DNA structure, and hemagglutination properties of bovine adenovirus type 2 strains which bypass species specificity

Detection of bovine and porcine adenoviruses for tracing the source of fecal contamination

In this study, a molecular procedure for the detection of adenoviruses of animal origin was developed to evaluate the level of excretion of these viruses by swine and cattle and to design a test to facilitate the tracing of specific sources of environmental viral contamination. Two sets of oligonucleotides were designed, one to detect porcine adenoviruses and the other to detect bovine and ovine adenoviruses. The specificity of the assays was assessed in 31 fecal samples and 12 sewage samples that were collected monthly during a 1-year period. The data also provided information on the environmental prevalence of animal adenoviruses. Porcine adenoviruses were detected in 17 of 24 (70%) pools of swine samples studied, with most isolates being closely related to serotype 3. Bovine adenoviruses were present in 6 of 8 (75%) pools studied, with strains belonging to the genera Mastadenovirus and Atadenovirus and being similar to bovine adenoviruses of types 2, 4, and 7. These sets of primers produced negative results in nested PCR assays when human adenovirus controls and urban-sewage samples were tested. Likewise, the sets of primers previously designed for detection of human adenovirus also produced negative results with animal adenoviruses. These results indicate the importance of further studies to evaluate the usefulness of these tests to trace the source of fecal contamination in water and food and for environmental studies.

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.

Cloning and sequencing of the bovine adenovirus type 2 early region 4

Bovine adenovirus type 2 (BAV2) is a medium size double-stranded DNA virus which infects both bovine and ovine species, resulting in mild respiratory and gastrointestinal disorders. To better understand the virus and its growth characteristics in Madin-Darby bovine kidney (MDBK) cells, we have cloned and sequenced the extreme right-end segment of the BAV2 genome (90.5-100 map units). Analysis of the nucleotide sequence revealed 40 potential open reading frames (ORFs) with coding capacity for polypeptides that are 25 or more amino acid (aa) residues long. Six of these ORFs encode polypeptides that show homology to well-characterized early region 4 (E4) proteins of human adenovirus type 2 (Ad2) and Ad12. ORF1 has the potential to encode a 114 aa long polypeptide that is 54% homologous to the E4 14kDa protein of Ad2. ORF2 encodes a 78 aa long polypeptide that exhibits 40% homology to the E4 13 kDa protein of Ad2. ORFs 3-6 encode polypeptides that have homology to the E4 34 kDa protein encoded by ORF6 of Ad2 and Ad12. ORFs 3, 4 and 5 encode 128, 96 and 31 aa long polypeptides, respectively. The 128-aa polypeptide exhibits 59% homology, while the 96 and 31 aa long polypeptides exhibit 61% and 70% homology to the E4 34 kDa protein, respectively. ORF6 has the potential to encode a 57 aa long polypeptide that has 67% homology to the E4 34 kDa protein of Ad2 and 50% homology to the E4 34 kDa protein of Ad12.

Characterisation of Australian ovine adenovirus isolates

We have characterised two groups of adenoviruses isolated from sheep in Australia. Restriction endonuclease maps for enzymes BamHI, ClaI, SalI, SmaI and SphI have been determined for the genome of ovine adenoviruses related to bovine adenovirus serotype 7 (BAV 7) from sheep in Western Australia. Although previously serotyped as BAV 7 these isolates are different from bovine isolates of BAV 7 based on comparison with published restriction endonuclease profiles and maps of BAV 7 cattle isolates. Additional adenovirus isolates obtained from Victorian sheep have been serotyped as ovine adenovirus type 5 (OAV 5). On the basis of restriction endonuclease analysis these viruses are different from the sheep BAV 7 isolates. Following infection of sheep with ovine BAV 7 and OAV 5 isolates, virus was recovered from nasal and rectal swabs for several days. Antibodies detected by ELISA and serum neutralisation tests (SN) developed by 15 days after infection. Virus also spread from the infected sheep to an incontact control and one of ten sheep purchased for infection studies had SN antibodies to BAV 7 suggesting that BAV 7-like viruses naturally infect sheep in Victoria and Western Australia. With further development, these ovine adenoviruses may be suitable as vectors for the delivery of vaccine antigens to sheep and cattle.

Experimental infection of weaned calves and lambs with two strains of bovine adenovirus type 2

The pathogenicity of two genetically different strains of bovine adenovirus type 2 (BAV-2) was tested in a double cross experimental infection of weaned lambs and calves. One of the virus strains was isolated from cattle and represented BAV-2 subgroup "A", while the other was isolated from sheep and belonged to subgroup "B" (Belák et al., 1983). The two virus strains caused infection both in lambs and calves; the viruses were repeatedly reisolated and definite seroconversion was found in all four groups. However, remarkable differences were observed in the pathogenicity: the most intensive virus multiplication and shedding, the most severe clinical symptoms and histopathological lesions were observed in the lamb group infected with the ovine isolate.

