer in the liver, mice genetically deficient for both cytokines (TNF-alpha/LTalpha-/-), in comparison with normal mice, presented a weak acute-phase inflammatory reaction, a reduction in cellular infiltrates in the liver, and a severely impaired T-cell proliferative response to both Adenoviral and transgene product antigens. Moreover, we observed a strong reduction in the humoral response to the vector and the transgene product, with a drastic reduction of anti-adenovirus immunoglobulin A and G antibody isotypes. In addition, the reduction in antibody response observed in TNF-alpha/LTalpha-/- and TNF-alpha/LTalpha+/- mice versus TNF-alpha/LTalpha+/+ mice links antibody levels to TNF-alpha/LTalpha gene dosage. Due to the absence of neutralizing antibodies, the TNF-alpha/LTalpha knockout mice successfully express a second gene transduced by a second vector injection. The discovery of the pivotal role played by TNF-alpha in controlling the antibody response against adenovirus will allow more efficient adenovirus-based strategies for gene therapy to be proposed.

Construction and characterization of hexon-chimeric adenoviruses: specification of adenovirus serotype

This study has used the strategy of gene replacement to characterize the contribution of the adenovirus (Ad) capsid protein hexon to serotype definition. By replacing the Ad type 5 (Ad5) hexon gene with sequences from Ad2, we have changed the type specificity of the chimeric virus. The type-determining epitopes are primarily associated with loop 1 of hexon and, to a much lesser degree, with loop 2. In spite of the serotype distinctiveness of the chimeric hexon viruses, epitope similarity between the vectors resulted in a low level of cross-reactive neutralizing antibody, which in combination with activated cellular and innate arms of the immune system is sufficient to suppress gene transduction following readministration in vivo.

Sequence and transcription map analysis of early region-1 of porcine adenovirus type-3

The nucleotide sequence of a region of the genome of porcine adenovirus-3 (PAV-3) between map units 1 and 12.2 was determined. The sequenced region included four major open reading frames, and several transcription control elements. Homology studies, using the deduced amino acid sequences of the open reading frames, revealed genes coding for the E1A, E1B 202R, E1B 474R and pIX proteins. The region was characterized by Northern blot analysis and sequencing of cDNA clones. In PAV-3, the E1A region is located between 1.5 and 3.8 map units. Alternate splice donor sites are used to produce four different types of transcripts from the primary transcript of the E1A region. The E1A proteins of PAV-3 contain a consensus zinc finger motif, which was shown to be the principal transactivation region of human adenovirus-5 (HAV-5) E1A proteins. The PAV-3 E1A proteins also contain a retinoblastoma susceptibility protein (pRb) binding motif, which in HAVs interacts with cellular Rb protein to overcome the pRb mediated transcription repression. The E1B region in PAV-3 maps between 4.0 and 12.2 map units, and shares a polyadenylation signal and polyadenylation sites with the gene coding for pIX. A single major and a number of minor mRNA species are produced from the E1B region. The open reading frame (ORF) analysis of cDNA representing major mRNA produced from the E1B region showed two overlapping ORFs corresponding to 19K and 55K ORFs of HAV-2. In PAV-3, the gene coding for pIX is located between 9.9 and 12.2 map units and codes for a protein of 199 amino acids.

Transcriptional organization of the avian adenovirus CELO

A detailed map of the transcriptional organization of the CELO virus genome was produced. Recent computer analysis of CELO virus has indicated the presence of 38 putative open reading frames (ORFs). This study, based on analysis of the transcriptional products of CELO in vitro, confirmed the presence of RNAs for 26 of these 38 ORFs. All of the results were obtained by cDNA isolation or specific reverse transcriptase PCR. Observation of ORF transcription kinetics postinfection revealed the existence of early and late expression, with the earliest starting at 2 h postinfection. The 5' untranslated regions of some RNAs were also studied, and this revealed the existence of a bipartite leader sequence, comparable in structure to the tripartite leader of mastadenovirus. The leader most probably involved in transcriptional activity was observed in most of the structural protein genes of the CELO virus genome. This suggests some homology in transcriptional organization between the avian adenovirus CELO and known mastadenoviruses such as human adenovirus.