Detection of bovine adenovirus nucleic acid sequences in nasal specimens by biotinylated DNA probes

Bovine adenovirus infection has been detected in experimentally infected lambs by applying the rapid and simple DNA detection method of direct filter hybridization (DFH). Three fragments of BAV-2 DNA were obtained by molecular cloning and labelled with biotin. Clone 207, representing an EcoRI fragment between coordinates 35 to 55 of the viral genome, showed the highest sensitivity to detect adenovirus DNA, thus, this probe was applied on nasal cells from the lambs. Comparative tests revealed a concordance over 97% between the results of conventional virus isolation and of the DFH method. Virus isolation required several weeks to be completed, whereas the DFH method gave results within 10 hours. Considering its simplicity, speed and economy, the DFH method is recommended as a practical diagnostic tool for the direct detection of adenoviruses in clinical specimens.

Antigenic relationship between human and animal adenovirus hexons determined by means of monoclonal antibodies directed against bovine adenovirus type 2 hexon

Eight monoclonal antibodies (MAbs) directed against bovine adenovirus (BAV) 2 subtype B hexon were studied with 12 different hexon types of human adenoviruses (AV) belonging to 5 different subgenera using indirect ELISA, passive hemagglutination (HA), and gel diffusion assays. Two hexon types of animal origin (BAV3 and SAV16) were investigated, too. The reactivity of the MAb IV.F3 was the broadest, i.e. in ELISA and HA experiments it reacted with all hexon types studied. Based on these results as well as on the results of gel diffusion assays, this MAb should recognize the genus specific epitope of adenovirus hexons. Three MAbs (CA12, III.B11, and A12) could recognize different epitopes showing intersubgenus or intertype specificities. In spite of the fact, that all the eight MAbs proved to be bound by the hexon of ORT/111 (BAV2 subtype B) blotted onto nitrocellulose filter, four of the eight MAbs (BB7, BH5, II.A9, and IV.F5) failed to react with any human, and animal hexon types used in the present experiments. The results suggest that a gradient of antigenic relationship may exist between BAV2 hexon and the hexons of human serotypes.

Subtypes of bovine adenovirus type 2 exhibit major differences in region E3

The genomes of two adenovirus type 2 strains which were isolated from different hosts have been investigated. One of these strains designated ORT-111 was originally isolated from a lamb in Hungary during an outbreak of pneumoenteritis. This isolate was typed as bovine adenovirus type 2 (Ad bos 2) in a neutralization assay. The genome of ORT-111 was compared to that of the prototype strain of Ad bos 2, a virus which exclusively has been isolated from cattle. Electron microscopic heteroduplex analysis showed that 95% of the genomes were well matched, forming stable duplexes at Tm -6 degrees. Two distinct substitution loops were, however, seen which were approximately 0.5 and 1.0 kbp long. The centers of the two loops were located 5.3 and 7.7 kbp from one end of the Ad bos 2 genome. In order to map these regions relative to the gene map of human adenovirus type 2 (Ad2), restriction enzyme cleavage fragments of the two bovine viruses were cloned and hybridized to different sets of restriction fragments of human Ad2. From these results it was apparent that the centers of the two substitution loops were located at coordinates 76 and 83, respectively; thus at positions which fall within region E3 and the adjacent gene for polypeptide VIII of human Ad2. The observed differences between the genomes of the two Ad bos 2 strains are in sharp contrast to those previously observed when the genomes of different human adenovirus serotypes were compared. In the latter case the hexon and the fiber genes showed the most pronounced variation.

In utero adenoviral infection of sheep

The occurrence of natural in utero adenovirus infection in sheep was examined. Isolation of three adenovirus strains from the kidneys of 174 sheep foetuses is reported; all three isolates belonged to Type 2 bovine adenovirus (BAV 2) Subtype B. Five of 25 blood samples from sheep foetuses contained virus-neutralizing antibodies (1:4-1:24) against BAV 2. These data prove that transplacental transfer of adenovirus infection can occur naturally in sheep.

Immunological and biochemical characterization of human adenoviruses from subgenus B. II. DNA restriction analysis

47 adenovirus strains related to Ad11, 14, 16, 21, 34, and 35 (including all subgenus B prototypes) were analyzed by DNA restriction analysis with Bam HI, Bgl II, Hind III, and Sma I. Typical fragments occurring in most of the strains were observed only with Hind III. Besides Ad3 and 7, 20 different genome types were distinguished. A pairwise analysis of comigrating fragments was performed for all genome types and summarized for the four enzymes. A medium rate of comigrating fragments (50 to 60 per cent) was found between Ad11, 14, 34, and 35 strains; Ad16 and 21 had 35 to 50 percent comigrating fragments. Within each group of closely related strains, Ad16 strains, Ad21 strains, and Ad34 + 35 strains showed a high rate (greater than 70 per cent) of comigrating fragments. Ad3 and 7 showed more comigration with Ad16 and 21 than with the others. Sixteen strains related to Ad21 were identical in their DNA restriction pattern and by serology. The relatedness determined by fragment comigration and by serology was compared by a quantitative estimate. The DNA relationship between Ad11 + 14 and Ad34 + 35 was not corroborated by serology. Ad21 was serologically related to Ad34 and 35, but not to Ad16; the opposite was found for DNA. The intermediate Ad21-16 showed a unique DNA pattern with some relation to Ad16.