Distribution, persistency, toxicity, and lack of replication of an E1A-deficient adenoviral vector after intracardiac delivery in the cotton rat

Adenoviral vectors were inoculated via intracardiac injection into 5- to 1O-week-old cotton rats (Sigmodon hispidus) to evaluate the effects of systemic delivery. Cotton rats were chosen as a model because they are semipermissive to the replication of human adenoviruses. The vector used was AdV.RSV-tk, a replication-deficient adenovirus with a herpes simplex virus thymidine kinase gene inserted in the E1 region. Vector doses were 3 x 10(8), 3 x 10(9), and 3 x 10(10) viral particles per animal with and without ganciclovir at 10 mg/kg twice a day. Animals were sacrificed and necropsied at 24 hours, 7 days, and 14 days postinoculation. Gross and microscopic pathologic observations in dosed groups were compared with an unmanipulated control group. From each animal, 10 different organ systems were analyzed for histopathology and vector distribution. The only significant microscopic lesions observed were epicardial inflammation and splenic hemosiderosis. Vector sequences persisted throughout the 14-day assay with preponderance in the heart, lung, and lymphoid organs. Infectious virions were detected for 24 hours, and these virions were only detected at the site of injection of two animals in the highest dose group. No viral replication was detected. Therefore, systemic delivery of up to 3 x 10(11) viral particles/kg was well tolerated in this semipermissive host model and did not result in any significant pathology.

[Adenovirus long-term expression of thrombopoietin in vivo: a new model for myeloproliferative syndrome and osteomyelofibrosis]

Using a new adenoviral vector (Ad) construct, we expressed human thrombopoietin (TPO) cDNA (AdTPO) in mice with various inherited immune deficiency syndromes such as nude, SCID and NOD-SCID mice. Immune normal Balb/c mice and a vector construct without TPOcDNA (AdNull), respectively, were used for controls. All animals (3 per group) were treated with a single application of 10(9) PFU (plaque forming unit) of Ad (AdTPO or AdNull) intraperitoneally on day 0. Four to 5 weeks following AdTPO administration, SCID and NOD-SCID mice demonstrated peak concentration of PLT of 12- to 14-fold normal value simultaneously with maximum concentration of PMNs (10- to 12-fold normal value). Later on these animals had a chronic thrombocytosis. In contrast, Balb/c mice and nude mice experienced PLT peak concentration of 4- to 6-fold normal value without granulocytosis 1 to 2 weeks following AdTPO treatment. Only nude mice had chronically elevated PLTs. In contrast, Balb/c mice developed thrombocytopenia due to cross-reacting anti-TPO antibodies. Animals with chronic thrombocytosis revealed increased content of CFU-G/GM, CFU-GEMM and CFU-Meg in bone marrow compared with controls. In contrast, Balb/c mice showed decreased content of CFUs if anti-TPO-antibodies were present. Histologically, only SCID mice developed severe osteomyelofibrosis and osteomyelosclerosis, hepato-splenomegaly, extramedullary hematopoiesis in liver and lung and ultimately suffered of progressive pancytopenia, anisocytosis, fragmentocytosis and a lethal wasting syndrome. In contrast, NOD-SCID mice which demonstrated similar extent of TPO overexpression and in addition to the B- and T-cellular immune deficiency harbour defective monocytes and macrophages, did not develop fibrotic changes of the bone marrow. From these results, we conclude (1) chronic TPO overexpression in vivo may lead to thrombocytosis and granulocytosis with expansion of CFU-GM, -GEMM and -Meg; (2) in vivo expression of adenovirally mediated TPOcDNA depends on immune competency of the host; (3) functionally normal monocytes and macrophages are indispensable for development of secondary osteomyelofibrosis and (4) adenovirally mediated expression of xenogeneic transgenes may brake immune tolerance for the respective self protein leading to autoimmune phenomena. Our in vivo model might provide further insights into the pathophysiology of secondary osteomyelofibrosis and may prove useful in designing new strategies for immune therapies of cancer.

Construction and characterization of E3-deleted bovine adenovirus type 3 expressing full-length and truncated form of bovine herpesvirus type 1 glycoprotein gD

Using the homologous recombination machinery of E. coli, a 1.245-kb deletion was introduced in the E3 region of bovine adenovirus 3 (BAV3) genomic DNA cloned in a plasmid. Transfection of the restriction enzyme-excised, linear E3-deleted BAV3 genomic DNA into primary fetal bovine retina cells produced infectious virus (BAV3. E3d), suggesting that all the E3-specific open reading frames are nonessential for virus replication in vitro. Using a similar approach, we constructed replication-competent (BAV3.E3gD and BAV3. E3gDt) BAV3 recombinant expressing full-length (gD) or truncated (gDt) glycoprotein of bovine herpes virus 1. Recombinant gD and gDt proteins expressed by BAV3.E3gD and BAV3.E3gDt, respectively, were recognized by gD-specific monoclonal antibodies directed against conformational epitopes, suggesting that antigenicity of recombinant gD and gDt was similar to that of the native gD expressed in bovine herpes virus 1-infected cells. Intranasal immunization of cotton rats induced strong gD- and BAV3-specific IgA and IgG immune responses. These results suggest that replication-competent bovine adenovirus 3-based vectors have potential for the delivery of vaccine antigens to the mucosal surfaces of animals.

Mouse adenovirus type 1 early region 1A is dispensable for growth in cultured fibroblasts

Mouse adenovirus type 1 (MAV-1) mutants with deletions of conserved regions of early region 1A (E1A) or with point mutations that eliminate translation of E1A were used to determine the role of E1A in MAV-1 replication. MAV-1 E1A mutants expressing no E1A protein grew to titers comparable to wild-type MAV-1 titers on mouse fibroblasts (3T6 fibroblasts and fibroblasts derived from Rb+/+, Rb+/-, and Rb-/- transgenic embryos). To test the hypothesis that E1A could induce a quiescent cell to reenter the cell cycle, fibroblasts were serum starved to stop DNA replication and cellular replication and then infected with the E1A mutant and wild-type viruses. All grew to equivalent titers. Steady-state levels of MAV-1 early mRNAs (E1A, E1B, E2, E3, and E4) from 3T6 cells infected with wild-type or E1A mutant virus were examined by Northern analysis. Steady-state levels of mRNAs from the mutant-infected cells were comparable to or greater than the levels found in wild-type virus infections for most of the early regions and for two late genes. The E2 mRNA levels were slightly reduced in all mutant infections relative to wild-type infections. E1A mRNA was not detected from infections with the MAV-1 E1A null mutant, pmE109, or from infections with similar MAV-1 E1A null mutants, pmE112 and pmE113. The implications for the lack of a requirement of E1A in cell culture are discussed.

Characterization of bovine adenovirus type 3 early region 2B

We have determined the nucleotide sequence of a 6999 base pair region of bovine adenovirus-3 covering map units 9.0 to 29.17, which contained the adenovirus homologs of IVa2 protein and the DNA replication proteins, precursor of terminal protein and DNA polymerase proteins. Analysis of the sequence for cis-acting elements suggests that transcripts of DNA polymerase and precursor of terminal protein are 3' co-terminal. In addition, this region also contains major late promoter sequence. The sequence to the left of IVa2 contains the ORF of pIX with a potential TATA box immediately upstream and two polyadenylation consensus signals immediately downstream of the ORF.

Sequence analysis of the terminal protein precursor coding regions from bovine adenovirus serotypes 2 and 3

As part of our efforts to develop bovine adenoviruses into a vector system, we sequenced the region predicted to encode the terminal protein precursor of either bovine adenoviruses type 2 and bovine adenoviruses type 3. We examined the regions containing the terminal protein precursors and showed that the bovine adenovirus early region 2B had an identical organization to all adenoviruses so far examined. The bovine adenovirus terminal protein precursors and those of other adenoviruses were also compared in a sequence alignment analysis and several highly conserved structural domains were identified. Finally, we showed how the various terminal protein precursors were related in a sequence pair similarity analysis and concluded that the terminal protein precursors of bovine adenoviruses types 2 and 3 are significantly different from each other at the protein sequence level.

Analysis of the hexon gene sequence of bovine adenovirus type 4 provides further support for a new adenovirus genus (Atadenovirus)

The putative hexon gene of bovine adenovirus type 4 (BAV-4), encoding 910 amino acid residues, has been identified and sequenced. A characteristic codon usage biased towards the use of AT-rich triplets was observed. Comparative analysis with other hexon sequences detected a high level of amino acid identity in the regions corresponding to the pedestals of the hexon. Substitutions, insertions and deletions were identified mainly in the variable regions forming the loops which are exposed on the outer surface of the virion. In these variable regions, BAV-4 shared similarity only with egg drop syndrome (EDS) virus and ovine adenovirus isolate 287 (OAV287). The close relationship of these viruses was also demonstrated by phylogenetic analysis of the hexon gene. In addition to the two groups of the Mastadenovirus and Aviadenovirus genera, a third cluster appeared comprising BAV-4, OAV287 and EDS virus.

Identification of transcripts and promoter regions of ovine adenovirus OAV287

The ovine adenovirus isolated OAV287 represents a new group of adenoviruses that are distinct from the Mast- and Aviadenoviruses by several criteria, including genome arrangement. The OAV major late promoter and some late transcripts were previously mapped. To better define the probable coding sequences and to identify the approximate location of early promoters a partial transcription map of the genome was elucidated using a PCR-based approach. This was possible because the complete nucleotide sequence of the genome was known. The strategy permitted the identification of transcription start sites and RNA splice junctions and allowed the approximate location of promoters in the lefthand end, IVa2, E2, P32K, and E4 regions to be deduced. The data showed that lefthand end and E4 regions are controlled by three and two temporally distinct promoters, respectively. The E2 region is controlled by a single promoter, in contrast to Mastadenoviruses, where E2 expression is controlled by the E2A and E2B promoters. The p32kDa structural protein at the lefthand end and the IVa2 protein are also expressed from their own promoters. These data contribute to the first overview of transcription from a non-Mastadenovirus genome.

Sequencing and phylogenetic analysis of the protease gene, and genetic mapping of bovine adenovirus type 10 define its relatedness to other bovine adenoviruses

The complete genome of a bovine adenovirus (BAV) type 10 isolate was molecularly cloned and partially sequenced. The encoded proteins were predicted by computer analysis of the DNA sequences of the ends or the entire length of the cloned viral fragments, and thus a rough genetic map was constructed. The protease gene of BAV-10 was completely sequenced and used in phylogenetic analysis. Based on the results of the phylogenetic analysis, and the location and presence of certain genes thought to be specifically characteristic of subgroup 1 or subgroup 2 BAVs, it could be concluded that, in spite of the striking similarity in certain biological properties, BAV-10 is not related to subgroup 2 BAVs as originally described. It does not however fit clearly into subgroup 1 either, the members of which show closer relationship with human adenoviruses. BAV-10 therefore should best be considered as the first member of a third subgroup of BAVs.

Sequence, transcriptional analysis, and deletion of the bovine adenovirus type 1 E3 region

The early 3 (E3) transcriptional unit of human adenoviruses (HAV) encodes proteins that modulate host antiviral immune defenses. HAV E3 sequences are highly variable; different HAV groups encode phylogenetically unrelated proteins. The role of the E3 region of many human and animal adenoviruses is unknown because the sequences are unrelated to previously characterized viruses and the functions of proteins encoded by these regions have not been studied. We sequenced a portion of the bovine adenovirus serotype 1 (BAV-1) genome corresponding to the putative E3 region. This sequence was substantially different from other adenoviral E3 sequences, including those of two other bovine adenoviruses. However, two regions of putative sequence conservation were identified. BAV-1 E3 sequences were identified in early and late transcripts, but, unlike HAV, introns were not detected in the E3 region transcripts. Like HAV E3, a majority of the BAV-1 E3 region was not essential for growth in cell culture, as demonstrated by the construction of a recombinant BAV-1 lacking 60% of the putative E3 region.

Nucleotide and amino acid sequence analysis of the 100K protein of a serotype 3 porcine adenovirus

The genomic region between map units 69 and 78 of a type 3 porcine adenovirus (PAV3) was sequenced and analysed. An open reading frame (ORF) of 2514 nucleotides encoding a polypeptide of 838 amino acids and approximately 94.1 kDa was found. The size and location of the ORF suggested it was the PAV3 homologue of the 100K gene and this was confirmed by nucleotide sequence comparison with the 100K of human adenovirus type 2. Amino acid sequence alignment of the predicted polypeptide with the sequences of the 100K proteins of four human adenoviruses and type 10 fowl adenovirus revealed sequence identities of between 31% and 52%. Although amino acid conservation was present throughout the entire sequences compared, lower identity was noted in both the amino- and carboxy-termini.

Nucleotide sequence, genome organization, and transcription map of bovine adenovirus type 3

The complete DNA sequence of bovine adenovirus type 3 is reported here. The size of the genome is 34,446 bp in length with a G+C content of 54%. All the genes of the early and late regions are present in the expected locations of the genome. However, the late-region genes are organized into seven families, instead of five as they are in human adenovirus type 2. The deduced amino acid sequences of open reading frames (ORFs) in the late regions and early region 2 (E2) and for IVa2 show higher degrees of homology, whereas the predicted amino acid sequences of ORFs in the E1, E3, and E4 regions and the pIX, fiber, and 33,000-molecular-weight nonstructural proteins show little or no homology with the corresponding proteins of other adenoviruses. In addition, the penton base protein lacks the integrin binding motif, RGD, but has an LDV motif instead of an MDV motif. Interestingly, as in other animal adenoviruses, the virus-associated RNA genes appear to be absent from their usual location. Sequence analysis of cDNA clones representing the early- and late-region genes identified splice acceptor and splice donor sites, polyadenylation signals and polyadenylation sites, and tripartite leader sequences.